#include <ejit/ejit.h>
#include "../../deps/lightening/lightening/lightening.c"
#include "../common.h"
#define VEC_TYPE jit_operand_t
#define VEC_NAME operands
#include "../vec.h"
struct reloc_helper {
jit_reloc_t r;
size_t to;
};
#define VEC_TYPE struct reloc_helper
#define VEC_NAME relocs
#include "../vec.h"
#define VEC_TYPE jit_addr_t
#define VEC_NAME addrs
#include "../vec.h"
static void *alloc_arena(size_t size)
{
return mmap(NULL, size,
PROT_EXEC | PROT_READ | PROT_WRITE,
MAP_PRIVATE | MAP_ANONYMOUS, -1, 0);
}
static void free_arena(void *arena, size_t size)
{
munmap(arena, size);
}
static size_t grploc_count(struct ejit_func *f)
{
return f->gpr < jit_v_num() ? 0 : f->gpr - jit_v_num();
}
static size_t frploc_count(struct ejit_func *f)
{
return f->fpr < jit_vf_num() ? 0 : f->fpr - jit_vf_num();
}
static size_t stack_size(struct ejit_func *f)
{
return grploc_count(f) * sizeof(jit_uword_t)
+ frploc_count(f) * sizeof(jit_float64_t);
}
static jit_off_t stack_loc(size_t l)
{
assert(l >= jit_v_num());
return (l - jit_v_num()) * sizeof(jit_uword_t);
}
static jit_off_t stack_loc_f(struct ejit_func *f, size_t l)
{
assert(l >= jit_vf_num());
return grploc_count(f) * sizeof(jit_uword_t)
+ (l - jit_vf_num()) * sizeof(jit_float64_t);
}
static jit_gpr_t getloc(struct ejit_func *f, jit_state_t *j, size_t l, size_t i)
{
(void)(f);
if (l < jit_v_num())
return jit_v(l);
jit_ldxi(j, jit_r(i), JIT_SP, stack_loc(l));
return jit_r(i);
}
static jit_fpr_t getloc_f(struct ejit_func *f, jit_state_t *j, size_t l,
size_t i)
{
(void)(f);
if (l < jit_vf_num())
return jit_vf(l);
jit_ldxi_f(j, jit_f(i), JIT_SP, stack_loc_f(f, l));
return jit_f(i);
}
static jit_fpr_t getloc_d(struct ejit_func *f, jit_state_t *j, size_t l,
size_t i)
{
(void)(f);
if (l < jit_vf_num())
return jit_vf(l);
/* not that stack_loc_f assumes double, so floats technically take up
* more space than needed but at least we don't get any alignment issues */
jit_ldxi_d(j, jit_f(i), JIT_SP, stack_loc_f(f, l));
return jit_f(i);
}
static jit_gpr_t getgpr(struct ejit_func *f, size_t l, size_t i)
{
(void)(f);
if (l < jit_v_num())
return jit_v(l);
return jit_r(i);
}
static jit_fpr_t getfpr(struct ejit_func *f, size_t l, size_t i)
{
if (l < jit_vf_num())
return jit_vf(l);
return jit_f(i);
}
static void putloc(struct ejit_func *f, jit_state_t *j, size_t l, jit_gpr_t r)
{
(void)(f);
if (l < jit_v_num()) {
assert(jit_v(l).regno == r.regno);
return;
}
jit_stxi(j, stack_loc(l), JIT_SP, r);
}
static void putloc_f(struct ejit_func *f, jit_state_t *j, size_t l, jit_fpr_t r)
{
if (l < jit_vf_num()) {
assert(jit_v(l).regno == r.regno);
return;
}
jit_stxi_f(j, stack_loc_f(f, l), JIT_SP, r);
}
static void putloc_d(struct ejit_func *f, jit_state_t *j, size_t l, jit_fpr_t r)
{
if (l < jit_vf_num()) {
assert(jit_v(l).regno == r.regno);
return;
}
jit_stxi_d(j, stack_loc_f(f, l), JIT_SP, r);
}
static void compile_label(jit_state_t *j, size_t ii, struct addrs *addrs)
{
*addrs_at(addrs, ii) = jit_address(j);
}
static void compile_movi(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r = getgpr(f, i.r0, 0);
jit_movi(j, r, i.o);
putloc(f, j, i.r0, r);
}
static void compile_movi_f(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r = getfpr(f, i.r0, 0);
jit_movi_f(j, r, i.f);
putloc_f(f, j, i.r0, r);
}
static void compile_movi_d(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r = getfpr(f, i.r0, 0);
jit_movi_d(j, r, i.d);
putloc_d(f, j, i.r0, r);
}
static void compile_movr(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t to = getgpr(f, i.r0, 0);
jit_gpr_t from = getloc(f, j, i.r1, 1);
jit_movr(j, to, from);
putloc(f, j, i.r0, to);
}
static void compile_movr_f(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t to = getfpr(f, i.r0, 0);
jit_fpr_t from = getloc_f(f, j, i.r1, 1);
jit_movr_f(j, to, from);
putloc_f(f, j, i.r0, to);
}
static void compile_movr_d(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t to = getfpr(f, i.r0, 0);
jit_fpr_t from = getloc_d(f, j, i.r1, 1);
jit_movr_d(j, to, from);
putloc_d(f, j, i.r0, to);
}
static void compile_addr(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t dst = getgpr(f, i.r0, 0);
jit_gpr_t src0 = getloc(f, j, i.r1, 1);
jit_gpr_t src1 = getloc(f, j, i.r2, 2);
jit_addr(j, dst, src0, src1);
putloc(f, j, i.r0, dst);
}
static void compile_addi(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t dst = getgpr(f, i.r0, 0);
jit_gpr_t src0 = getloc(f, j, i.r1, 1);
jit_addi(j, dst, src0, i.o);
putloc(f, j, i.r0, dst);
}
static void compile_subr(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t dst = getgpr(f, i.r0, 0);
jit_gpr_t src0 = getloc(f, j, i.r1, 1);
jit_gpr_t src1 = getloc(f, j, i.r2, 2);
jit_subr(j, dst, src0, src1);
putloc(f, j, i.r0, dst);
}
static void compile_subi(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t dst = getgpr(f, i.r0, 0);
jit_gpr_t src0 = getloc(f, j, i.r1, 1);
jit_subi(j, dst, src0, i.o);
putloc(f, j, i.r0, dst);
}
static void compile_subr_f(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_fpr_t r1 = getloc_f(f, j, i.r1, 1);
jit_fpr_t r2 = getloc_f(f, j, i.r2, 2);
jit_subr_f(j, r0, r1, r2);
putloc_f(f, j, i.r0, r0);
}
static void compile_subr_d(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_fpr_t r1 = getloc_d(f, j, i.r1, 1);
jit_fpr_t r2 = getloc_d(f, j, i.r2, 2);
jit_subr_d(j, r0, r1, r2);
putloc_d(f, j, i.r0, r0);
}
