[pcsx_rearmed.git] / deps / lightrec / regcache.c

// SPDX-License-Identifier: LGPL-2.1-or-later
/*
 * Copyright (C) 2014-2021 Paul Cercueil <paul@crapouillou.net>
 */

#include "debug.h"
#include "memmanager.h"
#include "lightning-wrapper.h"
#include "regcache.h"

#include <stdbool.h>
#include <stddef.h>

#define REG_PC (offsetof(struct lightrec_state, next_pc) / sizeof(u32))

enum reg_priority {
	REG_IS_TEMP,
	REG_IS_TEMP_VALUE,
	REG_IS_ZERO,
	REG_IS_LOADED,
	REG_IS_DIRTY,

	REG_NB_PRIORITIES,
};

struct native_register {
	bool used, output, extend, extended,
	     zero_extend, zero_extended, locked;
	s16 emulated_register;
	intptr_t value;
	enum reg_priority prio;
};

struct regcache {
	struct lightrec_state *state;
	struct native_register lightrec_regs[NUM_REGS + NUM_TEMPS];
};

static const char * mips_regs[] = {
	"zero",
	"at",
	"v0", "v1",
	"a0", "a1", "a2", "a3",
	"t0", "t1", "t2", "t3", "t4", "t5", "t6", "t7",
	"s0", "s1", "s2", "s3", "s4", "s5", "s6", "s7",
	"t8", "t9",
	"k0", "k1",
	"gp", "sp", "fp", "ra",
	"lo", "hi",
};

/* Forward declaration(s) */
static void clean_reg(jit_state_t *_jit,
		      struct native_register *nreg, u8 jit_reg, bool clean);

const char * lightrec_reg_name(u8 reg)
{
	return mips_regs[reg];
}

static inline bool lightrec_reg_is_zero(u8 jit_reg)
{
#if defined(__mips__) || defined(__alpha__) || defined(__riscv)
	if (jit_reg == _ZERO)
		return true;
#endif
	return false;
}

static inline s8 lightrec_get_hardwired_reg(u16 reg)
{
#if defined(__mips__) || defined(__alpha__) || defined(__riscv)
	if (reg == 0)
		return _ZERO;
#endif
	return -1;
}

static inline u8 lightrec_reg_number(const struct regcache *cache,
		const struct native_register *nreg)
{
	return (u8) (((uintptr_t) nreg - (uintptr_t) cache->lightrec_regs)
			/ sizeof(*nreg));
}

static inline u8 lightrec_reg_to_lightning(const struct regcache *cache,
		const struct native_register *nreg)
{
	u8 offset = lightrec_reg_number(cache, nreg);

	if (offset < NUM_REGS)
		return JIT_V(FIRST_REG + offset);
	else
		return JIT_R(FIRST_TEMP + offset - NUM_REGS);
}

static inline struct native_register * lightning_reg_to_lightrec(
		struct regcache *cache, u8 reg)
{
	if ((JIT_V0 > JIT_R0 && reg >= JIT_V0) ||
			(JIT_V0 < JIT_R0 && reg < JIT_R0)) {
		if (JIT_V1 > JIT_V0)
			return &cache->lightrec_regs[reg - JIT_V(FIRST_REG)];
		else
			return &cache->lightrec_regs[JIT_V(FIRST_REG) - reg];
	} else {
		if (JIT_R1 > JIT_R0)
			return &cache->lightrec_regs[NUM_REGS + reg - JIT_R(FIRST_TEMP)];
		else
			return &cache->lightrec_regs[NUM_REGS + JIT_R(FIRST_TEMP) - reg];
	}
}

u8 lightrec_get_reg_in_flags(struct regcache *cache, u8 jit_reg)
{
	struct native_register *reg;
	u8 flags = 0;

	if (lightrec_reg_is_zero(jit_reg))
		return REG_EXT | REG_ZEXT;

	reg = lightning_reg_to_lightrec(cache, jit_reg);
	if (reg->extended)
		flags |= REG_EXT;
	if (reg->zero_extended)
		flags |= REG_ZEXT;

	return flags;
}

void lightrec_set_reg_out_flags(struct regcache *cache, u8 jit_reg, u8 flags)
{
	struct native_register *reg;

	if (!lightrec_reg_is_zero(jit_reg)) {
		reg = lightning_reg_to_lightrec(cache, jit_reg);
		reg->extend = flags & REG_EXT;
		reg->zero_extend = flags & REG_ZEXT;
	}
}

static struct native_register * alloc_temp(struct regcache *cache)
{
	struct native_register *elm, *nreg = NULL;
	enum reg_priority best = REG_NB_PRIORITIES;
	unsigned int i;

	/* We search the register list in reverse order. As temporaries are
	 * meant to be used only in the emitter functions, they can be mapped to
	 * caller-saved registers, as they won't have to be saved back to
	 * memory. */
	for (i = ARRAY_SIZE(cache->lightrec_regs); i; i--) {
		elm = &cache->lightrec_regs[i - 1];

		if (!elm->used && !elm->locked && elm->prio < best) {
			nreg = elm;
			best = elm->prio;

			if (best == REG_IS_TEMP)
				break;
		}
	}

	return nreg;
}

static struct native_register * find_mapped_reg(struct regcache *cache,
						u16 reg, bool out)
{
	unsigned int i;

	for (i = 0; i < ARRAY_SIZE(cache->lightrec_regs); i++) {
		struct native_register *nreg = &cache->lightrec_regs[i];
		if ((nreg->prio >= REG_IS_ZERO) &&
		    nreg->emulated_register == reg &&
		    (!out || !nreg->locked))
			return nreg;
	}

	return NULL;
}

static struct native_register * alloc_in_out(struct regcache *cache,
					     u16 reg, bool out)
{
	struct native_register *elm, *nreg = NULL;
	enum reg_priority best = REG_NB_PRIORITIES;
	unsigned int i;

