#include "ia32_x87.h"
#include "ia32_architecture.h"
+#define N_FLOAT_REGS (N_ia32_fp_REGS-1) // exclude NOREG
+
/** the debug handle */
DEBUG_ONLY(static firm_dbg_module_t *dbg = NULL;)
* The x87 state.
*/
typedef struct x87_state {
- st_entry st[N_ia32_st_REGS]; /**< the register stack */
- int depth; /**< the current stack depth */
- x87_simulator *sim; /**< The simulator. */
+ st_entry st[N_FLOAT_REGS]; /**< the register stack */
+ int depth; /**< the current stack depth */
+ x87_simulator *sim; /**< The simulator. */
} x87_state;
/** An empty state, used for blocks without fp instructions. */
x87_state *end; /**< state at the end or NULL if not assigned */
} blk_state;
-/** liveness bitset for vfp registers. */
-typedef unsigned char vfp_liveness;
+/** liveness bitset for fp registers. */
+typedef unsigned char fp_liveness;
/**
* The x87 simulator.
struct obstack obst; /**< An obstack for fast allocating. */
pmap *blk_states; /**< Map blocks to states. */
be_lv_t *lv; /**< intrablock liveness. */
- vfp_liveness *live; /**< Liveness information. */
+ fp_liveness *live; /**< Liveness information. */
unsigned n_idx; /**< The cached get_irg_last_idx() result. */
waitq *worklist; /**< Worklist of blocks that must be processed. */
};
static st_entry *x87_get_entry(x87_state *const state, int const pos)
{
assert(0 <= pos && pos < state->depth);
- return &state->st[N_ia32_st_REGS - state->depth + pos];
+ return &state->st[N_FLOAT_REGS - state->depth + pos];
}
/**
* @param state the x87 state
* @param pos a stack position
*
- * @return the vfp register index that produced the value at st(pos)
+ * @return the fp register index that produced the value at st(pos)
*/
static int x87_get_st_reg(const x87_state *state, int pos)
{
* Set a virtual register to st(pos).
*
* @param state the x87 state
- * @param reg_idx the vfp register index that should be set
- * @param node the IR node that produces the value of the vfp register
+ * @param reg_idx the fp register index that should be set
+ * @param node the IR node that produces the value of the fp register
* @param pos the stack position where the new value should be entered
*/
static void x87_set_st(x87_state *state, int reg_idx, ir_node *node, int pos)
* Convert a virtual register to the stack index.
*
* @param state the x87 state
- * @param reg_idx the register vfp index
+ * @param reg_idx the register fp index
*
* @return the stack position where the register is stacked
* or -1 if the virtual register was not found
* Push a virtual Register onto the stack, double pushes are NOT allowed.
*
* @param state the x87 state
- * @param reg_idx the register vfp index
- * @param node the node that produces the value of the vfp register
+ * @param reg_idx the register fp index
+ * @param node the node that produces the value of the fp register
*/
static void x87_push(x87_state *state, int reg_idx, ir_node *node)
{
assert(x87_on_stack(state, reg_idx) == -1 && "double push");
- assert(state->depth < N_ia32_st_REGS && "stack overrun");
+ assert(state->depth < N_FLOAT_REGS && "stack overrun");
++state->depth;
st_entry *const entry = x87_get_entry(state, 0);
return res;
}
-/**
- * Patch a virtual instruction into a x87 one and return
- * the node representing the result value.
- *
- * @param n the IR node to patch
- * @param op the x87 opcode to patch in
- */
-static ir_node *x87_patch_insn(ir_node *n, ir_op *op)
-{
- ir_mode *mode = get_irn_mode(n);
- ir_node *res = n;
-
- set_irn_op(n, op);
-
- if (mode == mode_T) {
- /* patch all Proj's */
- foreach_out_edge(n, edge) {
- ir_node *proj = get_edge_src_irn(edge);
- if (is_Proj(proj)) {
- mode = get_irn_mode(proj);
- if (mode_is_float(mode)) {
- res = proj;
- set_irn_mode(proj, ia32_reg_classes[CLASS_ia32_st].mode);
- }
- }
- }
- } else if (mode_is_float(mode))
- set_irn_mode(n, ia32_reg_classes[CLASS_ia32_st].mode);
- return res;
-}
-
/**
* Returns the first Proj of a mode_T node having a given mode.
*
{
const arch_register_t *res = arch_get_irn_register(irn);
- assert(res->reg_class == &ia32_reg_classes[CLASS_ia32_vfp]);
+ assert(res->reg_class == &ia32_reg_classes[CLASS_ia32_fp]);
return res;
}
{
const arch_register_t *res = arch_get_irn_register_out(irn, pos);
- assert(res->reg_class == &ia32_reg_classes[CLASS_ia32_vfp]);
+ assert(res->reg_class == &ia32_reg_classes[CLASS_ia32_fp]);
return res;
}
ir_node *const block = get_nodes_block(n);
ir_node *const fxch = new_bd_ia32_fxch(NULL, block);
ia32_x87_attr_t *const attr = get_ia32_x87_attr(fxch);
- attr->x87[0] = get_st_reg(pos);
- attr->x87[2] = get_st_reg(0);
+ attr->reg = get_st_reg(pos);
keep_alive(fxch);
sched_add_before(n, fxch);
- DB((dbg, LEVEL_1, "<<< %s %s, %s\n", get_irn_opname(fxch), attr->x87[0]->name, attr->x87[2]->name));
+ DB((dbg, LEVEL_1, "<<< %s %s\n", get_irn_opname(fxch), attr->reg->name));
}
/* -------------- x87 perm --------------- */
ir_node *const fpush = new_bd_ia32_fpush(NULL, get_nodes_block(n));
ia32_x87_attr_t *const attr = get_ia32_x87_attr(fpush);
- attr->x87[0] = get_st_reg(pos);
- attr->x87[2] = get_st_reg(0);
+ attr->reg = get_st_reg(pos);
keep_alive(fpush);
sched_add_before(n, fpush);
- DB((dbg, LEVEL_1, "<<< %s %s, %s\n", get_irn_opname(fpush), attr->x87[0]->name, attr->x87[2]->name));
+ DB((dbg, LEVEL_1, "<<< %s %s\n", get_irn_opname(fpush), attr->reg->name));
}
/**
* Create a fpop before node n.
+ * This overwrites st(pos) with st(0) and pops st(0).