static void compile_mulr(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_mulr(j, r0, r1, r2);
putloc(f, j, i.r0, r0);
}
static void compile_mulr_f(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_fpr_t r1 = getloc_f(f, j, i.r1, 1);
jit_fpr_t r2 = getloc_f(f, j, i.r2, 2);
jit_mulr_f(j, r0, r1, r2);
putloc_f(f, j, i.r0, r0);
}
static void compile_mulr_d(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_fpr_t r1 = getloc_d(f, j, i.r1, 1);
jit_fpr_t r2 = getloc_d(f, j, i.r2, 2);
jit_mulr_d(j, r0, r1, r2);
putloc_d(f, j, i.r0, r0);
}
static void compile_andi(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_andi(j, r0, r1, i.o);
putloc(f, j, i.r0, r0);
}
static void compile_andr(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_andr(j, r0, r1, r2);
putloc(f, j, i.r0, r0);
}
static void compile_ori(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_ori(j, r0, r1, i.o);
putloc(f, j, i.r0, r0);
}
static void compile_orr(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_orr(j, r0, r1, r2);
putloc(f, j, i.r0, r0);
}
static void compile_xori(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_xori(j, r0, r1, i.o);
putloc(f, j, i.r0, r0);
}
static void compile_xorr(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_xorr(j, r0, r1, r2);
putloc(f, j, i.r0, r0);
}
static void compile_divr(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_divr(j, r0, r1, r2);
putloc(f, j, i.r0, r0);
}
static void compile_divr_u(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_divr_u(j, r0, r1, r2);
putloc(f, j, i.r0, r0);
}
static void compile_divr_d(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_fpr_t r1 = getloc_d(f, j, i.r1, 1);
jit_fpr_t r2 = getloc_d(f, j, i.r2, 2);
jit_divr_d(j, r0, r1, r2);
putloc_d(f, j, i.r0, r0);
}
static void compile_divr_f(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_fpr_t r1 = getloc_f(f, j, i.r1, 1);
jit_fpr_t r2 = getloc_f(f, j, i.r2, 2);
jit_divr_f(j, r0, r1, r2);
putloc_f(f, j, i.r0, r0);
}
static void compile_remr(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_remr(j, r0, r1, r2);
putloc(f, j, i.r0, r0);
}
static void compile_remr_u(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_remr_u(j, r0, r1, r2);
putloc(f, j, i.r0, r0);
}
static void compile_absr_f(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_fpr_t r1 = getloc_f(f, j, i.r1, 1);
jit_absr_f(j, r0, r1);
putloc_f(f, j, i.r0, r0);
}
static void compile_absr_d(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_fpr_t r1 = getloc_d(f, j, i.r1, 1);
jit_absr_f(j, r0, r1);
putloc_d(f, j, i.r0, r0);
}
static void compile_addr_f(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_fpr_t r1 = getloc_f(f, j, i.r1, 1);
jit_fpr_t r2 = getloc_f(f, j, i.r2, 2);
jit_addr_f(j, r0, r1, r2);
putloc_f(f, j, i.r0, r0);
}
static void compile_addr_d(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_fpr_t r1 = getloc_d(f, j, i.r1, 1);
jit_fpr_t r2 = getloc_d(f, j, i.r2, 2);
jit_addr_d(j, r0, r1, r2);
putloc_d(f, j, i.r0, r0);
}
static void compile_lshi(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_lshi(j, r0, r1, i.o);
putloc(f, j, i.r0, r0);
}
static void compile_lshr(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_lshr(j, r0, r1, r2);
putloc(f, j, i.r0, r0);
}
static void compile_rshi(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_rshi(j, r0, r1, i.o);
putloc(f, j, i.r0, r0);
}
static void compile_rshi_u(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_rshi_u(j, r0, r1, i.o);
putloc(f, j, i.r0, r0);
}
static void compile_rshr(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_rshr(j, r0, r1, r2);
putloc(f, j, i.r0, r0);
}
static void compile_rshr_u(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_rshr_u(j, r0, r1, r2);
putloc(f, j, i.r0, r0);
}
static void compile_sti8(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getloc(f, j, i.r0, 0);
jit_sti_c(j, i.p, r0);
}
static void compile_sti16(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getloc(f, j, i.r0, 0);
jit_sti_s(j, i.p, r0);
}
static void compile_sti32(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getloc(f, j, i.r0, 0);
jit_sti_i(j, i.p, r0);
}
static void compile_sti64(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getloc(f, j, i.r0, 0);
jit_sti_l(j, i.p, r0);
}
static void compile_stif(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getloc_f(f, j, i.r0, 0);
jit_sti_f(j, i.p, r0);
}
static void compile_stid(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getloc_d(f, j, i.r0, 0);
jit_sti_d(j, i.p, r0);
}
static void compile_stxi8(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getloc(f, j, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_stxi_c(j, i.o, r1, r0);
}
static void compile_stxi16(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getloc(f, j, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_stxi_s(j, i.o, r1, r0);
}
static void compile_stxi32(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getloc(f, j, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_stxi_i(j, i.o, r1, r0);
}
static void compile_stxi64(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getloc(f, j, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_stxi_l(j, i.o, r1, r0);
}
static void compile_stxif(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getloc_f(f, j, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_stxi_f(j, i.o, r1, r0);
}