	/* Try to find if the register is already mapped somewhere */
	nreg = find_mapped_reg(cache, reg, out);
	if (nreg)
		return nreg;

	nreg = NULL;

	for (i = 0; i < ARRAY_SIZE(cache->lightrec_regs); i++) {
		elm = &cache->lightrec_regs[i];

		if (!elm->used && !elm->locked && elm->prio < best) {
			nreg = elm;
			best = elm->prio;

			if (best == REG_IS_TEMP)
				break;
		}
	}

	return nreg;
}

static void lightrec_discard_nreg(struct native_register *nreg)
{
	nreg->extended = false;
	nreg->zero_extended = false;
	nreg->output = false;
	nreg->used = false;
	nreg->locked = false;
	nreg->emulated_register = -1;
	nreg->prio = 0;
}

static void lightrec_unload_nreg(struct regcache *cache, jit_state_t *_jit,
		struct native_register *nreg, u8 jit_reg)
{
	clean_reg(_jit, nreg, jit_reg, false);
	lightrec_discard_nreg(nreg);
}

void lightrec_unload_reg(struct regcache *cache, jit_state_t *_jit, u8 jit_reg)
{
	if (lightrec_reg_is_zero(jit_reg))
		return;

	lightrec_unload_nreg(cache, _jit,
			lightning_reg_to_lightrec(cache, jit_reg), jit_reg);
}

u8 lightrec_alloc_reg(struct regcache *cache, jit_state_t *_jit, u8 jit_reg)
{
	struct native_register *reg;

	if (lightrec_reg_is_zero(jit_reg))
		return jit_reg;

	reg = lightning_reg_to_lightrec(cache, jit_reg);
	lightrec_unload_nreg(cache, _jit, reg, jit_reg);

	reg->used = true;
	reg->prio = REG_IS_LOADED;
	return jit_reg;
}

u8 lightrec_alloc_reg_temp(struct regcache *cache, jit_state_t *_jit)
{
	u8 jit_reg;
	struct native_register *nreg = alloc_temp(cache);
	if (!nreg) {
		/* No free register, no dirty register to free. */
		pr_err("No more registers! Abandon ship!\n");
		return 0;
	}

	jit_reg = lightrec_reg_to_lightning(cache, nreg);
	lightrec_unload_nreg(cache, _jit, nreg, jit_reg);

	nreg->prio = REG_IS_TEMP;
	nreg->used = true;
	return jit_reg;
}

s8 lightrec_get_reg_with_value(struct regcache *cache, intptr_t value)
{
	struct native_register *nreg;
	unsigned int i;

	for (i = 0; i < ARRAY_SIZE(cache->lightrec_regs); i++) {
		nreg = &cache->lightrec_regs[i];

		if (nreg->prio == REG_IS_TEMP_VALUE && nreg->value == value) {
			nreg->used = true;
			return lightrec_reg_to_lightning(cache, nreg);
		}
	}

	return -1;
}

void lightrec_temp_set_value(struct regcache *cache, u8 jit_reg, intptr_t value)
{
	struct native_register *nreg;

	nreg = lightning_reg_to_lightrec(cache, jit_reg);

	nreg->prio = REG_IS_TEMP_VALUE;
	nreg->value = value;
}

u8 lightrec_alloc_reg_out(struct regcache *cache, jit_state_t *_jit,
			  u16 reg, u8 flags)
{
	struct native_register *nreg;
	u8 jit_reg;
	s8 hw_reg;

	hw_reg = lightrec_get_hardwired_reg(reg);
	if (hw_reg >= 0)
		return (u8) hw_reg;

	nreg = alloc_in_out(cache, reg, true);
	if (!nreg) {
		/* No free register, no dirty register to free. */
		pr_err("No more registers! Abandon ship!\n");
		return 0;
	}

	jit_reg = lightrec_reg_to_lightning(cache, nreg);

	/* If we get a dirty register that doesn't correspond to the one
	 * we're requesting, store back the old value */
	if (nreg->emulated_register != reg)
		lightrec_unload_nreg(cache, _jit, nreg, jit_reg);

	nreg->used = true;
	nreg->output = true;
	nreg->emulated_register = reg;
	nreg->extend = flags & REG_EXT;
	nreg->zero_extend = flags & REG_ZEXT;
	nreg->prio = reg ? REG_IS_LOADED : REG_IS_ZERO;
	return jit_reg;
}

u8 lightrec_alloc_reg_in(struct regcache *cache, jit_state_t *_jit,
			 u16 reg, u8 flags)
{
	struct native_register *nreg;
	u8 jit_reg;
	bool reg_changed;
	s8 hw_reg;

	hw_reg = lightrec_get_hardwired_reg(reg);
	if (hw_reg >= 0)
		return (u8) hw_reg;

	nreg = alloc_in_out(cache, reg, false);
	if (!nreg) {
		/* No free register, no dirty register to free. */
		pr_err("No more registers! Abandon ship!\n");
		return 0;
	}

	jit_reg = lightrec_reg_to_lightning(cache, nreg);

	/* If we get a dirty register that doesn't correspond to the one
	 * we're requesting, store back the old value */
	reg_changed = nreg->emulated_register != reg;
	if (reg_changed)
		lightrec_unload_nreg(cache, _jit, nreg, jit_reg);

	if (nreg->prio < REG_IS_LOADED && reg != 0) {
		s16 offset = offsetof(struct lightrec_state, regs.gpr)
			+ (reg << 2);

		nreg->zero_extended = flags & REG_ZEXT;
		nreg->extended = !nreg->zero_extended;

		/* Load previous value from register cache */
		if (nreg->zero_extended)
			jit_ldxi_ui(jit_reg, LIGHTREC_REG_STATE, offset);
		else
			jit_ldxi_i(jit_reg, LIGHTREC_REG_STATE, offset);

		nreg->prio = REG_IS_LOADED;
	}

	/* Clear register r0 before use */
	if (reg == 0 && nreg->prio != REG_IS_ZERO) {
		jit_movi(jit_reg, 0);
		nreg->extended = true;
		nreg->zero_extended = true;
		nreg->prio = REG_IS_ZERO;
	}

	nreg->used = true;
	nreg->output = false;
	nreg->emulated_register = reg;

	if ((flags & REG_EXT) && !nreg->extended &&
	    (!nreg->zero_extended || !(flags & REG_ZEXT))) {
		nreg->extended = true;
		nreg->zero_extended = false;
		jit_extr_i(jit_reg, jit_reg);
	} else if (!(flags & REG_EXT) && (flags & REG_ZEXT) &&
		   !nreg->zero_extended) {
		nreg->zero_extended = true;
		nreg->extended = false;
		jit_extr_ui(jit_reg, jit_reg);
	}

	return jit_reg;
}

static bool reg_pc_is_mapped(struct regcache *cache)
{
	struct native_register *nreg = lightning_reg_to_lightrec(cache, JIT_V0);

	return nreg->prio == REG_IS_LOADED && nreg->emulated_register == REG_PC;
}

void lightrec_load_imm(struct regcache *cache,
		       jit_state_t *_jit, u8 jit_reg, u32 pc, u32 imm)
{
	s32 delta = imm - pc;