*
* @param state the x87 state
* @param n the node after the fpop
- * @param num pop 1 or 2 values
+ * @param pos the index of the entry to remove the register stack
*
* @return the fpop node
*/
-static ir_node *x87_create_fpop(x87_state *state, ir_node *n, int num)
+static ir_node *x87_create_fpop(x87_state *const state, ir_node *const n, int const pos)
{
- ir_node *fpop = NULL;
- ia32_x87_attr_t *attr;
-
- assert(num > 0);
- do {
- x87_pop(state);
- if (ia32_cg_config.use_ffreep)
- fpop = new_bd_ia32_ffreep(NULL, get_nodes_block(n));
- else
- fpop = new_bd_ia32_fpop(NULL, get_nodes_block(n));
- attr = get_ia32_x87_attr(fpop);
- attr->x87[0] = get_st_reg(0);
- attr->x87[1] = get_st_reg(0);
- attr->x87[2] = get_st_reg(0);
-
- keep_alive(fpop);
- sched_add_before(n, fpop);
- DB((dbg, LEVEL_1, "<<< %s %s\n", get_irn_opname(fpop), attr->x87[0]->name));
- } while (--num > 0);
+ if (pos != 0) {
+ st_entry *const dst = x87_get_entry(state, pos);
+ st_entry *const src = x87_get_entry(state, 0);
+ *dst = *src;
+ }
+ x87_pop(state);
+ ir_node *const block = get_nodes_block(n);
+ ir_node *const fpop = pos == 0 && ia32_cg_config.use_ffreep ?
+ new_bd_ia32_ffreep(NULL, block) :
+ new_bd_ia32_fpop( NULL, block);
+ ia32_x87_attr_t *const attr = get_ia32_x87_attr(fpop);
+ attr->reg = get_st_reg(pos);
+
+ keep_alive(fpop);
+ sched_add_before(n, fpop);
+ DB((dbg, LEVEL_1, "<<< %s %s\n", get_irn_opname(fpop), attr->reg->name));
return fpop;
}
*
* @return The live bitset.
*/
-static vfp_liveness vfp_liveness_transfer(ir_node *irn, vfp_liveness live)
+static fp_liveness fp_liveness_transfer(ir_node *irn, fp_liveness live)
{
- int i, n;
- const arch_register_class_t *cls = &ia32_reg_classes[CLASS_ia32_vfp];
-
- if (get_irn_mode(irn) == mode_T) {
- foreach_out_edge(irn, edge) {
- ir_node *proj = get_edge_src_irn(edge);
-
- if (arch_irn_consider_in_reg_alloc(cls, proj)) {
- const arch_register_t *reg = x87_get_irn_register(proj);
- live &= ~(1 << arch_register_get_index(reg));
- }
- }
- } else if (arch_irn_consider_in_reg_alloc(cls, irn)) {
- const arch_register_t *reg = x87_get_irn_register(irn);
- live &= ~(1 << arch_register_get_index(reg));
- }
-
- for (i = 0, n = get_irn_arity(irn); i < n; ++i) {
- ir_node *op = get_irn_n(irn, i);
-
- if (mode_is_float(get_irn_mode(op)) &&
- arch_irn_consider_in_reg_alloc(cls, op)) {
- const arch_register_t *reg = x87_get_irn_register(op);
- live |= 1 << arch_register_get_index(reg);
- }
- }
+ const arch_register_class_t *cls = &ia32_reg_classes[CLASS_ia32_fp];
+
+ be_foreach_definition(irn, cls, def, req,
+ const arch_register_t *reg = x87_get_irn_register(def);
+ live &= ~(1 << reg->index);
+ );
+ be_foreach_use(irn, cls, in_req_, op, op_req_,
+ const arch_register_t *reg = x87_get_irn_register(op);
+ live |= 1 << reg->index;
+ );
return live;
}
*
* @return The live bitset at the end of this block
*/
-static vfp_liveness vfp_liveness_end_of_block(x87_simulator *sim, const ir_node *block)
+static fp_liveness fp_liveness_end_of_block(x87_simulator *sim, const ir_node *block)
{
- vfp_liveness live = 0;
- const arch_register_class_t *cls = &ia32_reg_classes[CLASS_ia32_vfp];
+ fp_liveness live = 0;
+ const arch_register_class_t *cls = &ia32_reg_classes[CLASS_ia32_fp];
const be_lv_t *lv = sim->lv;
- be_lv_foreach(lv, block, be_lv_state_end, node) {
- const arch_register_t *reg;
- if (!arch_irn_consider_in_reg_alloc(cls, node))
- continue;
-
- reg = x87_get_irn_register(node);
- live |= 1 << arch_register_get_index(reg);
+ be_lv_foreach_cls(lv, block, be_lv_state_end, cls, node) {
+ const arch_register_t *reg = x87_get_irn_register(node);
+ live |= 1 << reg->index;
}
return live;
}
/** get the register mask from an arch_register */
-#define REGMASK(reg) (1 << (arch_register_get_index(reg)))
+#define REGMASK(reg) (1 << (reg->index))
/**
* Return a bitset of argument registers which are live at the end of a node.
*
* @return The live bitset.
*/
-static unsigned vfp_live_args_after(x87_simulator *sim, const ir_node *pos, unsigned kill)
+static unsigned fp_live_args_after(x87_simulator *sim, const ir_node *pos, unsigned kill)
{
unsigned idx = get_irn_idx(pos);
*/
static void update_liveness(x87_simulator *sim, ir_node *block)
{
- vfp_liveness live = vfp_liveness_end_of_block(sim, block);
+ fp_liveness live = fp_liveness_end_of_block(sim, block);
unsigned idx;
/* now iterate through the block backward and cache the results */
idx = get_irn_idx(irn);
sim->live[idx] = live;
- live = vfp_liveness_transfer(irn, live);
+ live = fp_liveness_transfer(irn, live);
}
idx = get_irn_idx(block);
sim->live[idx] = live;
/**
* Returns true if a register is live in a set.
*
- * @param reg_idx the vfp register index
+ * @param reg_idx the fp register index
* @param live a live bitset
*/
-#define is_vfp_live(reg_idx, live) ((live) & (1 << (reg_idx)))
+#define is_fp_live(reg_idx, live) ((live) & (1 << (reg_idx)))
#ifdef DEBUG_libfirm
/**
*
* @param live the live bitset
*/
-static void vfp_dump_live(vfp_liveness live)
+static void fp_dump_live(fp_liveness live)
{
int i;
*
* @return NO_NODE_ADDED
*/
-static int sim_binop(x87_state *const state, ir_node *const n, ir_op *const normal_op, ir_op *const normal_pop_op)
+static int sim_binop(x87_state *const state, ir_node *const n)
{
- int op2_idx = 0, op1_idx;
- int out_idx, do_pop = 0;
- ia32_x87_attr_t *attr;
- int permuted;
- ir_node *patched_insn;
- ir_op *dst;
x87_simulator *sim = state->sim;
ir_node *op1 = get_irn_n(n, n_ia32_binary_left);
ir_node *op2 = get_irn_n(n, n_ia32_binary_right);
const arch_register_t *op1_reg = x87_get_irn_register(op1);
const arch_register_t *op2_reg = x87_get_irn_register(op2);
const arch_register_t *out = x87_irn_get_register(n, pn_ia32_res);
- int reg_index_1 = arch_register_get_index(op1_reg);
- int reg_index_2 = arch_register_get_index(op2_reg);
- vfp_liveness live = vfp_live_args_after(sim, n, REGMASK(out));
+ int reg_index_1 = op1_reg->index;
+ int reg_index_2 = op2_reg->index;
+ fp_liveness live = fp_live_args_after(sim, n, REGMASK(out));
int op1_live_after;
int op2_live_after;
- DB((dbg, LEVEL_1, ">>> %+F %s, %s -> %s\n", n,
- arch_register_get_name(op1_reg), arch_register_get_name(op2_reg),
- arch_register_get_name(out)));
- DEBUG_ONLY(vfp_dump_live(live);)
+ DB((dbg, LEVEL_1, ">>> %+F %s, %s -> %s\n", n, op1_reg->name, op2_reg->name, out->name));
+ DEBUG_ONLY(fp_dump_live(live);)
DB((dbg, LEVEL_1, "Stack before: "));
DEBUG_ONLY(x87_dump_stack(state);)
- op1_idx = x87_on_stack(state, reg_index_1);
+ int op1_idx = x87_on_stack(state, reg_index_1);
assert(op1_idx >= 0);
- op1_live_after = is_vfp_live(reg_index_1, live);
-
- attr = get_ia32_x87_attr(n);
- permuted = attr->attr.data.ins_permuted;
-
- int const out_reg_idx = arch_register_get_index(out);
- if (reg_index_2 != REG_VFP_VFP_NOREG) {
- assert(!permuted);
-
- /* second operand is a vfp register */
+ op1_live_after = is_fp_live(reg_index_1, live);
+
+ int op2_idx;
+ int out_idx;
+ bool pop = false;
+ int const out_reg_idx = out->index;
+ ia32_x87_attr_t *const attr = get_ia32_x87_attr(n);
+ if (reg_index_2 != REG_FP_FP_NOREG) {
+ /* second operand is a fp register */
op2_idx = x87_on_stack(state, reg_index_2);
assert(op2_idx >= 0);
- op2_live_after = is_vfp_live(reg_index_2, live);
+ op2_live_after = is_fp_live(reg_index_2, live);
if (op2_live_after) {
/* Second operand is live. */
if (op1_live_after) {
/* Both operands are live: push the first one.