static void compile_stxid(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getloc_d(f, j, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_stxi_d(j, i.o, r1, r0);
}
static void compile_stxr8(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getloc(f, j, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_stxr_c(j, r2, r1, r0);
}
static void compile_stxr16(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getloc(f, j, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_stxr_s(j, r2, r1, r0);
}
static void compile_stxr32(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getloc(f, j, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_stxr_i(j, r2, r1, r0);
}
static void compile_stxr64(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getloc(f, j, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_stxr_l(j, r2, r1, r0);
}
static void compile_stxrf(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getloc_f(f, j, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_stxr_f(j, r2, r1, r0);
}
static void compile_stxrd(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getloc_d(f, j, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_stxr_d(j, r2, r1, r0);
}
static void compile_ldiu8(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_ldi_uc(j, r0, i.p);
putloc(f, j, i.r0, r0);
}
static void compile_ldiu16(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_ldi_us(j, r0, i.p);
putloc(f, j, i.r0, r0);
}
static void compile_ldiu32(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_ldi_ui(j, r0, i.p);
putloc(f, j, i.r0, r0);
}
static void compile_ldiu64(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_ldi_l(j, r0, i.p);
putloc(f, j, i.r0, r0);
}
static void compile_ldif(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_ldi_f(j, r0, i.p);
putloc_f(f, j, i.r0, r0);
}
static void compile_ldid(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_ldi_d(j, r0, i.p);
putloc_d(f, j, i.r0, r0);
}
static void compile_ldi8(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_ldi_c(j, r0, i.p);
putloc(f, j, i.r0, r0);
}
static void compile_ldi16(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_ldi_s(j, r0, i.p);
putloc(f, j, i.r0, r0);
}
static void compile_ldi32(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_ldi_i(j, r0, i.p);
putloc(f, j, i.r0, r0);
}
static void compile_ldi64(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_ldi_l(j, r0, i.p);
putloc(f, j, i.r0, r0);
}
static void compile_ldxiu8(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_ldxi_uc(j, r0, r1, i.o);
putloc(f, j, i.r0, r0);
}
static void compile_ldxiu16(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_ldxi_us(j, r0, r1, i.o);
putloc(f, j, i.r0, r0);
}
static void compile_ldxiu32(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_ldxi_ui(j, r0, r1, i.o);
putloc(f, j, i.r0, r0);
}
static void compile_ldxiu64(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_ldxi_l(j, r0, r1, i.o);
putloc(f, j, i.r0, r0);
}
static void compile_ldxif(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_ldxi_f(j, r0, r1, i.o);
putloc_f(f, j, i.r0, r0);
}
static void compile_ldxid(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_ldxi_d(j, r0, r1, i.o);
putloc_d(f, j, i.r0, r0);
}
static void compile_ldxi8(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_ldxi_c(j, r0, r1, i.o);
putloc(f, j, i.r0, r0);
}
static void compile_ldxi16(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_ldxi_s(j, r0, r1, i.o);
putloc(f, j, i.r0, r0);
}
static void compile_ldxi32(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_ldxi_i(j, r0, r1, i.o);
putloc(f, j, i.r0, r0);
}
static void compile_ldxi64(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_ldxi_l(j, r0, r1, i.o);
putloc(f, j, i.r0, r0);
}
static void compile_ldxru8(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_ldxr_uc(j, r0, r1, r2);
putloc(f, j, i.r0, r0);
}
static void compile_ldxru16(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_ldxr_us(j, r0, r1, r2);
putloc(f, j, i.r0, r0);
}
static void compile_ldxru32(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_ldxr_ui(j, r0, r1, r2);
putloc(f, j, i.r0, r0);
}
static void compile_ldxru64(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_ldxr_l(j, r0, r1, r2);
putloc(f, j, i.r0, r0);
}
static void compile_ldxr8(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_ldxr_c(j, r0, r1, r2);
putloc(f, j, i.r0, r0);
}
static void compile_ldxr16(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_ldxr_s(j, r0, r1, r2);
putloc(f, j, i.r0, r0);
}
static void compile_ldxr32(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_ldxr_i(j, r0, r1, r2);
putloc(f, j, i.r0, r0);
}
static void compile_ldxr64(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_ldxr_l(j, r0, r1, r2);
putloc(f, j, i.r0, r0);
}
static void compile_ldxrf(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_ldxr_f(j, r0, r1, r2);
putloc_f(f, j, i.r0, r0);
}
static void compile_ldxrd(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_ldxr_d(j, r0, r1, r2);
putloc_d(f, j, i.r0, r0);
}
static void compile_comr(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_comr(j, r0, r1);
putloc(f, j, i.r0, r0);
}
static void compile_negr(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_negr(j, r0, r1);
putloc(f, j, i.r0, r0);
}
static void compile_negr_f(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_fpr_t r1 = getloc_f(f, j, i.r1, 1);