	if (!reg_pc_is_mapped(cache) || !can_sign_extend(delta, 16))
		jit_movi(jit_reg, imm);
	else if (jit_reg != JIT_V0 || delta)
		jit_addi(jit_reg, JIT_V0, delta);
}

void lightrec_load_next_pc_imm(struct regcache *cache,
			       jit_state_t *_jit, u32 pc, u32 imm)
{
	struct native_register *nreg = lightning_reg_to_lightrec(cache, JIT_V0);

	if (reg_pc_is_mapped(cache)) {
		/* JIT_V0 contains next PC - so we can overwrite it */
		lightrec_load_imm(cache, _jit, JIT_V0, pc, imm);
	} else {
		/* JIT_V0 contains something else - invalidate it */
		lightrec_unload_reg(cache, _jit, JIT_V0);

		jit_movi(JIT_V0, imm);
	}

	nreg->prio = REG_IS_LOADED;
	nreg->emulated_register = -1;
	nreg->locked = true;
}

void lightrec_load_next_pc(struct regcache *cache, jit_state_t *_jit, u8 reg)
{
	struct native_register *nreg_v0, *nreg;
	u16 offset;
	u8 jit_reg;

	/* Invalidate JIT_V0 if it is not mapped to 'reg' */
	nreg_v0 = lightning_reg_to_lightrec(cache, JIT_V0);
	if (nreg_v0->prio >= REG_IS_LOADED && nreg_v0->emulated_register != reg)
		lightrec_unload_nreg(cache, _jit, nreg_v0, JIT_V0);

	nreg = find_mapped_reg(cache, reg, false);
	if (!nreg) {
		/* Not mapped - load the value from the register cache */

		offset = offsetof(struct lightrec_state, regs.gpr) + (reg << 2);
		jit_ldxi_ui(JIT_V0, LIGHTREC_REG_STATE, offset);

		nreg_v0->prio = REG_IS_LOADED;
		nreg_v0->emulated_register = reg;

	} else if (nreg == nreg_v0) {
		/* The target register 'reg' is mapped to JIT_V0 */

		if (!nreg->zero_extended)
			jit_extr_ui(JIT_V0, JIT_V0);

	} else {
		/* The target register 'reg' is mapped elsewhere. In that case,
		 * move the register's value to JIT_V0 and re-map it in the
		 * register cache. We can then safely discard the original
		 * mapped register (even if it was dirty). */

		jit_reg = lightrec_reg_to_lightning(cache, nreg);
		if (nreg->zero_extended)
			jit_movr(JIT_V0, jit_reg);
		else
			jit_extr_ui(JIT_V0, jit_reg);

		*nreg_v0 = *nreg;
		lightrec_discard_nreg(nreg);
	}

	lightrec_clean_reg(cache, _jit, JIT_V0);

	nreg_v0->zero_extended = true;
	nreg_v0->locked = true;
}

static void free_reg(struct native_register *nreg)
{
	/* Set output registers as dirty */
	if (nreg->used && nreg->output && nreg->emulated_register > 0)
		nreg->prio = REG_IS_DIRTY;
	if (nreg->output) {
		nreg->extended = nreg->extend;
		nreg->zero_extended = nreg->zero_extend;
	}
	nreg->used = false;
}

void lightrec_free_reg(struct regcache *cache, u8 jit_reg)
{
	if (!lightrec_reg_is_zero(jit_reg))
		free_reg(lightning_reg_to_lightrec(cache, jit_reg));
}

void lightrec_free_regs(struct regcache *cache)
{
	unsigned int i;

	for (i = 0; i < ARRAY_SIZE(cache->lightrec_regs); i++)
		free_reg(&cache->lightrec_regs[i]);
}

static void clean_reg(jit_state_t *_jit,
		struct native_register *nreg, u8 jit_reg, bool clean)
{
	/* If we get a dirty register, store back the old value */
	if (nreg->prio == REG_IS_DIRTY) {
		s16 offset = offsetof(struct lightrec_state, regs.gpr)
			+ (nreg->emulated_register << 2);

		jit_stxi_i(offset, LIGHTREC_REG_STATE, jit_reg);

		if (clean) {
			if (nreg->emulated_register == 0)
				nreg->prio = REG_IS_ZERO;
			else
				nreg->prio = REG_IS_LOADED;
		}
	}
}

static void clean_regs(struct regcache *cache, jit_state_t *_jit, bool clean)
{
	unsigned int i;

	for (i = 0; i < NUM_REGS; i++) {
		clean_reg(_jit, &cache->lightrec_regs[i],
			  JIT_V(FIRST_REG + i), clean);
	}
	for (i = 0; i < NUM_TEMPS; i++) {
		clean_reg(_jit, &cache->lightrec_regs[i + NUM_REGS],
				JIT_R(FIRST_TEMP + i), clean);
	}
}

void lightrec_storeback_regs(struct regcache *cache, jit_state_t *_jit)
{
	clean_regs(cache, _jit, false);
}

void lightrec_clean_regs(struct regcache *cache, jit_state_t *_jit)
{
	clean_regs(cache, _jit, true);
}

bool lightrec_has_dirty_regs(struct regcache *cache)
{
	unsigned int i;

	for (i = 0; i < NUM_REGS + NUM_TEMPS; i++)
		if (cache->lightrec_regs[i].prio == REG_IS_DIRTY)
			return true;

	return false;
}

void lightrec_clean_reg(struct regcache *cache, jit_state_t *_jit, u8 jit_reg)
{
	struct native_register *reg;

	if (!lightrec_reg_is_zero(jit_reg)) {
		reg = lightning_reg_to_lightrec(cache, jit_reg);
		clean_reg(_jit, reg, jit_reg, true);
	}
}

bool lightrec_reg_is_loaded(struct regcache *cache, u16 reg)
{
	return !!find_mapped_reg(cache, reg, false);
}

void lightrec_clean_reg_if_loaded(struct regcache *cache, jit_state_t *_jit,
				  u16 reg, bool unload)
{
	struct native_register *nreg;
	u8 jit_reg;

	nreg = find_mapped_reg(cache, reg, false);
	if (nreg) {
		jit_reg = lightrec_reg_to_lightning(cache, nreg);

		if (unload)
			lightrec_unload_nreg(cache, _jit, nreg, jit_reg);
		else
			clean_reg(_jit, nreg, jit_reg, true);
	}
}

void lightrec_discard_reg_if_loaded(struct regcache *cache, u16 reg)
{
	struct native_register *nreg;