- This works even for op1 == op2. */
- x87_create_fpush(state, n, op1_idx, out_reg_idx, op2);
+ * This works even for op1 == op2. */
+ x87_create_fpush(state, n, op1_idx, out_reg_idx, op1);
/* now do fxxx (tos=tos X op) */
op1_idx = 0;
op2_idx += 1;
out_idx = 0;
- dst = normal_op;
} else {
- /* Second live, first operand is dead here, bring it to tos. */
- if (op1_idx != 0) {
+ /* Second live, first operand is dead: Overwrite first. */
+ if (op1_idx != 0 && op2_idx != 0) {
+ /* Bring one operand to tos. */
x87_create_fxch(state, n, op1_idx);
- if (op2_idx == 0)
- op2_idx = op1_idx;
op1_idx = 0;
}
- /* now do fxxx (tos=tos X op) */
- out_idx = 0;
- dst = normal_op;
+ out_idx = op1_idx;
}
} else {
/* Second operand is dead. */
if (op1_live_after) {
- /* First operand is live: bring second to tos. */
- if (op2_idx != 0) {
+ /* First operand is live, second is dead: Overwrite second. */
+ if (op1_idx != 0 && op2_idx != 0) {
+ /* Bring one operand to tos. */
x87_create_fxch(state, n, op2_idx);
- if (op1_idx == 0)
- op1_idx = op2_idx;
op2_idx = 0;
}
- /* now do fxxxr (tos = op X tos) */
- out_idx = 0;
- dst = normal_op;
+ out_idx = op2_idx;
} else {
- /* Both operands are dead here, pop them from the stack. */
- if (op2_idx == 0) {
- if (op1_idx == 0) {
- /* Both are identically and on tos, no pop needed. */
- /* here fxxx (tos = tos X tos) */
- dst = normal_op;
- out_idx = 0;
- } else {
- /* now do fxxxp (op = op X tos, pop) */
- dst = normal_pop_op;
- do_pop = 1;
- out_idx = op1_idx;
- }
- } else if (op1_idx == 0) {
- assert(op1_idx != op2_idx);
- /* now do fxxxrp (op = tos X op, pop) */
- dst = normal_pop_op;
- do_pop = 1;
- out_idx = op2_idx;
- } else {
- /* Bring the second on top. */
- x87_create_fxch(state, n, op2_idx);
- if (op1_idx == op2_idx) {
- /* Both are identically and on tos now, no pop needed. */
+ /* Both operands are dead. */
+ if (op1_idx == op2_idx) {
+ /* Operands are identical: no pop. */
+ if (op1_idx != 0) {
+ x87_create_fxch(state, n, op1_idx);
op1_idx = 0;
op2_idx = 0;
- /* use fxxx (tos = tos X tos) */
- dst = normal_op;
- out_idx = 0;
- } else {
- /* op2 is on tos now */
- op2_idx = 0;
- /* use fxxxp (op = op X tos, pop) */
- dst = normal_pop_op;
- out_idx = op1_idx;
- do_pop = 1;
}
+ } else {
+ if (op1_idx != 0 && op2_idx != 0) {
+ /* Bring one operand to tos. Heuristically swap the operand not at
+ * st(1) to tos. This way, if any operand was at st(1), the result
+ * will end up in the new st(0) after the implicit pop. If the next
+ * operation uses the result, then no fxch will be necessary. */
+ if (op1_idx != 1) {
+ x87_create_fxch(state, n, op1_idx);
+ op1_idx = 0;
+ } else {
+ x87_create_fxch(state, n, op2_idx);
+ op2_idx = 0;
+ }
+ }
+ pop = true;
}
+ out_idx = op1_idx != 0 ? op1_idx : op2_idx;
}
}
} else {
if (op1_live_after) {
/* first operand is live: push it here */
x87_create_fpush(state, n, op1_idx, out_reg_idx, op1);
- op1_idx = 0;
} else {
/* first operand is dead: bring it to tos */
- if (op1_idx != 0) {
+ if (op1_idx != 0)
x87_create_fxch(state, n, op1_idx);
- op1_idx = 0;
- }
}
- /* use fxxx (tos = tos X mem) */
- dst = normal_op;
+ op1_idx = attr->attr.data.ins_permuted ? -1 : 0;
+ op2_idx = attr->attr.data.ins_permuted ? 0 : -1;
out_idx = 0;
}
+ assert(op1_idx == 0 || op2_idx == 0);
+ assert(out_idx == op1_idx || out_idx == op2_idx);
- patched_insn = x87_patch_insn(n, dst);
- x87_set_st(state, out_reg_idx, patched_insn, out_idx);
- if (do_pop) {
+ x87_set_st(state, out_reg_idx, n, out_idx);
+ if (pop)
x87_pop(state);
- }
/* patch the operation */
- attr->x87[0] = op1_reg = get_st_reg(op1_idx);
- if (reg_index_2 != REG_VFP_VFP_NOREG) {
- attr->x87[1] = op2_reg = get_st_reg(op2_idx);
- }
- attr->x87[2] = out = get_st_reg(out_idx);
-
- if (reg_index_2 != REG_VFP_VFP_NOREG) {
- DB((dbg, LEVEL_1, "<<< %s %s, %s -> %s\n", get_irn_opname(n),
- arch_register_get_name(op1_reg), arch_register_get_name(op2_reg),
- arch_register_get_name(out)));
- } else {
- DB((dbg, LEVEL_1, "<<< %s %s, [AM] -> %s\n", get_irn_opname(n),
- arch_register_get_name(op1_reg),
- arch_register_get_name(out)));
- }
+ int const reg_idx = op1_idx != 0 ? op1_idx : op2_idx;
+ attr->reg = reg_idx >= 0 ? get_st_reg(reg_idx) : NULL;
+ attr->attr.data.ins_permuted = op1_idx != 0;
+ attr->res_in_reg = out_idx != 0;
+ attr->pop = pop;
+
+ DEBUG_ONLY(
+ char const *const l = op1_idx >= 0 ? get_st_reg(op1_idx)->name : "[AM]";
+ char const *const r = op2_idx >= 0 ? get_st_reg(op2_idx)->name : "[AM]";
+ char const *const o = get_st_reg(out_idx)->name;
+ DB((dbg, LEVEL_1, "<<< %s %s, %s -> %s\n", get_irn_opname(n), l, r, o));
+ )
return NO_NODE_ADDED;
}
*
* @param state the x87 state
* @param n the node that should be simulated (and patched)
- * @param op the x87 opcode that will replace n's opcode
*
* @return NO_NODE_ADDED
*/
-static int sim_unop(x87_state *state, ir_node *n, ir_op *op)