jit_negr_f(j, r0, r1);
putloc_f(f, j, i.r0, r0);
}
static void compile_negr_d(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_fpr_t r1 = getloc_d(f, j, i.r1, 1);
jit_negr_d(j, r0, r1);
putloc_d(f, j, i.r0, r0);
}
static void compile_extr8(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_extr_c(j, r0, r1);
putloc(f, j, i.r0, r0);
}
static void compile_extr16(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_extr_s(j, r0, r1);
putloc(f, j, i.r0, r0);
}
static void compile_extr32(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_extr_i(j, r0, r1);
putloc(f, j, i.r0, r0);
}
static void compile_extru8(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_extr_uc(j, r0, r1);
putloc(f, j, i.r0, r0);
}
static void compile_extru16(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_extr_us(j, r0, r1);
putloc(f, j, i.r0, r0);
}
static void compile_extru32(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_extr_ui(j, r0, r1);
putloc(f, j, i.r0, r0);
}
static void compile_extrf(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_extr_f(j, r0, r1);
putloc_f(f, j, i.r0, r0);
}
static void compile_extrd(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_extr_d(j, r0, r1);
putloc_d(f, j, i.r0, r0);
}
static void compile_truncr_d_64(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_fpr_t r1 = getloc_d(f, j, i.r1, 1);
jit_truncr_d_l(j, r0, r1);
putloc(f, j, i.r0, r0);
}
static void compile_truncr_d_32(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
#if __WORDSIZE == 64
return compile_truncr_d_64(f, j, i);
#else
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_fpr_t r1 = getloc_d(f, j, i.r1, 1);
jit_truncr_d_i(j, r0, r1);
putloc(f, j, i.r0, r0);
#endif
}
static void compile_truncr_f_64(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_fpr_t r1 = getloc_f(f, j, i.r1, 1);
jit_truncr_f_l(j, r0, r1);
putloc(f, j, i.r0, r0);
}
static void compile_truncr_f_32(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
#if __WORDSIZE == 64
return compile_truncr_f_64(f, j, i);
#else
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_fpr_t r1 = getloc_f(f, j, i.r1, 1);
jit_truncr_f_i(j, r0, r1);
putloc(f, j, i.r0, r0);
#endif
}
static void compile_reg_cmp(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i,
jit_reloc_t (*bcomp)(jit_state_t *, jit_gpr_t,
jit_gpr_t), long same)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
if (i.r1 == i.r2) {
jit_movi(j, r0, same);
putloc(f, j, i.r0, r0);
return;
}
jit_gpr_t r1 = getloc(f, j, i.r1, 1);
jit_gpr_t r2 = getloc(f, j, i.r2, 2);
jit_reloc_t branch = bcomp(j, r1, r2);
/* not equal */
jit_movi(j, r0, 0);
jit_reloc_t jump = jit_jmp(j);
jit_patch_there(j, branch, jit_address(j));
/* equal */
jit_movi(j, r0, 1);
jit_patch_there(j, jump, jit_address(j));
/* write final result */
putloc(f, j, i.r0, r0);
}
static void compile_reg_d_cmp(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i,
jit_reloc_t (*bcomp)(jit_state_t *,
jit_fpr_t,
jit_fpr_t)
)
{
/* note that we don't check for register sameness due to NaN, which
* compares to itself as fast so we can't say for sure if r1 == r1 will
* return true */
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_fpr_t r1 = getloc_d(f, j, i.r1, 1);
jit_fpr_t r2 = getloc_d(f, j, i.r2, 2);
jit_reloc_t branch = bcomp(j, r1, r2);
/* not equal */
jit_movi(j, r0, 0);
jit_reloc_t jump = jit_jmp(j);
jit_patch_there(j, branch, jit_address(j));
/* equal */
jit_movi(j, r0, 1);
jit_patch_there(j, jump, jit_address(j));
/* write final result */
putloc(f, j, i.r0, r0);
}
static void compile_reg_f_cmp(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i,
jit_reloc_t (*bcomp)(jit_state_t *,
jit_fpr_t,
jit_fpr_t)
)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_fpr_t r1 = getloc_f(f, j, i.r1, 1);
jit_fpr_t r2 = getloc_f(f, j, i.r2, 2);
jit_reloc_t branch = bcomp(j, r1, r2);
/* not equal */
jit_movi(j, r0, 0);
jit_reloc_t jump = jit_jmp(j);
jit_patch_there(j, branch, jit_address(j));
/* equal */
jit_movi(j, r0, 1);
jit_patch_there(j, jump, jit_address(j));
/* write final result */
putloc(f, j, i.r0, r0);
}
static void compile_eqr(struct ejit_func *f, jit_state_t *j, struct ejit_insn i)
{
compile_reg_cmp(f, j, i, jit_beqr, 1);
}
static void compile_eqr_d(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
compile_reg_d_cmp(f, j, i, jit_beqr_d);
}
static void compile_eqr_f(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
compile_reg_f_cmp(f, j, i, jit_beqr_f);
}
static void compile_ner(struct ejit_func *f, jit_state_t *j, struct ejit_insn i)
{
compile_reg_cmp(f, j, i, jit_bner, 0);
}
static void compile_ner_d(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
compile_reg_d_cmp(f, j, i, jit_bner_d);
}
static void compile_ner_f(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
compile_reg_f_cmp(f, j, i, jit_bner_f);
}
static void compile_ger(struct ejit_func *f, jit_state_t *j, struct ejit_insn i)
{
compile_reg_cmp(f, j, i, jit_bger, 1);
}
static void compile_ger_u(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
compile_reg_cmp(f, j, i, jit_bger_u, 1);
}
static void compile_ger_d(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
compile_reg_d_cmp(f, j, i, jit_bger_d);
}
static void compile_ger_f(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
compile_reg_f_cmp(f, j, i, jit_bger_f);
}
static void compile_gtr(struct ejit_func *f, jit_state_t *j, struct ejit_insn i)
{
