#include "config.h"
#endif
+#ifdef HAVE_MALLOC_H
+#include <malloc.h>
+#endif
+
+#ifdef HAVE_ALLOCA_H
+#include <alloca.h>
+#endif
+
#include <ctype.h>
#include "obst.h"
#include "list.h"
#include "bitset.h"
#include "iterator.h"
+#include "bipartite.h"
#include "irmode_t.h"
#include "irgraph_t.h"
#include "benumb_t.h"
#include "besched_t.h"
#include "belive_t.h"
+#include "benode_t.h"
#include "bearch.h"
+#include "beifg.h"
#include "bechordal_t.h"
#include "bechordal_draw.h"
+#define DBG_LEVEL SET_LEVEL_0
+#define DBG_LEVEL_CHECK SET_LEVEL_0
+
#define NO_COLOR (-1)
-#undef DUMP_INTERVALS
-#undef DUMP_PRESSURE
-#undef DUMP_IFG
+#define DUMP_INTERVALS
-#if defined(DUMP_IFG) && !defined(BUILD_GRAPH)
-#error Must define BUILD_GRAPH to be able to dump it.
-#endif
+typedef struct _be_chordal_alloc_env_t {
+ be_chordal_env_t *chordal_env;
+ pset *pre_colored; /**< Set of precolored nodes. */
+ bitset_t *live; /**< A liveness bitset. */
+ bitset_t *colors; /**< The color mask. */
+ bitset_t *in_colors; /**< Colors used by live in values. */
+ int colors_n; /**< The number of colors. */
+} be_chordal_alloc_env_t;
-#ifdef DEBUG_libfirm
#include "fourcc.h"
/* Make a fourcc for border checking. */
#define BORDER_FOURCC FOURCC('B', 'O', 'R', 'D')
-#endif /* DEBUG_libfirm */
-
-static firm_dbg_module_t *dbg;
-
-#ifdef BUILD_GRAPH
-
-#define IF_EDGE_HASH(e) ((e)->src)
-#define IF_NODE_HASH(n) ((n)->nnr)
-
-static int if_edge_cmp(const void *p1, const void *p2, size_t size)
-{
- const if_edge_t *e1 = p1;
- const if_edge_t *e2 = p2;
-
- return !(e1->src == e2->src && e1->tgt == e2->tgt);
-}
-
-static int if_node_cmp(const void *p1, const void *p2, size_t size)
-{
- const if_node_t *n1 = p1;
- const if_node_t *n2 = p2;
-
- return n1->nnr != n2->nnr;
-}
-
-static INLINE if_edge_t *edge_init(if_edge_t *edge, int src, int tgt)
-{
- /* Bring the smaller entry to src. */
- if(src > tgt) {
- edge->src = tgt;
- edge->tgt = src;
- } else {
- edge->src = src;
- edge->tgt = tgt;
- }
-
- return edge;
-}
-
-static INLINE void add_if(const be_chordal_env_t *env, int src, int tgt)
+static void check_border_list(struct list_head *head)
{
- if_edge_t edge;
- if_node_t node, *src_node, *tgt_node;
- /* insert edge */
- edge_init(&edge, src, tgt);
- set_insert(env->edges, &edge, sizeof(edge), IF_EDGE_HASH(&edge));
-
- /* insert nodes */
- node.nnr = src;
- node.neighb = pset_new_ptr(8);
- src_node = set_insert(env->nodes, &node, sizeof(node), IF_NODE_HASH(&node));
- node.nnr = tgt;
- node.neighb = pset_new_ptr(8);
- tgt_node = set_insert(env->nodes, &node, sizeof(node), IF_NODE_HASH(&node));
-
- /* insert neighbors into nodes */
- pset_insert_ptr(src_node->neighb, tgt_node);
- pset_insert_ptr(tgt_node->neighb, src_node);
+ border_t *x;
+ list_for_each_entry(border_t, x, head, list) {
+ assert(x->magic == BORDER_FOURCC);
+ }
}
-static INLINE int are_connected(const be_chordal_env_t *env, int src, int tgt)
+static void check_heads(be_chordal_env_t *env)
{
- if_edge_t edge;
- edge_init(&edge, src, tgt);
- return set_find(env->edges, &edge, sizeof(edge), IF_EDGE_HASH(&edge)) != NULL;
-}
-
-int ifg_has_edge(const be_chordal_env_t *env, const if_node_t *n1, const if_node_t* n2) {
- return are_connected(env, n1->nnr, n2->nnr);
-}
-
-#ifdef DUMP_IFG
-
-static void dump_ifg(const be_chordal_env_t *env)