	nreg = find_mapped_reg(cache, reg, false);
	if (nreg)
		lightrec_discard_nreg(nreg);
}

struct native_register * lightrec_regcache_enter_branch(struct regcache *cache)
{
	struct native_register *backup;

	backup = lightrec_malloc(cache->state, MEM_FOR_LIGHTREC,
				 sizeof(cache->lightrec_regs));
	memcpy(backup, &cache->lightrec_regs, sizeof(cache->lightrec_regs));

	return backup;
}

void lightrec_regcache_leave_branch(struct regcache *cache,
			struct native_register *regs)
{
	memcpy(&cache->lightrec_regs, regs, sizeof(cache->lightrec_regs));
	lightrec_free(cache->state, MEM_FOR_LIGHTREC,
		      sizeof(cache->lightrec_regs), regs);
}

void lightrec_regcache_reset(struct regcache *cache)
{
	memset(&cache->lightrec_regs, 0, sizeof(cache->lightrec_regs));
}

void lightrec_preload_pc(struct regcache *cache)
{
	struct native_register *nreg;

	/* The block's PC is loaded in JIT_V0 at the start of the block */
	nreg = lightning_reg_to_lightrec(cache, JIT_V0);
	nreg->emulated_register = REG_PC;
	nreg->prio = REG_IS_LOADED;
	nreg->zero_extended = true;
}

struct regcache * lightrec_regcache_init(struct lightrec_state *state)
{
	struct regcache *cache;

	cache = lightrec_calloc(state, MEM_FOR_LIGHTREC, sizeof(*cache));
	if (!cache)
		return NULL;

	cache->state = state;

	return cache;
}

void lightrec_free_regcache(struct regcache *cache)
{
	return lightrec_free(cache->state, MEM_FOR_LIGHTREC,
			     sizeof(*cache), cache);
}

void lightrec_regcache_mark_live(struct regcache *cache, jit_state_t *_jit)
{
	struct native_register *nreg;
	unsigned int i;

#ifdef _WIN32
	/* FIXME: GNU Lightning on Windows seems to use our mapped registers as
	 * temporaries. Until the actual bug is found and fixed, unconditionally
	 * mark our registers as live here. */
	for (i = 0; i < NUM_REGS; i++) {
		nreg = &cache->lightrec_regs[i];

		if (nreg->used || nreg->prio > REG_IS_TEMP)
			jit_live(JIT_V(FIRST_REG + i));
	}
#endif

	for (i = 0; i < NUM_TEMPS; i++) {
		nreg = &cache->lightrec_regs[NUM_REGS + i];

		if (nreg->used || nreg->prio > REG_IS_TEMP)
			jit_live(JIT_R(FIRST_TEMP + i));
	}