+static int sim_unop(x87_state *state, ir_node *n)
{
arch_register_t const *const out = x87_get_irn_register(n);
- unsigned const live = vfp_live_args_after(state->sim, n, REGMASK(out));
+ unsigned const live = fp_live_args_after(state->sim, n, REGMASK(out));
DB((dbg, LEVEL_1, ">>> %+F -> %s\n", n, out->name));
- DEBUG_ONLY(vfp_dump_live(live);)
+ DEBUG_ONLY(fp_dump_live(live);)
ir_node *const op1 = get_irn_n(n, 0);
arch_register_t const *const op1_reg = x87_get_irn_register(op1);
- int const op1_reg_idx = arch_register_get_index(op1_reg);
+ int const op1_reg_idx = op1_reg->index;
int const op1_idx = x87_on_stack(state, op1_reg_idx);
- int const out_reg_idx = arch_register_get_index(out);
- if (is_vfp_live(op1_reg_idx, live)) {
+ int const out_reg_idx = out->index;
+ if (is_fp_live(op1_reg_idx, live)) {
/* push the operand here */
x87_create_fpush(state, n, op1_idx, out_reg_idx, op1);
} else {
}
}
- x87_set_st(state, out_reg_idx, x87_patch_insn(n, op), 0);
- ia32_x87_attr_t *const attr = get_ia32_x87_attr(n);
- attr->x87[2] = attr->x87[0] = get_st_reg(0);
- DB((dbg, LEVEL_1, "<<< %s -> %s\n", get_irn_opname(n), attr->x87[2]->name));
+ x87_set_st(state, out_reg_idx, n, 0);
+ DB((dbg, LEVEL_1, "<<< %s -> %s\n", get_irn_opname(n), get_st_reg(0)->name));
return NO_NODE_ADDED;
}
*
* @param state the x87 state
* @param n the node that should be simulated (and patched)
- * @param op the x87 opcode that will replace n's opcode
*
* @return NO_NODE_ADDED
*/
-static int sim_load(x87_state *state, ir_node *n, ir_op *op, int res_pos)
+static int sim_load(x87_state *state, ir_node *n)
{
- const arch_register_t *out = x87_irn_get_register(n, res_pos);
- ia32_x87_attr_t *attr;
+ assert((int)pn_ia32_fld_res == (int)pn_ia32_fild_res
+ && (int)pn_ia32_fld_res == (int)pn_ia32_fld1_res
+ && (int)pn_ia32_fld_res == (int)pn_ia32_fldz_res);
+ const arch_register_t *out = x87_irn_get_register(n, pn_ia32_fld_res);
- DB((dbg, LEVEL_1, ">>> %+F -> %s\n", n, arch_register_get_name(out)));
- x87_push(state, arch_register_get_index(out), x87_patch_insn(n, op));
- assert(out == x87_irn_get_register(n, res_pos));
- attr = get_ia32_x87_attr(n);
- attr->x87[2] = out = get_st_reg(0);
- DB((dbg, LEVEL_1, "<<< %s -> %s\n", get_irn_opname(n), arch_register_get_name(out)));
+ DB((dbg, LEVEL_1, ">>> %+F -> %s\n", n, out->name));
+ x87_push(state, out->index, n);
+ assert(out == x87_irn_get_register(n, pn_ia32_fld_res));
+ DB((dbg, LEVEL_1, "<<< %s -> %s\n", get_irn_opname(n), get_st_reg(0)->name));
return NO_NODE_ADDED;
}
*
* @param state the x87 state
* @param n the node that should be simulated (and patched)
- * @param op the x87 store opcode
- * @param op_p the x87 store and pop opcode
*/
-static int sim_store(x87_state *state, ir_node *n, ir_op *op, ir_op *op_p)
+static int sim_store(x87_state *state, ir_node *n)
{
- ir_node *const val = get_irn_n(n, n_ia32_vfst_val);
+ ir_node *const val = get_irn_n(n, n_ia32_fst_val);
arch_register_t const *const op2 = x87_get_irn_register(val);
- DB((dbg, LEVEL_1, ">>> %+F %s ->\n", n, arch_register_get_name(op2)));
+ DB((dbg, LEVEL_1, ">>> %+F %s ->\n", n, op2->name));
+ bool do_pop = false;
int insn = NO_NODE_ADDED;
- int const op2_reg_idx = arch_register_get_index(op2);
+ int const op2_reg_idx = op2->index;
int const op2_idx = x87_on_stack(state, op2_reg_idx);
- unsigned const live = vfp_live_args_after(state->sim, n, 0);
- int const live_after_node = is_vfp_live(op2_reg_idx, live);
+ unsigned const live = fp_live_args_after(state->sim, n, 0);
+ int const live_after_node = is_fp_live(op2_reg_idx, live);
assert(op2_idx >= 0);
if (live_after_node) {
/* Problem: fst doesn't support 80bit modes (spills), only fstp does
* - stack full: fstp value and load again
* Note that we cannot test on mode_E, because floats might be 80bit ... */
ir_mode *const mode = get_ia32_ls_mode(n);
- if (get_mode_size_bits(mode) > (mode_is_int(mode) ? 32 : 64)) {
- if (x87_get_depth(state) < N_ia32_st_REGS) {
+ if (get_mode_size_bits(mode) > (mode_is_int(mode) ? 32U : 64U)) {
+ if (x87_get_depth(state) < N_FLOAT_REGS) {
/* ok, we have a free register: push + fstp */
- x87_create_fpush(state, n, op2_idx, REG_VFP_VFP_NOREG, val);
- x87_pop(state);
- x87_patch_insn(n, op_p);
+ x87_create_fpush(state, n, op2_idx, REG_FP_FP_NOREG, val);
+ do_pop = true;
} else {
/* stack full here: need fstp + load */
- x87_pop(state);
- x87_patch_insn(n, op_p);
+ do_pop = true;
ir_node *const block = get_nodes_block(n);
ir_node *const mem = get_irn_Proj_for_mode(n, mode_M);
- ir_node *const vfld = new_bd_ia32_vfld(NULL, block, get_irn_n(n, 0), get_irn_n(n, 1), mem, mode);
+ ir_node *const vfld = new_bd_ia32_fld(NULL, block, get_irn_n(n, 0), get_irn_n(n, 1), mem, mode);
/* copy all attributes */
set_ia32_frame_ent(vfld, get_ia32_frame_ent(n));
set_ia32_am_sc(vfld, get_ia32_am_sc(n));
set_ia32_ls_mode(vfld, mode);
- ir_node *const rproj = new_r_Proj(vfld, mode, pn_ia32_vfld_res);