-{
- FILE *f;
- set *edges = env->edges;
- ir_graph *irg = env->irg;
- char filename[128];
-
- ir_snprintf(filename, sizeof(filename), "ifg_%s_%F.dot", env->cls->name, irg);
-
- if((f = fopen(filename, "wt")) != NULL) {
- bitset_pos_t pos;
- int n_edges = 0;
- if_edge_t *edge;
- bitset_t *bs = bitset_malloc(get_graph_node_count(irg));
-
- ir_fprintf(f, "graph \"%F\" {\n", irg);
- fprintf(f, "\tnode [shape=box,style=filled]\n");
-
- for(edge = set_first(edges); edge; edge = set_next(edges)) {
- bitset_set(bs, edge->src);
- bitset_set(bs, edge->tgt);
- n_edges++;
- }
-
- fprintf(f, "\tx [label=\"nodes: %u, edges: %d\"]\n", bitset_popcnt(bs), n_edges);
-
- bitset_foreach(bs, pos) {
- int nr = (int) pos;
- ir_node *irn = get_irn_for_graph_nr(irg, nr);
-
- ir_fprintf(f, "\tn%d [label=\"%+F\"]\n", nr, irn);
- }
-
- for(edge = set_first(edges); edge; edge = set_next(edges)) {
- fprintf(f, "\tn%d -- n%d [len=5]\n", edge->src, edge->tgt);
- }
-
- fprintf(f, "}\n");
- fclose(f);
-
- bitset_free(bs);
- }
-
+ pmap_entry *ent;
+ for(ent = pmap_first(env->border_heads); ent; ent = pmap_next(env->border_heads)) {
+ /* ir_printf("checking border list of block %+F\n", ent->key); */
+ check_border_list(ent->value);
+ }
}
-#endif /* DUMP_IFG */
-
-#endif /* BUILD_GRAPH */
-
/**
* Add an interval border to the list of a block's list
/* also allocate the def and tie it to the use. */
def = obstack_alloc(&env->obst, sizeof(*def));
+ memset(def, 0, sizeof(*def));
b->other_end = def;
def->other_end = b;
*/
set_irn_link(irn, def);
-#ifdef DEBUG_libfirm
b->magic = BORDER_FOURCC;
def->magic = BORDER_FOURCC;
-#endif
}
/*
else {
b = get_irn_link(irn);
-#ifdef DEBUG_libfirm
assert(b && b->magic == BORDER_FOURCC && "Illegal border encountered");
-#endif
}
b->pressure = pressure;
b->irn = irn;
b->step = step;
list_add_tail(&b->list, head);
- DBG((dbg, LEVEL_5, "\t\t%s adding %+F, step: %d\n",
- is_def ? "def" : "use", irn, step));
+ DBG((env->dbg, LEVEL_5, "\t\t%s adding %+F, step: %d\n", is_def ? "def" : "use", irn, step));
+
return b;
}
+/**
+ * Check, if an irn is of the register class currently under processing.
+ * @param env The chordal environment.
+ * @param irn The node.
+ * @return 1, if the node is of that register class, 0 if not.
+ */
+static INLINE int has_reg_class(const be_chordal_env_t *env, const ir_node *irn)
+{
+ // return arch_irn_has_reg_class(env->main_env->arch_env, irn, -1, env->cls);
+ return arch_irn_consider_in_reg_alloc(env->birg->main_env->arch_env, env->cls, irn);
+}
+
+#define has_limited_constr(req, irn) \
+ (arch_get_register_req(arch_env, (req), irn, -1) && (req)->type == arch_register_req_type_limited)
+
+typedef struct _operand_t operand_t;
+
+struct _operand_t {
+ ir_node *irn;
+ ir_node *carrier;
+ operand_t *partner;
+ int pos;
+ arch_register_req_t req;
+};
+
+typedef struct {
+ operand_t *ops;
+ int n_ops;
+ int use_start;
+ ir_node *next_insn;
+ unsigned in_constraints : 1;
+ unsigned out_constraints : 1;
+ unsigned has_constraints : 1;
+ unsigned pre_colored : 1;
+} insn_t;
+
+static insn_t *scan_insn(be_chordal_env_t *env, ir_node *irn, struct obstack *obst)
+{
+ const arch_env_t *arch_env = env->birg->main_env->arch_env;
+ operand_t o;
+ insn_t *insn;
+ int i, n;
+ int pre_colored = 0;
+
+ insn = obstack_alloc(obst, sizeof(insn[0]));