compile_reg_cmp(f, j, i, jit_bgtr, 0);
}
static void compile_gtr_u(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
compile_reg_cmp(f, j, i, jit_bgtr_u, 0);
}
static void compile_gtr_d(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
compile_reg_d_cmp(f, j, i, jit_bgtr_d);
}
static void compile_gtr_f(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
compile_reg_f_cmp(f, j, i, jit_bgtr_f);
}
static void compile_bmci(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_reloc_t r = jit_bmci(j, r1, i.o);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_bmcr(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_gpr_t r2 = getloc(f, j, i.r2, 1);
jit_reloc_t r = jit_bmcr(j, r1, r2);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_bmsi(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_reloc_t r = jit_bmsi(j, r1, i.o);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_bmsr(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_gpr_t r2 = getloc(f, j, i.r2, 1);
jit_reloc_t r = jit_bmsr(j, r1, r2);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_beqi(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_reloc_t r = jit_beqi(j, r1, i.o);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_beqr(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_gpr_t r2 = getloc(f, j, i.r2, 1);
jit_reloc_t r = jit_beqr(j, r1, r2);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_beqr_f(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_fpr_t r1 = getloc_f(f, j, i.r1, 0);
jit_fpr_t r2 = getloc_f(f, j, i.r2, 1);
jit_reloc_t r = jit_beqr_f(j, r1, r2);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_beqr_d(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_fpr_t r1 = getloc_d(f, j, i.r1, 0);
jit_fpr_t r2 = getloc_d(f, j, i.r2, 1);
jit_reloc_t r = jit_beqr_d(j, r1, r2);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_bnei(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_reloc_t r = jit_bnei(j, r1, i.o);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_bner(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_gpr_t r2 = getloc(f, j, i.r2, 1);
jit_reloc_t r = jit_bner(j, r1, r2);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_bner_f(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_fpr_t r1 = getloc_f(f, j, i.r1, 0);
jit_fpr_t r2 = getloc_f(f, j, i.r2, 1);
jit_reloc_t r = jit_bner_f(j, r1, r2);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_bner_d(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_fpr_t r1 = getloc_d(f, j, i.r1, 0);
jit_fpr_t r2 = getloc_d(f, j, i.r2, 1);
jit_reloc_t r = jit_bner_d(j, r1, r2);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_bger(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_gpr_t r2 = getloc(f, j, i.r2, 1);
jit_reloc_t r = jit_bger(j, r1, r2);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_bger_u(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_gpr_t r2 = getloc(f, j, i.r2, 1);
jit_reloc_t r = jit_bger_u(j, r1, r2);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_bgei(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_reloc_t r = jit_bgei(j, r1, i.o);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_bgei_u(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_reloc_t r = jit_bgei_u(j, r1, i.o);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_bger_f(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_fpr_t r1 = getloc_f(f, j, i.r1, 0);
jit_fpr_t r2 = getloc_f(f, j, i.r2, 1);
jit_reloc_t r = jit_bger_f(j, r1, r2);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_bger_d(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_fpr_t r1 = getloc_d(f, j, i.r1, 0);
jit_fpr_t r2 = getloc_d(f, j, i.r2, 1);
jit_reloc_t r = jit_bger_d(j, r1, r2);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_bgtr(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_gpr_t r2 = getloc(f, j, i.r2, 1);
jit_reloc_t r = jit_bgtr(j, r1, r2);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_bgtr_u(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_gpr_t r2 = getloc(f, j, i.r2, 1);
jit_reloc_t r = jit_bgtr_u(j, r1, r2);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_bgti(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_reloc_t r = jit_bgti(j, r1, i.o);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_bgti_u(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_reloc_t r = jit_bgti_u(j, r1, i.o);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_bgtr_f(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_fpr_t r1 = getloc_f(f, j, i.r1, 0);
jit_fpr_t r2 = getloc_f(f, j, i.r2, 1);
jit_reloc_t r = jit_bgtr_f(j, r1, r2);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_bgtr_d(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_fpr_t r1 = getloc_d(f, j, i.r1, 0);
jit_fpr_t r2 = getloc_d(f, j, i.r2, 1);
jit_reloc_t r = jit_bgtr_d(j, r1, r2);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_blei(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_reloc_t r = jit_blei(j, r1, i.o);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_blei_u(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_reloc_t r = jit_blei_u(j, r1, i.o);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_blti(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_reloc_t r = jit_blti(j, r1, i.o);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_blti_u(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i, struct relocs *relocs)