- ir_node *const mproj = new_r_Proj(vfld, mode_M, pn_ia32_vfld_M);
+ ir_node *const rproj = new_r_Proj(vfld, mode, pn_ia32_fld_res);
+ ir_node *const mproj = new_r_Proj(vfld, mode_M, pn_ia32_fld_M);
arch_set_irn_register(rproj, op2);
/* we can only store the tos to memory */
if (op2_idx != 0)
x87_create_fxch(state, n, op2_idx);
-
- /* mode size 64 or smaller -> use normal fst */
- x87_patch_insn(n, op);
}
} else {
/* we can only store the tos to memory */
if (op2_idx != 0)
x87_create_fxch(state, n, op2_idx);
- x87_pop(state);
- x87_patch_insn(n, op_p);
+ do_pop = true;
}
+ if (do_pop)
+ x87_pop(state);
+
ia32_x87_attr_t *const attr = get_ia32_x87_attr(n);
- attr->x87[1] = get_st_reg(0);
- DB((dbg, LEVEL_1, "<<< %s %s ->\n", get_irn_opname(n), arch_register_get_name(attr->x87[1])));
+ attr->pop = do_pop;
+ DB((dbg, LEVEL_1, "<<< %s %s ->\n", get_irn_opname(n), get_st_reg(0)->name));
return insn;
}
-#define GEN_BINOP(op) \
-static int sim_##op(x87_state *state, ir_node *n) { \
- return sim_binop(state, n, op_ia32_##op, op_ia32_##op##p); \
-}
-
-#define GEN_LOAD(op) \
-static int sim_##op(x87_state *state, ir_node *n) { \
- return sim_load(state, n, op_ia32_##op, pn_ia32_v##op##_res); \
-}
-
-#define GEN_UNOP(op) \
-static int sim_##op(x87_state *state, ir_node *n) { \
- return sim_unop(state, n, op_ia32_##op); \
-}
-
-#define GEN_STORE(op) \
-static int sim_##op(x87_state *state, ir_node *n) { \
- return sim_store(state, n, op_ia32_##op, op_ia32_##op##p); \
-}
-
-/* all stubs */
-GEN_BINOP(fadd)
-GEN_BINOP(fsub)
-GEN_BINOP(fmul)
-GEN_BINOP(fdiv)
-
-GEN_UNOP(fabs)
-GEN_UNOP(fchs)
-
-GEN_LOAD(fld)
-GEN_LOAD(fild)
-GEN_LOAD(fldz)
-GEN_LOAD(fld1)
-
-GEN_STORE(fst)
-GEN_STORE(fist)
-
static int sim_fprem(x87_state *const state, ir_node *const n)
{
(void)state;
(void)n;
panic("TODO implement");
- return NO_NODE_ADDED;
}
/**
*/
static int sim_fisttp(x87_state *state, ir_node *n)
{
- ir_node *val = get_irn_n(n, n_ia32_vfst_val);
+ ir_node *val = get_irn_n(n, n_ia32_fst_val);
const arch_register_t *op2 = x87_get_irn_register(val);
- ia32_x87_attr_t *attr;
- int op2_reg_idx, op2_idx;
- op2_reg_idx = arch_register_get_index(op2);
- op2_idx = x87_on_stack(state, op2_reg_idx);
- DB((dbg, LEVEL_1, ">>> %+F %s ->\n", n, arch_register_get_name(op2)));
+ int const op2_idx = x87_on_stack(state, op2->index);
+ DB((dbg, LEVEL_1, ">>> %+F %s ->\n", n, op2->name));
assert(op2_idx >= 0);
/* Note: although the value is still live here, it is destroyed because
x87_create_fxch(state, n, op2_idx);
x87_pop(state);
- x87_patch_insn(n, op_ia32_fisttp);
- attr = get_ia32_x87_attr(n);
- attr->x87[1] = op2 = get_st_reg(0);
- DB((dbg, LEVEL_1, "<<< %s %s ->\n", get_irn_opname(n), arch_register_get_name(op2)));
+ DB((dbg, LEVEL_1, "<<< %s %s ->\n", get_irn_opname(n), get_st_reg(0)->name));
return NO_NODE_ADDED;
}
static int sim_FtstFnstsw(x87_state *state, ir_node *n)
{
x87_simulator *sim = state->sim;
- ia32_x87_attr_t *attr = get_ia32_x87_attr(n);
- ir_node *op1_node = get_irn_n(n, n_ia32_vFtstFnstsw_left);
+ ir_node *op1_node = get_irn_n(n, n_ia32_FtstFnstsw_left);
const arch_register_t *reg1 = x87_get_irn_register(op1_node);
- int reg_index_1 = arch_register_get_index(reg1);
+ int reg_index_1 = reg1->index;
int op1_idx = x87_on_stack(state, reg_index_1);
- unsigned live = vfp_live_args_after(sim, n, 0);
+ unsigned live = fp_live_args_after(sim, n, 0);
- DB((dbg, LEVEL_1, ">>> %+F %s\n", n, arch_register_get_name(reg1)));
- DEBUG_ONLY(vfp_dump_live(live);)
+ DB((dbg, LEVEL_1, ">>> %+F %s\n", n, reg1->name));
+ DEBUG_ONLY(fp_dump_live(live);)
DB((dbg, LEVEL_1, "Stack before: "));
DEBUG_ONLY(x87_dump_stack(state);)
assert(op1_idx >= 0);
if (op1_idx != 0) {
/* bring the value to tos */
x87_create_fxch(state, n, op1_idx);
- op1_idx = 0;
}
- /* patch the operation */
- x87_patch_insn(n, op_ia32_FtstFnstsw);
- reg1 = get_st_reg(op1_idx);
- attr->x87[0] = reg1;
- attr->x87[1] = NULL;
- attr->x87[2] = NULL;
-
- if (!is_vfp_live(reg_index_1, live))
- x87_create_fpop(state, sched_next(n), 1);
+ if (!is_fp_live(reg_index_1, live))
+ x87_create_fpop(state, sched_next(n), 0);
return NO_NODE_ADDED;
}
*/
static int sim_Fucom(x87_state *state, ir_node *n)
{
- int op1_idx;
- int op2_idx = -1;
- ia32_x87_attr_t *attr = get_ia32_x87_attr(n);
- ir_op *dst;
- x87_simulator *sim = state->sim;
- ir_node *op1_node = get_irn_n(n, n_ia32_vFucomFnstsw_left);
- ir_node *op2_node = get_irn_n(n, n_ia32_vFucomFnstsw_right);
- const arch_register_t *op1 = x87_get_irn_register(op1_node);
- const arch_register_t *op2 = x87_get_irn_register(op2_node);
- int reg_index_1 = arch_register_get_index(op1);
- int reg_index_2 = arch_register_get_index(op2);
- unsigned live = vfp_live_args_after(sim, n, 0);
- bool permuted = attr->attr.data.ins_permuted;
- bool xchg = false;
- int pops = 0;
-
- DB((dbg, LEVEL_1, ">>> %+F %s, %s\n", n,