	jit_live(LIGHTREC_REG_STATE);
	jit_live(LIGHTREC_REG_CYCLE);
}
Commit	Line	Data
98fa08a5	1	// SPDX-License-Identifier: LGPL-2.1-or-later
d16005f8	2	/*
98fa08a5	3	* Copyright (C) 2014-2021 Paul Cercueil <paul@crapouillou.net>
d16005f8 PC	4	*/
	5
	6	#include "debug.h"
	7	#include "memmanager.h"
98fa08a5	8	#include "lightning-wrapper.h"
d16005f8 PC	9	#include "regcache.h"
d16005f8 PC	10
d16005f8 PC	11	#include <stdbool.h>
	12	#include <stddef.h>
	13
9259d748 PC	14	#define REG_PC (offsetof(struct lightrec_state, next_pc) / sizeof(u32))
9259d748 PC	15
ba3814c1 PC	16	enum reg_priority {
	17	REG_IS_TEMP,
	18	REG_IS_TEMP_VALUE,
	19	REG_IS_ZERO,
	20	REG_IS_LOADED,
	21	REG_IS_DIRTY,
	22
	23	REG_NB_PRIORITIES,
	24	};
	25
d16005f8	26	struct native_register {
ba3814c1	27	bool used, output, extend, extended,
98fa08a5	28	zero_extend, zero_extended, locked;
9259d748	29	s16 emulated_register;
ba3814c1 PC	30	intptr_t value;
ba3814c1 PC	31	enum reg_priority prio;
d16005f8 PC	32	};
	33
	34	struct regcache {
	35	struct lightrec_state *state;
	36	struct native_register lightrec_regs[NUM_REGS + NUM_TEMPS];
	37	};
	38
	39	static const char * mips_regs[] = {
	40	"zero",
	41	"at",
	42	"v0", "v1",
	43	"a0", "a1", "a2", "a3",
	44	"t0", "t1", "t2", "t3", "t4", "t5", "t6", "t7",
	45	"s0", "s1", "s2", "s3", "s4", "s5", "s6", "s7",
	46	"t8", "t9",
	47	"k0", "k1",
	48	"gp", "sp", "fp", "ra",
	49	"lo", "hi",
	50	};
	51
cb72ea13 PC	52	/* Forward declaration(s) */
	53	static void clean_reg(jit_state_t *_jit,
	54	struct native_register *nreg, u8 jit_reg, bool clean);
	55
d16005f8 PC	56	const char * lightrec_reg_name(u8 reg)
	57	{
	58	return mips_regs[reg];
	59	}
	60
98fa08a5 PC	61	static inline bool lightrec_reg_is_zero(u8 jit_reg)
	62	{
	63	#if defined(__mips__) \|\| defined(__alpha__) \|\| defined(__riscv)
	64	if (jit_reg == _ZERO)
	65	return true;
	66	#endif
	67	return false;
	68	}
	69
9259d748	70	static inline s8 lightrec_get_hardwired_reg(u16 reg)
98fa08a5 PC	71	{
	72	#if defined(__mips__) \|\| defined(__alpha__) \|\| defined(__riscv)
	73	if (reg == 0)
	74	return _ZERO;
	75	#endif
	76	return -1;
	77	}
	78
d16005f8 PC	79	static inline u8 lightrec_reg_number(const struct regcache *cache,
	80	const struct native_register *nreg)
	81	{
	82	return (u8) (((uintptr_t) nreg - (uintptr_t) cache->lightrec_regs)
	83	/ sizeof(*nreg));
	84	}
	85
	86	static inline u8 lightrec_reg_to_lightning(const struct regcache *cache,
	87	const struct native_register *nreg)
	88	{
	89	u8 offset = lightrec_reg_number(cache, nreg);
ba3814c1 PC	90
	91	if (offset < NUM_REGS)
	92	return JIT_V(FIRST_REG + offset);
	93	else
	94	return JIT_R(FIRST_TEMP + offset - NUM_REGS);
d16005f8 PC	95	}
	96
	97	static inline struct native_register * lightning_reg_to_lightrec(
	98	struct regcache *cache, u8 reg)
	99	{
	100	if ((JIT_V0 > JIT_R0 && reg >= JIT_V0) \|\|
	101	(JIT_V0 < JIT_R0 && reg < JIT_R0)) {
	102	if (JIT_V1 > JIT_V0)
ba3814c1	103	return &cache->lightrec_regs[reg - JIT_V(FIRST_REG)];
d16005f8	104	else
ba3814c1	105	return &cache->lightrec_regs[JIT_V(FIRST_REG) - reg];
d16005f8 PC	106	} else {
d16005f8 PC	107	if (JIT_R1 > JIT_R0)
ba3814c1	108	return &cache->lightrec_regs[NUM_REGS + reg - JIT_R(FIRST_TEMP)];
d16005f8	109	else
ba3814c1	110	return &cache->lightrec_regs[NUM_REGS + JIT_R(FIRST_TEMP) - reg];
d16005f8 PC	111	}
	112	}
	113
98fa08a5 PC	114	u8 lightrec_get_reg_in_flags(struct regcache *cache, u8 jit_reg)
	115	{
	116	struct native_register *reg;
	117	u8 flags = 0;
	118
	119	if (lightrec_reg_is_zero(jit_reg))
	120	return REG_EXT \| REG_ZEXT;
	121
	122	reg = lightning_reg_to_lightrec(cache, jit_reg);
	123	if (reg->extended)
	124	flags \|= REG_EXT;
	125	if (reg->zero_extended)
	126	flags \|= REG_ZEXT;
	127
	128	return flags;
	129	}
	130
	131	void lightrec_set_reg_out_flags(struct regcache *cache, u8 jit_reg, u8 flags)
	132	{
	133	struct native_register *reg;
	134
	135	if (!lightrec_reg_is_zero(jit_reg)) {
	136	reg = lightning_reg_to_lightrec(cache, jit_reg);
	137	reg->extend = flags & REG_EXT;
	138	reg->zero_extend = flags & REG_ZEXT;
	139	}
	140	}
	141
d16005f8 PC	142	static struct native_register * alloc_temp(struct regcache *cache)
d16005f8 PC	143	{
ba3814c1 PC	144	struct native_register elm, nreg = NULL;
ba3814c1 PC	145	enum reg_priority best = REG_NB_PRIORITIES;
d16005f8 PC	146	unsigned int i;
	147
	148	/* We search the register list in reverse order. As temporaries are
	149	* meant to be used only in the emitter functions, they can be mapped to
	150	* caller-saved registers, as they won't have to be saved back to
	151	* memory. */
	152	for (i = ARRAY_SIZE(cache->lightrec_regs); i; i--) {
ba3814c1	153	elm = &cache->lightrec_regs[i - 1];
d16005f8	154
9259d748	155	if (!elm->used && !elm->locked && elm->prio < best) {
ba3814c1 PC	156	nreg = elm;
	157	best = elm->prio;
	158
	159	if (best == REG_IS_TEMP)
	160	break;
	161	}
d16005f8 PC	162	}
d16005f8 PC	163
ba3814c1	164	return nreg;
d16005f8 PC	165	}
	166
	167	static struct native_register * find_mapped_reg(struct regcache *cache,
9259d748	168	u16 reg, bool out)
d16005f8 PC	169	{
	170	unsigned int i;
	171
	172	for (i = 0; i < ARRAY_SIZE(cache->lightrec_regs); i++) {
	173	struct native_register *nreg = &cache->lightrec_regs[i];
ba3814c1 PC	174	if ((nreg->prio >= REG_IS_ZERO) &&
	175	nreg->emulated_register == reg &&
	176	(!out \|\| !nreg->locked))