{
jit_gpr_t r1 = getloc(f, j, i.r1, 0);
jit_reloc_t r = jit_blti_u(j, r1, i.o);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_jmp(struct ejit_func *f, jit_state_t *j, struct ejit_insn i,
struct relocs *relocs)
{
(void)(f);
jit_reloc_t r = jit_jmp(j);
struct reloc_helper h = {.r = r, .to = i.r0};
relocs_append(relocs, h);
}
static void compile_retval(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_gpr_t r0 = getgpr(f, i.r0, 0);
jit_retval(j, r0);
putloc(f, j, i.r0, r0);
}
static void compile_retval_f(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_retval_d(j, r0);
/* convert double to float */
jit_extr_d_f(j, r0, r0);
putloc_f(f, j, i.r0, r0);
}
static void compile_retval_d(struct ejit_func *f, jit_state_t *j,
struct ejit_insn i)
{
jit_fpr_t r0 = getfpr(f, i.r0, 0);
jit_retval_d(j, r0);
putloc_d(f, j, i.r0, r0);
}
static enum jit_operand_abi jit_abi_from(enum ejit_type t)
{
switch (t) {
case EJIT_INT8: return JIT_OPERAND_ABI_INT8;
case EJIT_INT16: return JIT_OPERAND_ABI_INT16;
case EJIT_INT32: return JIT_OPERAND_ABI_INT32;
case EJIT_INT64: return JIT_OPERAND_ABI_INT64;
case EJIT_UINT8: return JIT_OPERAND_ABI_UINT8;
case EJIT_UINT16: return JIT_OPERAND_ABI_UINT16;
case EJIT_UINT32: return JIT_OPERAND_ABI_UINT32;
case EJIT_UINT64: return JIT_OPERAND_ABI_UINT64;
case EJIT_POINTER: return JIT_OPERAND_ABI_POINTER;
case EJIT_FLOAT: return JIT_OPERAND_ABI_FLOAT;
case EJIT_DOUBLE: return JIT_OPERAND_ABI_DOUBLE;
default:
}
abort();
}
static size_t arg_offsetof(enum ejit_type t)
{
switch (t) {
case EJIT_INT8: return offsetof(struct ejit_arg, i8);
case EJIT_INT16: return offsetof(struct ejit_arg, i16);
case EJIT_INT32: return offsetof(struct ejit_arg, i32);
case EJIT_INT64: return offsetof(struct ejit_arg, i64);
case EJIT_UINT8: return offsetof(struct ejit_arg, u8);
case EJIT_UINT16: return offsetof(struct ejit_arg, u16);
case EJIT_UINT32: return offsetof(struct ejit_arg, u32);
case EJIT_UINT64: return offsetof(struct ejit_arg, u64);
case EJIT_POINTER: return offsetof(struct ejit_arg, p);
case EJIT_FLOAT: return offsetof(struct ejit_arg, f);
case EJIT_DOUBLE: return offsetof(struct ejit_arg, d);
default:
};
abort();
}
static jit_off_t arg_offset(struct ejit_insn i)
{
/* index of ejit_arg in stack and offset of whatever type we're dealing
* with */
return (sizeof(struct ejit_arg) * i.r0) + arg_offsetof(i.r1);
}
static jit_off_t type_offset(struct ejit_insn i)
{
return (sizeof(struct ejit_arg) * i.r0) + offsetof(struct ejit_arg,
type);
}
static void fixup_operands(struct operands *operands, size_t fixup)
{
foreach_vec(i, *operands) {
jit_operand_t op = *operands_at(operands, i);
if (op.kind != JIT_OPERAND_KIND_MEM)
continue;
op.loc.mem.offset += fixup;
*operands_at(operands, i) = op;
}
}
static void compile_imm_call(jit_state_t *j, struct operands *src, struct operands *dst,
void *addr, size_t argc, jit_operand_t args[argc])
{
/* each move is type + arg, so twofold */
size_t movec = operands_len(src) / 2;
size_t fixup = jit_align_stack(j, movec * sizeof(struct ejit_arg));
fixup_operands(src, fixup);
/* note, do not fix up destination! */
/* remember to move all operands */
jit_move_operands(j, dst->buf, src->buf, movec * 2);
jit_calli(j, addr, argc, args);
jit_shrink_stack(j, fixup);
operands_reset(src);
operands_reset(dst);
}
static size_t compile_fn_body(struct ejit_func *f, jit_state_t *j, void *arena,
size_t size)
{
jit_begin(j, arena, size);
size_t gprs = f->gpr >= jit_v_num() ? jit_v_num() : f->gpr;
size_t fprs = f->fpr >= jit_vf_num() ? jit_vf_num() : f->fpr;
size_t frame = jit_enter_jit_abi(j, gprs, fprs, 0);
/* very important, argc we don't really do anything with but JIR_R1
* contains the argument stack! */
jit_load_args_2(j,
jit_operand_gpr(JIT_OPERAND_ABI_WORD, JIT_R0),
jit_operand_gpr(JIT_OPERAND_ABI_POINTER, JIT_R1));
size_t stack = jit_align_stack(j, stack_size(f));
struct operands src = operands_create();
struct operands dst = operands_create();
struct relocs relocs = relocs_create(sizeof(struct reloc_helper));
struct addrs addrs = addrs_create();
addrs_reserve(&addrs, insns_len(&f->insns));
size_t label = 0;
foreach_vec(ii, f->insns) {
/* if we've hit a label, add it to our vector of label addresses */
if (label < labels_len(&f->labels)) {
if (*labels_at(&f->labels, label) == ii) {
compile_label(j, ii, &addrs);
label++;
}
}
struct ejit_insn i = *insns_at(&f->insns, ii);
switch (i.op) {
case MOVR: compile_movr(f, j, i); break;
case MOVR_F: compile_movr_f(f, j, i); break;
case MOVR_D: compile_movr_d(f, j, i); break;
case MOVI: compile_movi(f, j, i); break;
case MOVI_F: compile_movi_f(f, j, i); break;
case MOVI_D: compile_movi_d(f, j, i); break;
case ADDR: compile_addr(f, j, i); break;
case ADDI: compile_addi(f, j, i); break;
case ADDR_F: compile_addr_f(f, j, i); break;
case ADDR_D: compile_addr_d(f, j, i); break;
case SUBR: compile_subr(f, j, i); break;
case SUBI: compile_subi(f, j, i); break;
case SUBR_F: compile_subr_f(f, j, i); break;
case SUBR_D: compile_subr_d(f, j, i); break;
case MULR: compile_mulr(f, j, i); break;
case MULR_F: compile_mulr_f(f, j, i); break;
case MULR_D: compile_mulr_d(f, j, i); break;
case ANDI: compile_andi(f, j, i); break;
case ANDR: compile_andr(f, j, i); break;
case ORI: compile_ori(f, j, i); break;
case ORR: compile_orr(f, j, i); break;
case XORI: compile_xori(f, j, i); break;
case XORR: compile_xorr(f, j, i); break;