- arch_register_get_name(op1), arch_register_get_name(op2)));
- DEBUG_ONLY(vfp_dump_live(live);)
+ ia32_x87_attr_t *attr = get_ia32_x87_attr(n);
+ x87_simulator *sim = state->sim;
+ ir_node *op1_node = get_irn_n(n, n_ia32_FucomFnstsw_left);
+ ir_node *op2_node = get_irn_n(n, n_ia32_FucomFnstsw_right);
+ const arch_register_t *op1 = x87_get_irn_register(op1_node);
+ const arch_register_t *op2 = x87_get_irn_register(op2_node);
+ int reg_index_1 = op1->index;
+ int reg_index_2 = op2->index;
+ unsigned live = fp_live_args_after(sim, n, 0);
+
+ DB((dbg, LEVEL_1, ">>> %+F %s, %s\n", n, op1->name, op2->name));
+ DEBUG_ONLY(fp_dump_live(live);)
DB((dbg, LEVEL_1, "Stack before: "));
DEBUG_ONLY(x87_dump_stack(state);)
- op1_idx = x87_on_stack(state, reg_index_1);
+ int op1_idx = x87_on_stack(state, reg_index_1);
assert(op1_idx >= 0);
+ int op2_idx;
+ int pops = 0;
/* BEWARE: check for comp a,a cases, they might happen */
- if (reg_index_2 != REG_VFP_VFP_NOREG) {
- /* second operand is a vfp register */
+ if (reg_index_2 != REG_FP_FP_NOREG) {
+ /* second operand is a fp register */
op2_idx = x87_on_stack(state, reg_index_2);
assert(op2_idx >= 0);
- if (is_vfp_live(reg_index_2, live)) {
+ if (is_fp_live(reg_index_2, live)) {
/* second operand is live */
- if (is_vfp_live(reg_index_1, live)) {
+ if (is_fp_live(reg_index_1, live)) {
/* both operands are live */
-
- if (op1_idx == 0) {
- /* res = tos X op */
- } else if (op2_idx == 0) {
- /* res = op X tos */
- permuted = !permuted;
- xchg = true;
- } else {
+ if (op1_idx != 0 && op2_idx != 0) {
/* bring the first one to tos */
x87_create_fxch(state, n, op1_idx);
- if (op1_idx == op2_idx) {
+ if (op1_idx == op2_idx)
op2_idx = 0;
- } else if (op2_idx == 0) {
- op2_idx = op1_idx;
- }
op1_idx = 0;
/* res = tos X op */
}
}
} else {
/* second operand is dead */
- if (is_vfp_live(reg_index_1, live)) {
+ if (is_fp_live(reg_index_1, live)) {
/* first operand is live: bring second to tos.
This means further, op1_idx != op2_idx. */
assert(op1_idx != op2_idx);
op2_idx = 0;
}
/* res = op X tos, pop */
- pops = 1;
- permuted = !permuted;
- xchg = true;
+ pops = 1;
} else {
/* both operands are dead here, check first for identity. */
if (op1_idx == op2_idx) {
}
/* res = tos X op, pop */
pops = 1;
- }
- /* different, move them to st and st(1) and pop both.
- The tricky part is to get one into st(1).*/
- else if (op2_idx == 1) {
- /* good, second operand is already in the right place, move the first */
- if (op1_idx != 0) {
- /* bring the first on top */
- x87_create_fxch(state, n, op1_idx);
- assert(op2_idx != 0);
- op1_idx = 0;
- }
- /* res = tos X op, pop, pop */
- pops = 2;
- } else if (op1_idx == 1) {
- /* good, first operand is already in the right place, move the second */
- if (op2_idx != 0) {
- /* bring the first on top */
- x87_create_fxch(state, n, op2_idx);
- assert(op1_idx != 0);
- op2_idx = 0;
- }
- /* res = op X tos, pop, pop */
- permuted = !permuted;
- xchg = true;
- pops = 2;
} else {
- /* if one is already the TOS, we need two fxch */
- if (op1_idx == 0) {
- /* first one is TOS, move to st(1) */
- x87_create_fxch(state, n, 1);
- assert(op2_idx != 1);
- op1_idx = 1;
- x87_create_fxch(state, n, op2_idx);
- op2_idx = 0;
- /* res = op X tos, pop, pop */
- pops = 2;
- permuted = !permuted;
- xchg = true;
- } else if (op2_idx == 0) {
- /* second one is TOS, move to st(1) */
- x87_create_fxch(state, n, 1);
- assert(op1_idx != 1);
- op2_idx = 1;
- x87_create_fxch(state, n, op1_idx);
- op1_idx = 0;
- /* res = tos X op, pop, pop */
- pops = 2;
- } else {
- /* none of them is either TOS or st(1), 3 fxch needed */
- x87_create_fxch(state, n, op2_idx);
- assert(op1_idx != 0);
- x87_create_fxch(state, n, 1);
- op2_idx = 1;
- x87_create_fxch(state, n, op1_idx);
- op1_idx = 0;
- /* res = tos X op, pop, pop */
- pops = 2;
+ if (op1_idx != 0 && op2_idx != 0) {
+ /* Both not at tos: Move one operand to tos. Move the one not at
+ * pos 1, so we get a chance to use fucompp. */
+ if (op1_idx != 1) {
+ x87_create_fxch(state, n, op1_idx);
+ op1_idx = 0;
+ } else {
+ x87_create_fxch(state, n, op2_idx);
+ op2_idx = 0;
+ }
}
+ pops = 2;
}
}
}
} else {
/* second operand is an address mode */
- if (is_vfp_live(reg_index_1, live)) {
- /* first operand is live: bring it to TOS */
- if (op1_idx != 0) {
- x87_create_fxch(state, n, op1_idx);
- op1_idx = 0;
- }
- } else {
- /* first operand is dead: bring it to tos */
- if (op1_idx != 0) {
- x87_create_fxch(state, n, op1_idx);
- op1_idx = 0;
- }
+ if (op1_idx != 0)
+ x87_create_fxch(state, n, op1_idx);
+ /* Pop first operand, if it is dead. */
+ if (!is_fp_live(reg_index_1, live))
pops = 1;
- }
+
+ op1_idx = attr->attr.data.ins_permuted ? -1 : 0;
+ op2_idx = attr->attr.data.ins_permuted ? 0 : -1;
}
+ assert(op1_idx == 0 || op2_idx == 0);
/* patch the operation */
- if (is_ia32_vFucomFnstsw(n)) {
- int i;
-
- switch (pops) {
- case 0: dst = op_ia32_FucomFnstsw; break;