+ memset(insn, 0, sizeof(insn[0]));
+
+ insn->next_insn = sched_next(irn);
+ if(get_irn_mode(irn) == mode_T) {
+ ir_node *p;
+
+ for(p = sched_next(irn); is_Proj(p); p = sched_next(p)) {
+ if(arch_irn_consider_in_reg_alloc(arch_env, env->cls, p)) {
+ o.carrier = p;
+ o.irn = irn;
+ o.pos = -(get_Proj_proj(p) + 1);
+ o.partner = NULL;
+ arch_get_register_req(arch_env, &o.req, p, -1);
+ obstack_grow(obst, &o, sizeof(o));
+ insn->n_ops++;
+ insn->out_constraints |= arch_register_req_is(&o.req, limited);
+ pre_colored += arch_get_irn_register(arch_env, p) != NULL;
+ }
+ }
+
+ insn->next_insn = p;
+ }
+
+ else if(arch_irn_consider_in_reg_alloc(arch_env, env->cls, irn)) {
+ o.carrier = irn;
+ o.irn = irn;
+ o.pos = -1;
+ o.partner = NULL;
+ arch_get_register_req(arch_env, &o.req, irn, -1);
+ obstack_grow(obst, &o, sizeof(o));
+ insn->n_ops++;
+ insn->out_constraints |= arch_register_req_is(&o.req, limited);
+ pre_colored += arch_get_irn_register(arch_env, irn) != NULL;
+ }
+
+ insn->pre_colored = pre_colored == insn->n_ops;
+ insn->use_start = insn->n_ops;
+
+ for(i = 0, n = get_irn_arity(irn); i < n; ++i) {
+ ir_node *op = get_irn_n(irn, i);
+
+ if(arch_irn_consider_in_reg_alloc(arch_env, env->cls, op)) {
+ o.carrier = op;
+ o.irn = irn;
+ o.pos = i;
+ o.partner = NULL;
+ arch_get_register_req(arch_env, &o.req, irn, i);
+ obstack_grow(obst, &o, sizeof(o));
+ insn->n_ops++;
+ insn->in_constraints |= arch_register_req_is(&o.req, limited);
+ }
+ }
+
+ insn->has_constraints = insn->in_constraints | insn->out_constraints;
+ insn->ops = obstack_finish(obst);
+ return insn;
+}
+
+#if 0
+static operand_t *find_unpaired_use(insn_t *insn, const operand_t *op, int can_be_constrained)
+{
+ int i;
+ operand_t *res = NULL;
+
+ for(i = insn->use_start; i < insn->n_ops; ++i) {
+ operand_t *op = &insn->ops[i];
+ int has_constraint = arch_register_req_is(&op->req, limited);
+
+ if(!values_interfere(op->carrier, op->irn) && !op->partner) {
+
+ if(!has_constraint || can_be_constrained) {
+ if(arch_register_req_is(&op->req, should_be_same) && op->req.other_same == op->carrier)
+ return op;
+ else
+ res = op;
+ }
+ }
+ }
+
+ return res;
+}
+
+static void pair_up_operands(insn_t *insn)
+{
+ firm_dbg_module_t *dbg = firm_dbg_register("firm.be.chordal.constr");
+ int i;
+
+ for(i = 0; i < insn->use_start; ++i) {
+ operand_t *op = &insn->ops[i];
+ int has_constraint = arch_register_req_is(&op->req, limited);
+ operand_t *partner = find_unpaired_use(insn, op, !has_constraint);
+
+ if(partner) {
+ op->partner = partner;
+ partner->partner = op;
+ }
+ }
+}
+#endif
+
+static void add_possible_partners(insn_t *insn, int curr, const arch_register_t *out_reg, bipartite_t *bp, int can_be_constrained)
+{
+ bitset_t *bs;
+ int i;
+
+ if(out_reg)
+ bs = bitset_alloca(out_reg->reg_class->n_regs);
+
+ for(i = insn->use_start; i < insn->n_ops; ++i) {
+ const operand_t *op = &insn->ops[i];
+
+ /*
+ The in operand can only be paired with a def, if the node defining the
+ operand's value does not interfere with the instruction itself. That
+ would mean, that it is live at the instruction, so no result of the instruction
+ can have the same register as the operand.
+
+ Furthermore, if the operand has already been paired (due to previous calls)
+ to this function, we do not touch this partnership.