case DIVR: compile_divr(f, j, i); break;
case DIVR_U: compile_divr_u(f, j, i); break;
case DIVR_F: compile_divr_f(f, j, i); break;
case DIVR_D: compile_divr_d(f, j, i); break;
case REMR: compile_remr(f, j, i); break;
case REMR_U: compile_remr_u(f, j, i); break;
case ABSR_F: compile_absr_f(f, j, i); break;
case ABSR_D: compile_absr_d(f, j, i); break;
case LSHI: compile_lshi(f, j, i); break;
case LSHR: compile_lshr(f, j, i); break;
case RSHI: compile_rshi(f, j, i); break;
case RSHI_U: compile_rshi_u(f, j, i); break;
case RSHR: compile_rshr(f, j, i); break;
case RSHR_U: compile_rshr_u(f, j, i); break;
case STI8: compile_sti8(f, j, i); break;
case STI16: compile_sti16(f, j, i); break;
case STI32: compile_sti32(f, j, i); break;
case STI64: compile_sti64(f, j, i); break;
case STIF: compile_stif(f, j, i); break;
case STID: compile_stid(f, j, i); break;
case STXI8: compile_stxi8(f, j, i); break;
case STXI16: compile_stxi16(f, j, i); break;
case STXI32: compile_stxi32(f, j, i); break;
case STXI64: compile_stxi64(f, j, i); break;
case STXIF: compile_stxif(f, j, i); break;
case STXID: compile_stxid(f, j, i); break;
case STXR8: compile_stxr8(f, j, i); break;
case STXR16: compile_stxr16(f, j, i); break;
case STXR32: compile_stxr32(f, j, i); break;
case STXR64: compile_stxr64(f, j, i); break;
case STXRF: compile_stxrf(f, j, i); break;
case STXRD: compile_stxrd(f, j, i); break;
case LDI8: compile_ldi8(f, j, i); break;
case LDI16: compile_ldi16(f, j, i); break;
case LDI32: compile_ldi32(f, j, i); break;
case LDI64: compile_ldi64(f, j, i); break;
case LDIU8: compile_ldiu8(f, j, i); break;
case LDIU16: compile_ldiu16(f, j, i); break;
case LDIU32: compile_ldiu32(f, j, i); break;
case LDIU64: compile_ldiu64(f, j, i); break;
case LDIF: compile_ldif(f, j, i); break;
case LDID: compile_ldid(f, j, i); break;
case LDXI8: compile_ldxi8(f, j, i); break;
case LDXI16: compile_ldxi16(f, j, i); break;
case LDXI32: compile_ldxi32(f, j, i); break;
case LDXI64: compile_ldxi64(f, j, i); break;
case LDXIU8: compile_ldxiu8(f, j, i); break;
case LDXIU16: compile_ldxiu16(f, j, i); break;
case LDXIU32: compile_ldxiu32(f, j, i); break;
case LDXIU64: compile_ldxiu64(f, j, i); break;
case LDXIF: compile_ldxif(f, j, i); break;
case LDXID: compile_ldxid(f, j, i); break;
case LDXR8: compile_ldxr8(f, j, i); break;
case LDXR16: compile_ldxr16(f, j, i); break;
case LDXR32: compile_ldxr32(f, j, i); break;
case LDXR64: compile_ldxr64(f, j, i); break;
case LDXRU8: compile_ldxru8(f, j, i); break;
case LDXRU16: compile_ldxru16(f, j, i); break;
case LDXRU32: compile_ldxru32(f, j, i); break;
case LDXRU64: compile_ldxru64(f, j, i); break;
case LDXRF: compile_ldxrf(f, j, i); break;
case LDXRD: compile_ldxrd(f, j, i); break;
case COMR: compile_comr(f, j, i); break;
case NEGR: compile_negr(f, j, i); break;
case NEGR_F: compile_negr_f(f, j, i); break;
case NEGR_D: compile_negr_d(f, j, i); break;
case EXTR8: compile_extr8(f, j, i); break;
case EXTR16: compile_extr16(f, j, i); break;
case EXTR32: compile_extr32(f, j, i); break;
case EXTRU8: compile_extru8(f, j, i); break;
case EXTRU16: compile_extru16(f, j, i); break;
case EXTRU32: compile_extru32(f, j, i); break;
case EXTRF: compile_extrf(f, j, i); break;
case EXTRD: compile_extrd(f, j, i); break;
case TRUNCR_D_32: compile_truncr_d_32(f, j, i); break;
case TRUNCR_D_64: compile_truncr_d_64(f, j, i); break;
case TRUNCR_F_32: compile_truncr_f_32(f, j, i); break;
case TRUNCR_F_64: compile_truncr_f_64(f, j, i); break;
case EQR: compile_eqr(f, j, i); break;
case EQR_F: compile_eqr_f(f, j, i); break;
case EQR_D: compile_eqr_d(f, j, i); break;
case NER: compile_ner(f, j, i); break;
case NER_F: compile_ner_f(f, j, i); break;
case NER_D: compile_ner_d(f, j, i); break;
case GER: compile_ger(f, j, i); break;
case GER_U: compile_ger_u(f, j, i); break;
case GER_F: compile_ger_f(f, j, i); break;
case GER_D: compile_ger_d(f, j, i); break;
case GTR: compile_gtr(f, j, i); break;
case GTR_U: compile_gtr_u(f, j, i); break;
case GTR_F: compile_gtr_f(f, j, i); break;
case GTR_D: compile_gtr_d(f, j, i); break;
case BMCI: compile_bmci(f, j, i, &relocs); break;
case BMCR: compile_bmcr(f, j, i, &relocs); break;
case BMSI: compile_bmsi(f, j, i, &relocs); break;
case BMSR: compile_bmsr(f, j, i, &relocs); break;
case BEQR: compile_beqr(f, j, i, &relocs); break;
case BEQI: compile_beqi(f, j, i, &relocs); break;
case BEQR_F: compile_beqr_f(f, j, i, &relocs); break;
case BEQR_D: compile_beqr_d(f, j, i, &relocs); break;
case BNER: compile_bner(f, j, i, &relocs); break;
case BNEI: compile_bnei(f, j, i, &relocs); break;
case BNER_F: compile_bner_f(f, j, i, &relocs); break;
case BNER_D: compile_bner_d(f, j, i, &relocs); break;
case BGER: compile_bger(f, j, i, &relocs); break;
case BGER_U: compile_bger_u(f, j, i, &relocs); break;
case BGEI: compile_bgei(f, j, i, &relocs); break;
case BGEI_U: compile_bgei_u(f, j, i, &relocs); break;
case BGER_F: compile_bger_f(f, j, i, &relocs); break;
case BGER_D: compile_bger_d(f, j, i, &relocs); break;
case BGTR: compile_bgtr(f, j, i, &relocs); break;
case BGTR_U: compile_bgtr_u(f, j, i, &relocs); break;
case BGTI: compile_bgti(f, j, i, &relocs); break;
case BGTI_U: compile_bgti_u(f, j, i, &relocs); break;
case BGTR_F: compile_bgtr_f(f, j, i, &relocs); break;
case BGTR_D: compile_bgtr_d(f, j, i, &relocs); break;
case BLEI: compile_blei(f, j, i, &relocs); break;
case BLEI_U: compile_blei_u(f, j, i, &relocs); break;