- case 1: dst = op_ia32_FucompFnstsw; break;
- case 2: dst = op_ia32_FucomppFnstsw; break;
- default: panic("invalid popcount");
- }
-
- for (i = 0; i < pops; ++i) {
- x87_pop(state);
- }
- } else if (is_ia32_vFucomi(n)) {
- switch (pops) {
- case 0: dst = op_ia32_Fucomi; break;
- case 1: dst = op_ia32_Fucompi; x87_pop(state); break;
- case 2:
- dst = op_ia32_Fucompi;
+ if (is_ia32_FucomFnstsw(n) && pops == 2
+ && (op1_idx == 1 || op2_idx == 1)) {
+ set_irn_op(n, op_ia32_FucomppFnstsw);
+ x87_pop(state);
+ x87_pop(state);
+ } else {
+ if (pops != 0)
x87_pop(state);
- x87_create_fpop(state, sched_next(n), 1);
- break;
- default: panic("invalid popcount");
+ if (pops == 2) {
+ int const idx = (op1_idx != 0 ? op1_idx : op2_idx) - 1 /* Due to prior pop. */;
+ x87_create_fpop(state, sched_next(n), idx);
}
- } else {
- panic("invalid operation %+F", n);
- }
-
- x87_patch_insn(n, dst);
- if (xchg) {
- int tmp = op1_idx;
- op1_idx = op2_idx;
- op2_idx = tmp;
}
- op1 = get_st_reg(op1_idx);
- attr->x87[0] = op1;
- if (op2_idx >= 0) {
- op2 = get_st_reg(op2_idx);
- attr->x87[1] = op2;
- }
- attr->x87[2] = NULL;
- attr->attr.data.ins_permuted = permuted;
+ int const reg_idx = op1_idx != 0 ? op1_idx : op2_idx;
+ attr->reg = reg_idx >= 0 ? get_st_reg(reg_idx) : NULL;
+ attr->attr.data.ins_permuted = op1_idx != 0;
+ attr->pop = pops != 0;
- if (op2_idx >= 0) {
- DB((dbg, LEVEL_1, "<<< %s %s, %s\n", get_irn_opname(n),
- arch_register_get_name(op1), arch_register_get_name(op2)));
- } else {
- DB((dbg, LEVEL_1, "<<< %s %s, [AM]\n", get_irn_opname(n),
- arch_register_get_name(op1)));
- }
+ DEBUG_ONLY(
+ char const *const l = op1_idx >= 0 ? get_st_reg(op1_idx)->name : "[AM]";
+ char const *const r = op2_idx >= 0 ? get_st_reg(op2_idx)->name : "[AM]";
+ DB((dbg, LEVEL_1, "<<< %s %s, %s\n", get_irn_opname(n), l, r));
+ )
return NO_NODE_ADDED;
}
for (i = 0; i < arity; ++i) {
op = get_irn_n(node, i);
op_reg = arch_get_irn_register(op);
- if (arch_register_get_class(op_reg) != &ia32_reg_classes[CLASS_ia32_vfp])
+ if (op_reg->reg_class != &ia32_reg_classes[CLASS_ia32_fp])
continue;
- reg_id = arch_register_get_index(op_reg);
- live = vfp_live_args_after(state->sim, node, 0);
+ reg_id = op_reg->index;
+ live = fp_live_args_after(state->sim, node, 0);
op_stack_idx = x87_on_stack(state, reg_id);
- if (op_stack_idx >= 0 && !is_vfp_live(reg_id, live))
- x87_create_fpop(state, sched_next(node), 1);
+ if (op_stack_idx >= 0 && !is_fp_live(reg_id, live))
+ x87_create_fpop(state, sched_next(node), 0);
}
DB((dbg, LEVEL_1, "Stack after: "));
ir_mode *mode = get_irn_mode(n);
ir_node *block = get_nodes_block(n);
ir_node *pred = get_irn_n(n, 0);
- ir_node *(*cnstr)(dbg_info *, ir_node *, ir_mode *) = NULL;
+ ir_node *(*cnstr)(dbg_info *, ir_node *) = NULL;
ir_node *res;
const arch_register_t *out;
const arch_register_t *op1;
- ia32_x87_attr_t *attr;
/* Do not copy constants, recreate them. */
switch (get_ia32_irn_opcode(pred)) {
if (cnstr != NULL) {
/* copy a constant */
- res = (*cnstr)(n_dbg, block, mode);
+ res = (*cnstr)(n_dbg, block);
- x87_push(state, arch_register_get_index(out), res);
-
- attr = get_ia32_x87_attr(res);
- attr->x87[2] = get_st_reg(0);
+ x87_push(state, out->index, res);
} else {
- int op1_idx = x87_on_stack(state, arch_register_get_index(op1));
+ int op1_idx = x87_on_stack(state, op1->index);
res = new_bd_ia32_fpushCopy(n_dbg, block, pred, mode);
- x87_push(state, arch_register_get_index(out), res);
+ x87_push(state, out->index, res);
- attr = get_ia32_x87_attr(res);
- attr->x87[0] = get_st_reg(op1_idx);
- attr->x87[2] = get_st_reg(0);
+ ia32_x87_attr_t *const attr = get_ia32_x87_attr(res);
+ attr->reg = get_st_reg(op1_idx);
}
arch_set_irn_register(res, out);
static int sim_Copy(x87_state *state, ir_node *n)
{
arch_register_class_t const *const cls = arch_get_irn_reg_class(n);
- if (cls != &ia32_reg_classes[CLASS_ia32_vfp])
+ if (cls != &ia32_reg_classes[CLASS_ia32_fp])
return NO_NODE_ADDED;
ir_node *const pred = be_get_Copy_op(n);
arch_register_t const *const op1 = x87_get_irn_register(pred);
arch_register_t const *const out = x87_get_irn_register(n);
- unsigned const live = vfp_live_args_after(state->sim, n, REGMASK(out));
+ unsigned const live = fp_live_args_after(state->sim, n, REGMASK(out));
- DB((dbg, LEVEL_1, ">>> %+F %s -> %s\n", n,
- arch_register_get_name(op1), arch_register_get_name(out)));
- DEBUG_ONLY(vfp_dump_live(live);)
+ DB((dbg, LEVEL_1, ">>> %+F %s -> %s\n", n, op1->name, out->name));
+ DEBUG_ONLY(fp_dump_live(live);)
- if (is_vfp_live(arch_register_get_index(op1), live)) {
+ if (is_fp_live(op1->index, live)) {
/* Operand is still live, a real copy. We need here an fpush that can
hold a a register, so use the fpushCopy or recreate constants */
ir_node *const node = create_Copy(state, n);
* instruction, but we would have to rerun all the simulation to get
* this correct...