+ */
+ if(!values_interfere(op->irn, op->carrier)) {
+ int has_constraint = arch_register_req_is(&op->req, limited);
+
+ if(has_constraint && out_reg && out_reg->reg_class == op->req.cls) {
+ bitset_clear_all(bs);
+ op->req.limited(op->req.limited_env, bs);
+ if(bitset_is_set(bs, out_reg->index)) {
+ bipartite_add(bp, curr, i - insn->use_start);
+ }
+ }
+
+ if(!has_constraint || can_be_constrained) {
+ bipartite_add(bp, curr, i - insn->use_start);
+#if 0
+ if(arch_register_req_is(&op->req, should_be_same) && op->req.other_same == op->carrier)
+ return;
+#endif
+ }
+ }
+ }
+}
+
+#define MAX(x, y) ((x) > (y) ? (x) : (y))
+
+static void pair_up_operands(const arch_env_t *arch_env, insn_t *insn) {
+ int i;
+ int m = MAX(insn->n_ops - insn->use_start, 1);
+ bipartite_t *bp = bipartite_new(MAX(insn->use_start, 1), m);
+ int *match = alloca(insn->use_start * sizeof(match[0]));
+
+ for(i = 0; i < insn->use_start; ++i) {
+ operand_t *op = &insn->ops[i];
+ const arch_register_t *reg = arch_get_irn_register(arch_env, op->carrier);
+ int has_constraint = arch_register_req_is(&op->req, limited);
+ add_possible_partners(insn, i, reg, bp, !has_constraint);
+ }
+
+ bipartite_matching(bp, match);
+ for(i = 0; i < insn->use_start; ++i) {
+ int p = match[i] + insn->use_start;
+
+ if(p >= insn->use_start) {
+ insn->ops[i].partner = &insn->ops[p];
+ insn->ops[p].partner = &insn->ops[i];
+ }
+ }
+
+ bipartite_free(bp);
+}
+
+static ir_node *handle_constraints(be_chordal_alloc_env_t *alloc_env, ir_node *irn)
+{
+ be_chordal_env_t *env = alloc_env->chordal_env;
+ void *base = obstack_base(&env->obst);
+ insn_t *insn = scan_insn(env, irn, &env->obst);
+ ir_node *res = insn->next_insn;
+
+
+ if(insn->pre_colored) {
+ int i;
+ for(i = 0; i < insn->use_start; ++i)
+ pset_insert_ptr(alloc_env->pre_colored, insn->ops[i].carrier);
+ }
+
+ if(be_is_Perm(irn) || be_is_RegParams(irn) || (be_is_Barrier(irn) && !insn->in_constraints))
+ goto end;
+
+ /*
+ Perms inserted before the constraint handling phase are considered to be
+ correctly precolored. These Perms arise during the ABI handling phase.
+ */
+ if(insn->has_constraints) {
+ firm_dbg_module_t *dbg = firm_dbg_register("firm.be.chordal.constr");
+ const arch_env_t *aenv = env->birg->main_env->arch_env;
+ int n_regs = env->cls->n_regs;
+ bitset_t *bs = bitset_alloca(n_regs);
+ bitset_t *non_ignore = bitset_alloca(n_regs);
+ ir_node **alloc_nodes = alloca(n_regs * sizeof(alloc_nodes[0]));
+ bipartite_t *bp = bipartite_new(n_regs, n_regs);
+ int *assignment = alloca(n_regs * sizeof(assignment[0]));
+ pmap *partners = pmap_create();
+
+ int i, n_alloc;
+ long col;
+ const ir_edge_t *edge;
+ ir_node *perm = NULL;
+
+// if(!insn->pre_colored || insn->in_constraints)
+ perm = insert_Perm_after(aenv, env->cls, env->dom_front, sched_prev(irn));
+
+ arch_put_non_ignore_regs(aenv, env->cls, non_ignore);
+
+ /* Registers are propagated by insert_Perm_after(). Clean them here! */
+ if(perm) {
+ foreach_out_edge(perm, edge) {
+ ir_node *proj = get_edge_src_irn(edge);
+ arch_set_irn_register(aenv, proj, NULL);
+ }
+ }
+
+
+ be_liveness(env->irg);
+ insn = scan_insn(env, irn, &env->obst);
+
+ DBG((dbg, LEVEL_1, "handling constraints for %+F\n", irn));
+
+ /*
+ * If there was no Perm made, nothing was alive in this register class.
+ * This means, that the node has no operands, thus no input constraints.
+ * so it had output constraints. The other results then can be assigned freely.