case BLTI: compile_blti(f, j, i, &relocs); break;
case BLTI_U: compile_blti_u(f, j, i, &relocs); break;
case JMP: compile_jmp(f, j, i, &relocs); break;
case ARG: {
jit_operand_t type =
jit_operand_imm(JIT_OPERAND_ABI_WORD, i.r1);
jit_operand_t arg;
if (i.r2 < jit_v_num()) {
/* regular register */
arg = jit_operand_gpr(jit_abi_from(i.r1),
jit_v(i.r2));
}
else {
/* stack location, note that we'll fix up the SP
* offset before doing the actual call */
arg = jit_operand_mem(jit_abi_from(i.r1),
JIT_SP, stack_loc(i.r2));
}
operands_append(&src, type);
operands_append(&src, arg);
jit_operand_t to[2] = {
jit_operand_mem(JIT_OPERAND_ABI_WORD, JIT_SP,
type_offset(i)),
jit_operand_mem(jit_abi_from(i.r1), JIT_SP,
arg_offset(i))
};
operands_append(&dst, to[0]);
operands_append(&dst, to[1]);
break;
}
case ARG_F: {
jit_operand_t type =
jit_operand_imm(JIT_OPERAND_ABI_WORD, i.r1);
jit_operand_t arg;
if (i.r2 < jit_vf_num()) {
/* regular register */
arg = jit_operand_fpr(jit_abi_from(i.r1),
jit_vf(i.r2));
}
else {
/* stack location, note that we'll fix up the SP
* offset before doing the actual call */
arg = jit_operand_mem(jit_abi_from(i.r1),
JIT_SP,
stack_loc_f(f, i.r2));
}
operands_append(&src, type);
operands_append(&src, arg);
jit_operand_t to[2] = {
jit_operand_mem(JIT_OPERAND_ABI_WORD, JIT_SP,
type_offset(i)),
jit_operand_mem(jit_abi_from(i.r1), JIT_SP,
arg_offset(i))
};
operands_append(&dst, to[0]);
operands_append(&dst, to[1]);
break;
}
case ESCAPEI: {
jit_operand_t args[2] = {
jit_operand_imm(JIT_OPERAND_ABI_WORD,
operands_len(&src) / 2),
jit_operand_gpr(JIT_OPERAND_ABI_POINTER, JIT_SP)
};
compile_imm_call(j, &src, &dst, (void *)i.o, 2, args);
break;
}
case ESCAPEI_F: {
jit_operand_t args[2] = {
jit_operand_imm(JIT_OPERAND_ABI_WORD,
operands_len(&src) / 2),
jit_operand_gpr(JIT_OPERAND_ABI_POINTER, JIT_SP)
};
compile_imm_call(j, &src, &dst, (void *)i.o, 2, args);
break;
}
case CALLI: {
jit_operand_t args[3] = {
jit_operand_imm(JIT_OPERAND_ABI_POINTER, i.o),
jit_operand_imm(JIT_OPERAND_ABI_WORD,
operands_len(&src) / 2),
jit_operand_gpr(JIT_OPERAND_ABI_POINTER, JIT_SP)
};
compile_imm_call(j, &src, &dst, ejit_run_func, 3, args);
break;
}
case RETVAL: compile_retval(f, j, i); break;
case RETVAL_F: compile_retval_f(f, j, i); break;
case RETVAL_D: compile_retval_d(f, j, i); break;
case RETR: {
jit_gpr_t r = getloc(f, j, i.r0, 0);
/* R0 won't get overwritten by jit_leave_jit_abi */
jit_movr(j, JIT_R0, r);
jit_shrink_stack(j, stack);
jit_leave_jit_abi(j, gprs, fprs, frame);
jit_retr(j, JIT_R0);
break;
}
case RETR_F: {
jit_fpr_t r = getloc_f(f, j, i.r0, 0);
/* convert float to double so the return types match */
jit_extr_f_d(j, JIT_F0, r);
jit_shrink_stack(j, stack);
jit_leave_jit_abi(j, gprs, fprs, frame);
jit_retr_f(j, JIT_F0);
break;
}
case RETR_D: {
jit_fpr_t r = getloc_d(f, j, i.r0, 0);
jit_movr_d(j, JIT_F0, r);
jit_shrink_stack(j, stack);
jit_leave_jit_abi(j, gprs, fprs, frame);
jit_retr_d(j, JIT_F0);
break;
}
case RETI: {
jit_shrink_stack(j, stack);
jit_leave_jit_abi(j, gprs, fprs, frame);
jit_reti(j, i.o);
break;
}
case END: {
/* 'void' return */
jit_shrink_stack(j, stack);
jit_leave_jit_abi(j, gprs, fprs, frame);
jit_reti(j, 0);
break;
}
case PARAM_F: {
/* move from argument stack to location */
jit_operand_t from = jit_operand_mem(
jit_abi_from(i.r1),
JIT_R1,
arg_offset(i)
);
jit_operand_t to;
if (i.r0 < jit_vf_num()) {
/* regular register */
to = jit_operand_fpr(jit_abi_from(i.r1),
jit_vf(i.r2));
}
else {
/* stack location */
to = jit_operand_mem(jit_abi_from(i.r1), JIT_SP,
stack_loc_f(f, i.r2));
}
operands_append(&src, from);
operands_append(&dst, to);
break;
}
case PARAM: {
/* move from argument stack to location */
jit_operand_t from = jit_operand_mem(
jit_abi_from(i.r1),
JIT_R1,
arg_offset(i)
);
jit_operand_t to;
if (i.r0 < jit_v_num()) {
/* regular register */
to = jit_operand_gpr(jit_abi_from(i.r1),
jit_v(i.r2));
}
else {
/* stack location */
to = jit_operand_mem(jit_abi_from(i.r1), JIT_SP,
stack_loc(i.r2));
}
operands_append(&src, from);
operands_append(&dst, to);
break;
}
case START: {
/* parameters should be done by now */
jit_move_operands(j, dst.buf, src.buf, operands_len(&src));
/* reuse for arguments */
operands_reset(&dst);
operands_reset(&src);
break;
}
default: abort();
}
}
foreach_vec(ri, relocs) {
struct reloc_helper h = *relocs_at(&relocs, ri);
jit_addr_t a = *addrs_at(&addrs, h.to);
jit_reloc_t r = h.r;
assert(a);
jit_patch_there(j, r, a);
}
operands_destroy(&src);
operands_destroy(&dst);
relocs_destroy(&relocs);
addrs_destroy(&addrs);
if (jit_end(j, &size))
return 0;
return size;
}
bool ejit_compile(struct ejit_func *f, bool use_64)
{
(void)use_64;
#if __WORDSIZE == 32
/* can't compile 64bit code on 32bit systems, give up early */
if (use_64)
return false;
#endif
if (!init_jit())
return false;
/* the main overhead of compilation seems to be the syscall to mmap a
* new arena, I might look into allocating a big buffer at once and
* caching it to be reused later, might allow us to compile many small
* functions faster */
jit_state_t *j = jit_new_state(NULL, NULL);
assert(j);
void *arena = NULL;
size_t size = 4096;
while (1) {
arena = alloc_arena(size);
assert(arena);
size_t required_size = compile_fn_body(f, j, arena, size);
if (required_size == 0)
break;
free_arena(arena, size);
size = required_size + 4096;
}
jit_destroy_state(j);
f->arena = arena;
f->size = size;
return true;
}