*/
- ir_node *const next = sched_next(n);
- sched_remove(n);
+ sched_replace(n, node);
exchange(n, node);
- sched_add_before(next, node);
if (get_irn_n_edges(pred) == 0) {
keep_float_node_alive(pred);
DB((dbg, LEVEL_1, "<<< %+F %s -> ?\n", node, op1->name));
} else {
/* Just a virtual copy. */
- int const op1_idx = x87_on_stack(state, arch_register_get_index(op1));
- x87_set_st(state, arch_register_get_index(out), n, op1_idx);
+ int const op1_idx = x87_on_stack(state, op1->index);
+ x87_set_st(state, out->index, n, op1_idx);
}
return NO_NODE_ADDED;
}
ir_node *proj = get_edge_src_irn(edge);
long pn = get_Proj_proj(proj);
- if (pn == pn_ia32_Call_vf0)
+ if (pn == pn_ia32_Call_st0)
return proj;
}
{
(void)state;
- for (size_t i = get_irn_arity(n); i-- != 0;) {
- arch_register_req_t const *const req = arch_get_irn_register_req_in(n, i);
- if (req->cls == &ia32_reg_classes[CLASS_ia32_vfp])
- panic("cannot handle %+F with x87 constraints", n);
- }
+ be_foreach_use(n, &ia32_reg_classes[CLASS_ia32_fp], in_req, value, value_req,
+ panic("cannot handle %+F with x87 constraints", n);
+ );
- for (size_t i = arch_get_irn_n_outs(n); i-- != 0;) {
+ be_foreach_out(n, i) {
arch_register_req_t const *const req = arch_get_irn_register_req_out(n, i);
- if (req->cls == &ia32_reg_classes[CLASS_ia32_vfp])
+ if (req->cls == &ia32_reg_classes[CLASS_ia32_fp])
panic("cannot handle %+F with x87 constraints", n);
}
if (mode && mode_is_float(mode)) {
ir_node *const resproj = get_call_result_proj(n);
arch_register_t const *const reg = x87_get_irn_register(resproj);
- x87_push(state, arch_register_get_index(reg), resproj);
+ x87_push(state, reg->index, resproj);
}
}
DB((dbg, LEVEL_1, "Stack after: "));
/* collect old stack positions */
for (i = 0; i < n; ++i) {
const arch_register_t *inreg = x87_get_irn_register(get_irn_n(irn, i));
- int idx = x87_on_stack(state, arch_register_get_index(inreg));
+ int idx = x87_on_stack(state, inreg->index);
assert(idx >= 0 && "Perm argument not on x87 stack");
long num = get_Proj_proj(proj);
assert(0 <= num && num < n && "More Proj's than Perm inputs");
- x87_set_st(state, arch_register_get_index(out), proj, stack_pos[(unsigned)num]);
+ x87_set_st(state, out->index, proj, stack_pos[(unsigned)num]);
}
DB((dbg, LEVEL_1, "<<< %+F\n", irn));
{
ir_node *first_insn = sched_first(block);
ir_node *keep = NULL;
- unsigned live = vfp_live_args_after(sim, block, 0);
+ unsigned live = fp_live_args_after(sim, block, 0);
unsigned kill_mask;
- int i, depth, num_pop;
+ int i, depth;
kill_mask = 0;
depth = x87_get_depth(state);
for (i = depth - 1; i >= 0; --i) {
int reg = x87_get_st_reg(state, i);
- if (! is_vfp_live(reg, live))
+ if (! is_fp_live(reg, live))
kill_mask |= (1 << i);
}
if (kill_mask) {
DB((dbg, LEVEL_1, "Killing deads:\n"));
- DEBUG_ONLY(vfp_dump_live(live);)
+ DEBUG_ONLY(fp_dump_live(live);)
DEBUG_ONLY(x87_dump_stack(state);)
if (kill_mask != 0 && live == 0) {
x87_create_fxch(state, first_insn, i);
}
- if ((kill_mask & 3) == 3) {
- /* we can do a double-pop */
- num_pop = 2;
- }
- else {
- /* only a single pop */
- num_pop = 1;
- }
-
- depth -= num_pop;
- kill_mask >>= num_pop;
- keep = x87_create_fpop(state, first_insn, num_pop);
+ depth -= 1;
+ kill_mask >>= 1;
+ keep = x87_create_fpop(state, first_insn, 0);
}
keep_alive(keep);
}
obstack_init(&sim->obst);
sim->blk_states = pmap_create();
sim->n_idx = get_irg_last_idx(irg);
- sim->live = OALLOCN(&sim->obst, vfp_liveness, sim->n_idx);
+ sim->live = OALLOCN(&sim->obst, fp_liveness, sim->n_idx);
DB((dbg, LEVEL_1, "--------------------------------\n"
"x87 Simulator started for %+F\n", irg));
register_sim(op_ia32_Asm, sim_Asm);
register_sim(op_ia32_Call, sim_Call);
- register_sim(op_ia32_vfld, sim_fld);
- register_sim(op_ia32_vfild, sim_fild);
- register_sim(op_ia32_vfld1, sim_fld1);
- register_sim(op_ia32_vfldz, sim_fldz);
- register_sim(op_ia32_vfadd, sim_fadd);
- register_sim(op_ia32_vfsub, sim_fsub);
- register_sim(op_ia32_vfmul, sim_fmul);
- register_sim(op_ia32_vfdiv, sim_fdiv);
- register_sim(op_ia32_vfprem, sim_fprem);
- register_sim(op_ia32_vfabs, sim_fabs);
- register_sim(op_ia32_vfchs, sim_fchs);
- register_sim(op_ia32_vfist, sim_fist);
- register_sim(op_ia32_vfisttp, sim_fisttp);
- register_sim(op_ia32_vfst, sim_fst);
- register_sim(op_ia32_vFtstFnstsw, sim_FtstFnstsw);
- register_sim(op_ia32_vFucomFnstsw, sim_Fucom);
- register_sim(op_ia32_vFucomi, sim_Fucom);
+ register_sim(op_ia32_fld, sim_load);
+ register_sim(op_ia32_fild, sim_load);
+ register_sim(op_ia32_fld1, sim_load);
+ register_sim(op_ia32_fldz, sim_load);
+ register_sim(op_ia32_fadd, sim_binop);
+ register_sim(op_ia32_fsub, sim_binop);
+ register_sim(op_ia32_fmul, sim_binop);
+ register_sim(op_ia32_fdiv, sim_binop);
+ register_sim(op_ia32_fprem, sim_fprem);
+ register_sim(op_ia32_fabs, sim_unop);
+ register_sim(op_ia32_fchs, sim_unop);
+ register_sim(op_ia32_fist, sim_store);
+ register_sim(op_ia32_fisttp, sim_fisttp);
+ register_sim(op_ia32_fst, sim_store);
+ register_sim(op_ia32_FtstFnstsw, sim_FtstFnstsw);
+ register_sim(op_ia32_FucomFnstsw, sim_Fucom);
+ register_sim(op_ia32_Fucomi, sim_Fucom);
register_sim(op_be_Copy, sim_Copy);
register_sim(op_be_Return, sim_Return);
register_sim(op_be_Perm, sim_Perm);