+ */
+
+ pair_up_operands(aenv, insn);
+
+ for(i = 0, n_alloc = 0; i < insn->n_ops; ++i) {
+ operand_t *op = &insn->ops[i];
+ if((op->partner ? !pmap_contains(partners, op->partner->carrier) : 1)
+ && arch_register_req_is(&op->req, limited)
+ && arch_irn_consider_in_reg_alloc(aenv, env->cls, op->carrier)) {
+
+ pmap_insert(partners, op->carrier, op->partner ? op->partner->carrier : NULL);
+ alloc_nodes[n_alloc] = op->carrier;
+
+ DBG((dbg, LEVEL_2, "\tassociating %+F and %+F\n", op->carrier, pmap_get(partners, op->carrier)));
+
+ bitset_clear_all(bs);
+ op->req.limited(op->req.limited_env, bs);
+ bitset_and(bs, non_ignore);
+
+ DBG((dbg, LEVEL_2, "\tallowed registers for %+F: %B\n", op->carrier, bs));
+
+ bitset_foreach(bs, col)
+ bipartite_add(bp, n_alloc, col);
+
+ n_alloc++;
+ }
+ }
+
+ if(perm) {
+
+ foreach_out_edge(perm, edge) {
+ ir_node *proj = get_edge_src_irn(edge);
+
+ assert(is_Proj(proj));
+
+ if(values_interfere(proj, irn)) {
+ assert(n_alloc < n_regs);
+ alloc_nodes[n_alloc] = proj;
+ pmap_insert(partners, proj, NULL);
+
+ bitset_clear_all(bs);
+ arch_get_allocatable_regs(aenv, proj, -1, bs);
+ bitset_and(bs, non_ignore);
+ bitset_foreach(bs, col)
+ bipartite_add(bp, n_alloc, col);
+
+ n_alloc++;
+ }
+ }
+ }
+
+ bipartite_matching(bp, assignment);
+
+ /* Assign colors obtained from the matching. */
+ for(i = 0; i < n_alloc; ++i) {
+ int j;
+ ir_node *nodes[2];
+ const arch_register_t *reg;
+
+ assert(assignment[i] >= 0 && "there must have been a register assigned");
+ reg = arch_register_for_index(env->cls, assignment[i]);
+
+ nodes[0] = alloc_nodes[i];
+ nodes[1] = pmap_get(partners, alloc_nodes[i]);
+
+ for(j = 0; j < 2; ++j) {
+ if(!nodes[j])
+ continue;
+
+ arch_set_irn_register(aenv, nodes[j], reg);
+ pset_hinsert_ptr(alloc_env->pre_colored, nodes[j]);
+ DBG((dbg, LEVEL_2, "\tsetting %+F to register %s\n", nodes[j], reg->name));
+ }
+ }
+
+
+ /* Allocate the non-constrained Projs of the Perm. */
+ if(perm) {
+ /* Make the input constraints of the node to output constraints of the Perm's Projs */
+ for(i = insn->use_start; i < insn->n_ops; ++i) {
+ operand_t *op = &insn->ops[i];
+
+ /*
+ If the operand is an "in" operand, constrained and the carrier is a Proj to the Perm,
+ then copy the in constraint to the Perm's out constraint
+ */
+ if(arch_register_req_is(&op->req, limited) && is_Proj(op->carrier) && perm == get_Proj_pred(op->carrier))
+ be_set_constr_limited(perm, BE_OUT_POS(get_Proj_proj(op->carrier)), &op->req);
+ }
+
+ bitset_clear_all(bs);
+
+ /* Put the colors of all Projs in a bitset. */
+ foreach_out_edge(perm, edge) {
+ ir_node *proj = get_edge_src_irn(edge);
+ const arch_register_t *reg = arch_get_irn_register(aenv, proj);
+
+ if(reg != NULL)
+ bitset_set(bs, reg->index);
+ }
+
+ /* Assign the not yet assigned Projs of the Perm a suitable color. */
+ foreach_out_edge(perm, edge) {
+ ir_node *proj = get_edge_src_irn(edge);
+ const arch_register_t *reg = arch_get_irn_register(aenv, proj);
+
+ DBG((dbg, LEVEL_2, "\tchecking reg of %+F: %s\n", proj, reg ? reg->name : "<none>"));
+
+ if(reg == NULL) {
+ col = bitset_next_clear(bs, 0);
+ reg = arch_register_for_index(env->cls, col);
+ bitset_set(bs, reg->index);
+ arch_set_irn_register(aenv, proj, reg);
+ pset_insert_ptr(alloc_env->pre_colored, proj);
+ DBG((dbg, LEVEL_2, "\tsetting %+F to register %s\n", proj, reg->name));
+ }
+ }
+ }
+
+ pmap_destroy(partners);
+ }
+
+end:
+ obstack_free(&env->obst, base);
+ return res;
+}
+
+/**
+ * Handle constraint nodes in each basic block.
+ * be_insert_constr_perms() inserts Perm nodes which perm
+ * over all values live at the constrained node right in front
+ * of the constrained node. These Perms signal a constrained node.
+ * For further comments, refer to handle_constraints_at_perm().