d16005f8 PC	177	return nreg;
	178	}
	179
	180	return NULL;
	181	}
	182
	183	static struct native_register * alloc_in_out(struct regcache *cache,
9259d748	184	u16 reg, bool out)
d16005f8	185	{
ba3814c1 PC	186	struct native_register elm, nreg = NULL;
ba3814c1 PC	187	enum reg_priority best = REG_NB_PRIORITIES;
d16005f8 PC	188	unsigned int i;
	189
	190	/* Try to find if the register is already mapped somewhere */
	191	nreg = find_mapped_reg(cache, reg, out);
	192	if (nreg)
	193	return nreg;
	194
ba3814c1	195	nreg = NULL;
d16005f8	196
d16005f8	197	for (i = 0; i < ARRAY_SIZE(cache->lightrec_regs); i++) {
ba3814c1	198	elm = &cache->lightrec_regs[i];
d16005f8	199
9259d748	200	if (!elm->used && !elm->locked && elm->prio < best) {
ba3814c1 PC	201	nreg = elm;
	202	best = elm->prio;
	203
	204	if (best == REG_IS_TEMP)
	205	break;
	206	}
d16005f8 PC	207	}
d16005f8 PC	208
ba3814c1	209	return nreg;
d16005f8 PC	210	}
	211
	212	static void lightrec_discard_nreg(struct native_register *nreg)
	213	{
	214	nreg->extended = false;
98fa08a5	215	nreg->zero_extended = false;
d16005f8	216	nreg->output = false;
d16005f8 PC	217	nreg->used = false;
	218	nreg->locked = false;
	219	nreg->emulated_register = -1;
ba3814c1	220	nreg->prio = 0;
d16005f8 PC	221	}
	222
	223	static void lightrec_unload_nreg(struct regcache cache, jit_state_t _jit,
	224	struct native_register *nreg, u8 jit_reg)
	225	{
cb72ea13	226	clean_reg(_jit, nreg, jit_reg, false);
d16005f8 PC	227	lightrec_discard_nreg(nreg);
	228	}
	229
	230	void lightrec_unload_reg(struct regcache cache, jit_state_t _jit, u8 jit_reg)
	231	{
98fa08a5 PC	232	if (lightrec_reg_is_zero(jit_reg))
	233	return;
	234
d16005f8 PC	235	lightrec_unload_nreg(cache, _jit,
	236	lightning_reg_to_lightrec(cache, jit_reg), jit_reg);
	237	}
	238
d16005f8 PC	239	u8 lightrec_alloc_reg(struct regcache cache, jit_state_t _jit, u8 jit_reg)
d16005f8 PC	240	{
98fa08a5	241	struct native_register *reg;
d16005f8	242
98fa08a5 PC	243	if (lightrec_reg_is_zero(jit_reg))
	244	return jit_reg;
	245
	246	reg = lightning_reg_to_lightrec(cache, jit_reg);
d16005f8 PC	247	lightrec_unload_nreg(cache, _jit, reg, jit_reg);
	248
	249	reg->used = true;
ba3814c1	250	reg->prio = REG_IS_LOADED;
d16005f8 PC	251	return jit_reg;
	252	}
	253
	254	u8 lightrec_alloc_reg_temp(struct regcache cache, jit_state_t _jit)
	255	{
	256	u8 jit_reg;
	257	struct native_register *nreg = alloc_temp(cache);
	258	if (!nreg) {
	259	/* No free register, no dirty register to free. */
	260	pr_err("No more registers! Abandon ship!\n");
	261	return 0;
	262	}
	263
	264	jit_reg = lightrec_reg_to_lightning(cache, nreg);
	265	lightrec_unload_nreg(cache, _jit, nreg, jit_reg);
	266
ba3814c1	267	nreg->prio = REG_IS_TEMP;
d16005f8 PC	268	nreg->used = true;
	269	return jit_reg;
	270	}
	271
ba3814c1 PC	272	s8 lightrec_get_reg_with_value(struct regcache *cache, intptr_t value)
	273	{
	274	struct native_register *nreg;
	275	unsigned int i;
	276
	277	for (i = 0; i < ARRAY_SIZE(cache->lightrec_regs); i++) {
	278	nreg = &cache->lightrec_regs[i];
	279
	280	if (nreg->prio == REG_IS_TEMP_VALUE && nreg->value == value) {
	281	nreg->used = true;
	282	return lightrec_reg_to_lightning(cache, nreg);
	283	}
	284	}
	285
	286	return -1;
	287	}
	288
	289	void lightrec_temp_set_value(struct regcache *cache, u8 jit_reg, intptr_t value)
	290	{
	291	struct native_register *nreg;
	292
	293	nreg = lightning_reg_to_lightrec(cache, jit_reg);
	294
	295	nreg->prio = REG_IS_TEMP_VALUE;
	296	nreg->value = value;
	297	}
	298
98fa08a5	299	u8 lightrec_alloc_reg_out(struct regcache cache, jit_state_t _jit,
9259d748	300	u16 reg, u8 flags)
d16005f8	301	{
98fa08a5	302	struct native_register *nreg;
d16005f8	303	u8 jit_reg;
98fa08a5 PC	304	s8 hw_reg;
	305
	306	hw_reg = lightrec_get_hardwired_reg(reg);
	307	if (hw_reg >= 0)
	308	return (u8) hw_reg;
	309
	310	nreg = alloc_in_out(cache, reg, true);
d16005f8 PC	311	if (!nreg) {
	312	/* No free register, no dirty register to free. */
	313	pr_err("No more registers! Abandon ship!\n");
	314	return 0;
	315	}
	316
	317	jit_reg = lightrec_reg_to_lightning(cache, nreg);
	318
	319	/* If we get a dirty register that doesn't correspond to the one
	320	* we're requesting, store back the old value */
	321	if (nreg->emulated_register != reg)
	322	lightrec_unload_nreg(cache, _jit, nreg, jit_reg);
	323
d16005f8 PC	324	nreg->used = true;
	325	nreg->output = true;
	326	nreg->emulated_register = reg;
98fa08a5 PC	327	nreg->extend = flags & REG_EXT;
98fa08a5 PC	328	nreg->zero_extend = flags & REG_ZEXT;
ba3814c1	329	nreg->prio = reg ? REG_IS_LOADED : REG_IS_ZERO;
d16005f8 PC	330	return jit_reg;
	331	}
	332
98fa08a5	333	u8 lightrec_alloc_reg_in(struct regcache cache, jit_state_t _jit,
9259d748	334	u16 reg, u8 flags)
d16005f8	335	{
98fa08a5	336	struct native_register *nreg;
d16005f8 PC	337	u8 jit_reg;
d16005f8 PC	338	bool reg_changed;
98fa08a5 PC	339	s8 hw_reg;
	340
	341	hw_reg = lightrec_get_hardwired_reg(reg);
	342	if (hw_reg >= 0)
	343	return (u8) hw_reg;
	344
	345	nreg = alloc_in_out(cache, reg, false);
d16005f8 PC	346	if (!nreg) {
	347	/* No free register, no dirty register to free. */
	348	pr_err("No more registers! Abandon ship!\n");
	349	return 0;
	350	}
	351
	352	jit_reg = lightrec_reg_to_lightning(cache, nreg);
	353
	354	/* If we get a dirty register that doesn't correspond to the one