+ */
+static void constraints(ir_node *bl, void *data)
+{
+ firm_dbg_module_t *dbg = firm_dbg_register("firm.be.chordal.constr");
+ be_chordal_alloc_env_t *env = data;
+ arch_env_t *arch_env = env->chordal_env->birg->main_env->arch_env;
+ ir_node *irn;
+
+ for(irn = sched_first(bl); !sched_is_end(irn);) {
+ irn = handle_constraints(env, irn);
+ }
+}
+
/**
* Annotate the register pressure to the nodes and compute
* the liveness intervals.
#define border_use(irn, step, real) \
border_add(env, head, irn, step, ++pressure, 0, real)
- be_chordal_env_t *env = env_ptr;
- bitset_t *live = env->live;
+ be_chordal_alloc_env_t *alloc_env = env_ptr;
+ be_chordal_env_t *env = alloc_env->chordal_env;
+ const arch_env_t *arch_env = env->birg->main_env->arch_env;
+ bitset_t *live = alloc_env->live;
+ firm_dbg_module_t *dbg = env->dbg;
ir_node *irn;
int i, n;
struct list_head *head;
pset *live_in = put_live_in(block, pset_new_ptr_default());
pset *live_end = put_live_end(block, pset_new_ptr_default());
- const arch_register_class_t *cls = env->cls;
DBG((dbg, LEVEL_1, "Computing pressure in block %+F\n", block));
bitset_clear_all(live);
/* Set up the border list in the block info */
head = obstack_alloc(&env->obst, sizeof(*head));
INIT_LIST_HEAD(head);
+ assert(pmap_get(env->border_heads, block) == NULL);
pmap_insert(env->border_heads, block, head);
/*
* They are necessary to build up real intervals.
*/
for(irn = pset_first(live_end); irn; irn = pset_next(live_end)) {
- DBG((dbg, LEVEL_3, "\tMaking live: %+F/%d\n", irn, get_irn_graph_nr(irn)));
- bitset_set(live, get_irn_graph_nr(irn));
- if(arch_irn_has_reg_class(env->arch_env, irn, 0, cls))
+ if(has_reg_class(env, irn)) {
+ DBG((dbg, LEVEL_3, "\tMaking live: %+F/%d\n", irn, get_irn_graph_nr(irn)));
+ bitset_set(live, get_irn_graph_nr(irn));
border_use(irn, step, 0);
+ }
}
++step;
DBG((dbg, LEVEL_1, "\tinsn: %+F, pressure: %d\n", irn, pressure));
DBG((dbg, LEVEL_2, "\tlive: %b\n", live));
- /*
- * If the node defines some value, which can put into a
- * register of the current class, make a border for it.
- */
- if(arch_irn_has_reg_class(env->arch_env, irn, 0, cls)) {
- bitset_pos_t elm;
+ /*
+ * If the node defines some value, which can put into a
+ * register of the current class, make a border for it.
+ */
+ if(has_reg_class(env, irn)) {
int nr = get_irn_graph_nr(irn);
bitset_clear(live, nr);
border_def(irn, step, 1);
-
-#ifdef BUILD_GRAPH
- bitset_foreach(live, elm)
- add_if(env, nr, (int) elm);
-#endif
}
/*
for(i = 0, n = get_irn_arity(irn); i < n; ++i) {
ir_node *op = get_irn_n(irn, i);
- if(arch_irn_has_reg_class(env->arch_env, op, 0, cls)) {
+ if(has_reg_class(env, op)) {
int nr = get_irn_graph_nr(op);
DBG((dbg, LEVEL_4, "\t\tpos: %d, use: %+F\n", i, op));
* Add initial defs for all values live in.
*/
for(irn = pset_first(live_in); irn; irn = pset_next(live_in)) {
- if(arch_irn_has_reg_class(env->arch_env, irn, 0, cls)) {
+ if(has_reg_class(env, irn)) {
/* Mark the value live in. */
bitset_set(live, get_irn_graph_nr(irn));
}
}
- del_pset(live_in);
- del_pset(live_end);
+
+ del_pset(live_in);
+ del_pset(live_end);
}
static void assign(ir_node *block, void *env_ptr)
{
- be_chordal_env_t *env = env_ptr;
- struct obstack *obst = &env->obst;
- bitset_t *live = env->live;
- bitset_t *colors = env->colors;
- bitset_t *in_colors = env->in_colors;
- const arch_register_class_t *cls = env->cls;
-
- /* Mark the obstack level and allocate the temporary tmp_colors */
- void *obstack_level = obstack_base(obst);
- /*bitset_t *tmp_colors = bitset_obstack_alloc(obst, env->colors_n);*/
+ be_chordal_alloc_env_t *alloc_env = env_ptr;
+ be_chordal_env_t *env = alloc_env->chordal_env;
+ firm_dbg_module_t *dbg = env->dbg;
+ bitset_t *live = alloc_env->live;
+ bitset_t *colors = alloc_env->colors;
+ bitset_t *in_colors = alloc_env->in_colors;
+ const arch_env_t *arch_env = env->birg->main_env->arch_env;
const ir_node *irn;
border_t *b;
struct list_head *head = get_block_border_head(env, block);
pset *live_in = put_live_in(block, pset_new_ptr_default());
- bitset_clear_all(live);
bitset_clear_all(colors);
+ bitset_clear_all(live);
bitset_clear_all(in_colors);
DBG((dbg, LEVEL_4, "Assigning colors for block %+F\n", block));
* allocated before), we have to mark their colors as used also.
*/
for(irn = pset_first(live_in); irn; irn = pset_next(live_in)) {
- if(arch_irn_has_reg_class(env->arch_env, irn, 0, cls)) {
- const arch_register_t *reg = arch_get_irn_register(env->arch_env, irn, 0);
- int col;
+ if(has_reg_class(env, irn)) {
+ const arch_register_t *reg = arch_get_irn_register(arch_env, irn);
+ int col;
- assert(reg && "Node must have been assigned a register");
+ assert(reg && "Node must have been assigned a register");
col = arch_register_get_index(reg);
/* Mark the color of the live in value as used. */
}
/*
- * Mind that the sequence of defs from back to front defines a perfect
+ * Mind that the sequence
+ * of defs from back to front defines a perfect
* elimination order. So, coloring the definitions from first to last
* will work.
*/
* color.
*/
if(b->is_def && !is_live_in(block, irn)) {
- const arch_register_t *reg;
+ const arch_register_t *reg;
int col = NO_COLOR;
- DBG((dbg, LEVEL_4, "\tcolors in use: %b\n", colors));
-
- col = bitset_next_clear(colors, 0);
- reg = arch_register_for_index(env->cls, col);
+ if(pset_find_ptr(alloc_env->pre_colored, irn)) {
+ reg = arch_get_irn_register(arch_env, irn);
+ col = reg->index;
+ assert(!bitset_is_set(colors, col) && "pre-colored register must be free");
+ }
- assert(arch_get_irn_register(env->arch_env, irn, 0) == NULL
- && "This node must not have been assigned a register yet");
- assert(!bitset_is_set(live, nr) && "Value's definition must not have been encountered");
+ else {
+ col = bitset_next_clear(colors, 0);
+ reg = arch_register_for_index(env->cls, col);
+ assert(arch_get_irn_register(arch_env, irn) == NULL && "This node must not have been assigned a register yet");
+ }
bitset_set(colors, col);
- bitset_set(live, nr);
- arch_set_irn_register(env->arch_env, irn, 0, reg);
+ assert(!arch_register_type_is(reg, ignore) && "Must not assign ignore register");
+ arch_set_irn_register(arch_env, irn, reg);
+
DBG((dbg, LEVEL_1, "\tassigning register %s(%d) to %+F\n",
arch_register_get_name(reg), col, irn));
+
+ assert(!bitset_is_set(live, nr) && "Value's definition must not have been encountered");
+ bitset_set(live, nr);
}
/* Clear the color upon a use. */
else if(!b->is_def) {
- const arch_register_t *reg = arch_get_irn_register(env->arch_env, irn, 0);
+ const arch_register_t *reg = arch_get_irn_register(arch_env, irn);
int col;
- assert(reg && "Register must have been assigned");
+ assert(reg && "Register must have been assigned");
- col = arch_register_get_index(reg);
+ col = arch_register_get_index(reg);
assert(bitset_is_set(live, nr) && "Cannot have a non live use");
bitset_clear(colors, col);
}
}
- /* Free the auxillary data on the obstack. */
- obstack_free(obst, obstack_level);
-
- del_pset(live_in);
+ del_pset(live_in);
}
-void be_ra_chordal_init(void)
+void be_ra_chordal_color(be_chordal_env_t *chordal_env)
{
- dbg = firm_dbg_register(DBG_CHORDAL);
- firm_dbg_set_mask(dbg, 0);
-}
+ be_chordal_alloc_env_t env;
+ char buf[256];
+
+ int colors_n = arch_register_class_n_regs(chordal_env->cls);
+ ir_graph *irg = chordal_env->irg;
-be_chordal_env_t *be_ra_chordal(ir_graph *irg,
- const arch_env_t *arch_env,
- const arch_register_class_t *cls)
-{
- int node_count = get_graph_node_count(irg);
- int colors_n = arch_register_class_n_regs(cls);
- be_chordal_env_t *env = malloc(sizeof(*env));