	355	* we're requesting, store back the old value */
	356	reg_changed = nreg->emulated_register != reg;
	357	if (reg_changed)
	358	lightrec_unload_nreg(cache, _jit, nreg, jit_reg);
	359
ba3814c1	360	if (nreg->prio < REG_IS_LOADED && reg != 0) {
98fa08a5	361	s16 offset = offsetof(struct lightrec_state, regs.gpr)
d16005f8 PC	362	+ (reg << 2);
d16005f8 PC	363
98fa08a5 PC	364	nreg->zero_extended = flags & REG_ZEXT;
	365	nreg->extended = !nreg->zero_extended;
	366
d16005f8	367	/* Load previous value from register cache */
98fa08a5 PC	368	if (nreg->zero_extended)
	369	jit_ldxi_ui(jit_reg, LIGHTREC_REG_STATE, offset);
	370	else
	371	jit_ldxi_i(jit_reg, LIGHTREC_REG_STATE, offset);
	372
ba3814c1	373	nreg->prio = REG_IS_LOADED;
d16005f8 PC	374	}
	375
	376	/* Clear register r0 before use */
ba3814c1	377	if (reg == 0 && nreg->prio != REG_IS_ZERO) {
d16005f8 PC	378	jit_movi(jit_reg, 0);
d16005f8 PC	379	nreg->extended = true;
98fa08a5	380	nreg->zero_extended = true;
ba3814c1	381	nreg->prio = REG_IS_ZERO;
d16005f8 PC	382	}
	383
	384	nreg->used = true;
	385	nreg->output = false;
	386	nreg->emulated_register = reg;
d16005f8	387
98fa08a5 PC	388	if ((flags & REG_EXT) && !nreg->extended &&
98fa08a5 PC	389	(!nreg->zero_extended \|\| !(flags & REG_ZEXT))) {
d16005f8	390	nreg->extended = true;
98fa08a5	391	nreg->zero_extended = false;
d16005f8	392	jit_extr_i(jit_reg, jit_reg);
98fa08a5 PC	393	} else if (!(flags & REG_EXT) && (flags & REG_ZEXT) &&
	394	!nreg->zero_extended) {
	395	nreg->zero_extended = true;
	396	nreg->extended = false;
	397	jit_extr_ui(jit_reg, jit_reg);
d16005f8	398	}
d16005f8 PC	399
	400	return jit_reg;
	401	}
	402
9259d748	403	static bool reg_pc_is_mapped(struct regcache *cache)
d16005f8	404	{
9259d748 PC	405	struct native_register *nreg = lightning_reg_to_lightrec(cache, JIT_V0);
	406
	407	return nreg->prio == REG_IS_LOADED && nreg->emulated_register == REG_PC;
	408	}
	409
	410	void lightrec_load_imm(struct regcache *cache,
	411	jit_state_t *_jit, u8 jit_reg, u32 pc, u32 imm)
	412	{
	413	s32 delta = imm - pc;
	414
	415	if (!reg_pc_is_mapped(cache) \|\| !can_sign_extend(delta, 16))
	416	jit_movi(jit_reg, imm);
	417	else if (jit_reg != JIT_V0 \|\| delta)
	418	jit_addi(jit_reg, JIT_V0, delta);
	419	}
	420
	421	void lightrec_load_next_pc_imm(struct regcache *cache,
	422	jit_state_t *_jit, u32 pc, u32 imm)
	423	{
	424	struct native_register *nreg = lightning_reg_to_lightrec(cache, JIT_V0);
	425
	426	if (reg_pc_is_mapped(cache)) {
	427	/* JIT_V0 contains next PC - so we can overwrite it */
	428	lightrec_load_imm(cache, _jit, JIT_V0, pc, imm);
	429	} else {
	430	/* JIT_V0 contains something else - invalidate it */
	431	lightrec_unload_reg(cache, _jit, JIT_V0);
	432
	433	jit_movi(JIT_V0, imm);
	434	}
	435
	436	nreg->prio = REG_IS_LOADED;
	437	nreg->emulated_register = -1;
	438	nreg->locked = true;
	439	}
	440
	441	void lightrec_load_next_pc(struct regcache cache, jit_state_t _jit, u8 reg)
	442	{
	443	struct native_register nreg_v0, nreg;
d16005f8	444	u16 offset;
9259d748 PC	445	u8 jit_reg;
	446
	447	/* Invalidate JIT_V0 if it is not mapped to 'reg' */
	448	nreg_v0 = lightning_reg_to_lightrec(cache, JIT_V0);
	449	if (nreg_v0->prio >= REG_IS_LOADED && nreg_v0->emulated_register != reg)
	450	lightrec_unload_nreg(cache, _jit, nreg_v0, JIT_V0);
d16005f8 PC	451
d16005f8 PC	452	nreg = find_mapped_reg(cache, reg, false);
9259d748 PC	453	if (!nreg) {
9259d748 PC	454	/* Not mapped - load the value from the register cache */
d16005f8	455
9259d748 PC	456	offset = offsetof(struct lightrec_state, regs.gpr) + (reg << 2);
9259d748 PC	457	jit_ldxi_ui(JIT_V0, LIGHTREC_REG_STATE, offset);
d16005f8	458
9259d748 PC	459	nreg_v0->prio = REG_IS_LOADED;
9259d748 PC	460	nreg_v0->emulated_register = reg;
d16005f8	461
9259d748 PC	462	} else if (nreg == nreg_v0) {
9259d748 PC	463	/* The target register 'reg' is mapped to JIT_V0 */
d16005f8	464
9259d748 PC	465	if (!nreg->zero_extended)
	466	jit_extr_ui(JIT_V0, JIT_V0);
	467
	468	} else {
	469	/* The target register 'reg' is mapped elsewhere. In that case,
	470	* move the register's value to JIT_V0 and re-map it in the
	471	* register cache. We can then safely discard the original
	472	* mapped register (even if it was dirty). */
	473
	474	jit_reg = lightrec_reg_to_lightning(cache, nreg);
	475	if (nreg->zero_extended)
	476	jit_movr(JIT_V0, jit_reg);
	477	else
	478	jit_extr_ui(JIT_V0, jit_reg);
	479
	480	nreg_v0 = nreg;
	481	lightrec_discard_nreg(nreg);
	482	}
	483
	484	lightrec_clean_reg(cache, _jit, JIT_V0);
	485
	486	nreg_v0->zero_extended = true;
	487	nreg_v0->locked = true;
d16005f8 PC	488	}
	489
	490	static void free_reg(struct native_register *nreg)
	491	{
	492	/* Set output registers as dirty */
	493	if (nreg->used && nreg->output && nreg->emulated_register > 0)
ba3814c1	494	nreg->prio = REG_IS_DIRTY;
98fa08a5	495	if (nreg->output) {
d16005f8	496	nreg->extended = nreg->extend;
98fa08a5 PC	497	nreg->zero_extended = nreg->zero_extend;
98fa08a5 PC	498	}
d16005f8 PC	499	nreg->used = false;
	500	}
	501
	502	void lightrec_free_reg(struct regcache *cache, u8 jit_reg)
	503	{
98fa08a5 PC	504	if (!lightrec_reg_is_zero(jit_reg))
98fa08a5 PC	505	free_reg(lightning_reg_to_lightrec(cache, jit_reg));
d16005f8 PC	506	}
	507
	508	void lightrec_free_regs(struct regcache *cache)
	509	{
	510	unsigned int i;
	511
	512	for (i = 0; i < ARRAY_SIZE(cache->lightrec_regs); i++)
	513	free_reg(&cache->lightrec_regs[i]);
	514	}
	515
	516	static void clean_reg(jit_state_t *_jit,
	517	struct native_register *nreg, u8 jit_reg, bool clean)
	518	{
cb72ea13	519	/* If we get a dirty register, store back the old value */
ba3814c1	520	if (nreg->prio == REG_IS_DIRTY) {
98fa08a5	521	s16 offset = offsetof(struct lightrec_state, regs.gpr)
d16005f8 PC	522	+ (nreg->emulated_register << 2);
	523
	524	jit_stxi_i(offset, LIGHTREC_REG_STATE, jit_reg);
ba3814c1 PC	525
	526	if (clean) {
	527	if (nreg->emulated_register == 0)
	528	nreg->prio = REG_IS_ZERO;
	529	else
	530	nreg->prio = REG_IS_LOADED;
	531	}
d16005f8 PC	532	}
	533	}
	534
	535	static void clean_regs(struct regcache cache, jit_state_t _jit, bool clean)
	536	{
	537	unsigned int i;
	538
ba3814c1 PC	539	for (i = 0; i < NUM_REGS; i++) {
	540	clean_reg(_jit, &cache->lightrec_regs[i],
	541	JIT_V(FIRST_REG + i), clean);
	542	}
d16005f8 PC	543	for (i = 0; i < NUM_TEMPS; i++) {
d16005f8 PC	544	clean_reg(_jit, &cache->lightrec_regs[i + NUM_REGS],
ba3814c1	545	JIT_R(FIRST_TEMP + i), clean);
d16005f8 PC	546	}
	547	}
	548
	549	void lightrec_storeback_regs(struct regcache cache, jit_state_t _jit)
	550	{
	551	clean_regs(cache, _jit, false);
	552	}
	553
	554	void lightrec_clean_regs(struct regcache cache, jit_state_t _jit)
	555	{
	556	clean_regs(cache, _jit, true);
	557	}
	558
ba3814c1 PC	559	bool lightrec_has_dirty_regs(struct regcache *cache)
	560	{
	561	unsigned int i;
	562
	563	for (i = 0; i < NUM_REGS + NUM_TEMPS; i++)
	564	if (cache->lightrec_regs[i].prio == REG_IS_DIRTY)
	565	return true;
	566
	567	return false;
	568	}
	569
d16005f8 PC	570	void lightrec_clean_reg(struct regcache cache, jit_state_t _jit, u8 jit_reg)
d16005f8 PC	571	{
98fa08a5 PC	572	struct native_register *reg;
	573
	574	if (!lightrec_reg_is_zero(jit_reg)) {
	575	reg = lightning_reg_to_lightrec(cache, jit_reg);
	576	clean_reg(_jit, reg, jit_reg, true);
	577	}
d16005f8 PC	578	}
d16005f8 PC	579
cb72ea13 PC	580	bool lightrec_reg_is_loaded(struct regcache *cache, u16 reg)
	581	{
	582	return !!find_mapped_reg(cache, reg, false);
	583	}
	584
d16005f8	585	void lightrec_clean_reg_if_loaded(struct regcache cache, jit_state_t _jit,
9259d748	586	u16 reg, bool unload)
d16005f8 PC	587	{
	588	struct native_register *nreg;
	589	u8 jit_reg;
	590
	591	nreg = find_mapped_reg(cache, reg, false);
	592	if (nreg) {
	593	jit_reg = lightrec_reg_to_lightning(cache, nreg);
	594
	595	if (unload)
	596	lightrec_unload_nreg(cache, _jit, nreg, jit_reg);
	597	else
	598	clean_reg(_jit, nreg, jit_reg, true);
	599	}
	600	}
	601
9259d748	602	void lightrec_discard_reg_if_loaded(struct regcache *cache, u16 reg)
03535202 PC	603	{
	604	struct native_register *nreg;
	605
	606	nreg = find_mapped_reg(cache, reg, false);
	607	if (nreg)
	608	lightrec_discard_nreg(nreg);
	609	}
	610
d16005f8 PC	611	struct native_register * lightrec_regcache_enter_branch(struct regcache *cache)
	612	{
	613	struct native_register *backup;
	614
	615	backup = lightrec_malloc(cache->state, MEM_FOR_LIGHTREC,
	616	sizeof(cache->lightrec_regs));
	617	memcpy(backup, &cache->lightrec_regs, sizeof(cache->lightrec_regs));
	618
	619	return backup;
	620	}
	621
	622	void lightrec_regcache_leave_branch(struct regcache *cache,
	623	struct native_register *regs)
	624	{
	625	memcpy(&cache->lightrec_regs, regs, sizeof(cache->lightrec_regs));
	626	lightrec_free(cache->state, MEM_FOR_LIGHTREC,
	627	sizeof(cache->lightrec_regs), regs);
	628	}
	629
	630	void lightrec_regcache_reset(struct regcache *cache)
	631	{
	632	memset(&cache->lightrec_regs, 0, sizeof(cache->lightrec_regs));
	633	}
	634
9259d748 PC	635	void lightrec_preload_pc(struct regcache *cache)
	636	{
	637	struct native_register *nreg;
	638
	639	/* The block's PC is loaded in JIT_V0 at the start of the block */
	640	nreg = lightning_reg_to_lightrec(cache, JIT_V0);
	641	nreg->emulated_register = REG_PC;
	642	nreg->prio = REG_IS_LOADED;
	643	nreg->zero_extended = true;
	644	}
	645
d16005f8 PC	646	struct regcache * lightrec_regcache_init(struct lightrec_state *state)
	647	{
	648	struct regcache *cache;
	649
	650	cache = lightrec_calloc(state, MEM_FOR_LIGHTREC, sizeof(*cache));
	651	if (!cache)
	652	return NULL;
	653
	654	cache->state = state;
	655
	656	return cache;
	657	}
	658
	659	void lightrec_free_regcache(struct regcache *cache)
	660	{
	661	return lightrec_free(cache->state, MEM_FOR_LIGHTREC,
	662	sizeof(*cache), cache);
	663	}
	664
	665	void lightrec_regcache_mark_live(struct regcache cache, jit_state_t _jit)
	666	{
	667	struct native_register *nreg;
	668	unsigned int i;
	669
	670	#ifdef _WIN32
	671	/* FIXME: GNU Lightning on Windows seems to use our mapped registers as
	672	* temporaries. Until the actual bug is found and fixed, unconditionally
	673	* mark our registers as live here. */
	674	for (i = 0; i < NUM_REGS; i++) {
	675	nreg = &cache->lightrec_regs[i];
	676
ba3814c1 PC	677	if (nreg->used \|\| nreg->prio > REG_IS_TEMP)
ba3814c1 PC	678	jit_live(JIT_V(FIRST_REG + i));
d16005f8 PC	679	}
	680	#endif
	681
	682	for (i = 0; i < NUM_TEMPS; i++) {
	683	nreg = &cache->lightrec_regs[NUM_REGS + i];
	684
ba3814c1 PC	685	if (nreg->used \|\| nreg->prio > REG_IS_TEMP)
ba3814c1 PC	686	jit_live(JIT_R(FIRST_TEMP + i));
d16005f8	687	}
ba3814c1 PC	688
	689	jit_live(LIGHTREC_REG_STATE);
	690	jit_live(LIGHTREC_REG_CYCLE);
d16005f8	691	}