if(get_irg_dom_state(irg) != dom_consistent)
compute_doms(irg);
- obstack_init(&env->obst);
+ env.chordal_env = chordal_env;
+ env.colors_n = colors_n;
+ env.colors = bitset_malloc(colors_n);
+ env.in_colors = bitset_malloc(colors_n);
+ env.pre_colored = pset_new_ptr_default();
-#ifdef BUILD_GRAPH
- env->edges = new_set(if_edge_cmp, node_count);
- env->nodes = new_set(if_node_cmp, node_count);
-#endif
+ /* Handle register targeting constraints */
+ dom_tree_walk_irg(irg, constraints, NULL, &env);
- env->live = bitset_obstack_alloc(&env->obst, node_count);
- env->colors = bitset_obstack_alloc(&env->obst, colors_n);
- env->in_colors = bitset_obstack_alloc(&env->obst, colors_n);
- env->colors_n = colors_n;
- env->cls = cls;
- env->arch_env = arch_env;
- env->irg = irg;
- env->border_heads = pmap_create();
+ if(chordal_env->opts->dump_flags & BE_CH_DUMP_CONSTR) {
+ snprintf(buf, sizeof(buf), "-%s-constr", chordal_env->cls->name);
+ be_dump(chordal_env->irg, buf, dump_ir_block_graph_sched);
+ }
- /* First, determine the pressure */
- dom_tree_walk_irg(irg, pressure, NULL, env);
+ be_numbering(irg);
+ env.live = bitset_malloc(get_graph_node_count(chordal_env->irg));
- /* Insert probable spills */
- be_ra_chordal_spill(env);
+ /* First, determine the pressure */
+ dom_tree_walk_irg(irg, pressure, NULL, &env);
/* Assign the colors */
- dom_tree_walk_irg(irg, assign, NULL, env);
+ dom_tree_walk_irg(irg, assign, NULL, &env);
-#ifdef DUMP_IFG
- dump_ifg(env);
-#endif
+ be_numbering_done(irg);
-#ifdef DUMP_INTERVALS
- {
- char buf[128];
+ if(chordal_env->opts->dump_flags & BE_CH_DUMP_TREE_INTV) {
plotter_t *plotter;
-
- ir_snprintf(buf, sizeof(buf), "ifg_%s_%F.eps", cls->name, irg);
+ ir_snprintf(buf, sizeof(buf), "ifg_%s_%F.eps", chordal_env->cls->name, irg);
plotter = new_plotter_ps(buf);
-
- draw_interval_tree(&draw_chordal_def_opts, env, plotter, arch_env, cls);
+ draw_interval_tree(&draw_chordal_def_opts, chordal_env, plotter);
plotter_free(plotter);
}
-#endif
- return env;
-}
-
-void be_ra_chordal_check(be_chordal_env_t *chordal_env) {
- const arch_env_t *arch_env;
- struct obstack ob;
- pmap_entry *pme;
- ir_node **nodes, *n1, *n2;
- int i, o;
-
- arch_env = chordal_env->arch_env;
-
- /* Collect all irns */
- obstack_init(&ob);
- pmap_foreach(chordal_env->border_heads, pme) {
- border_t *curr;
- struct list_head *head = pme->value;
- list_for_each_entry(border_t, curr, head, list)
- if (curr->is_def && curr->is_real)
- if (arch_get_irn_reg_class(arch_env, curr->irn, arch_pos_make_out(0)) == chordal_env->cls)
- obstack_ptr_grow(&ob, curr->irn);
- }
- obstack_ptr_grow(&ob, NULL);
- nodes = (ir_node **) obstack_finish(&ob);
- /* Check them */
- for (i = 0, n1 = nodes[i]; n1; n1 = nodes[++i]) {
- const arch_register_t *n1_reg, *n2_reg;
-
- n1_reg = arch_get_irn_register(arch_env, n1, 0);
- assert(arch_reg_is_allocatable(arch_env, n1, arch_pos_make_out(0), n1_reg) && "Register constraint does not hold");
-
- for (o = i+1, n2 = nodes[o]; n2; n2 = nodes[++o]) {
- n2_reg = arch_get_irn_register(arch_env, n2, 0);
- assert(!(nodes_interfere(chordal_env, n1, n2) && n1_reg == n2_reg) && "Interfering values have the same color!");
- }
- }
- obstack_free(&ob, NULL);
+ free(env.live);
+ free(env.colors);
+ free(env.in_colors);
+ del_pset(env.pre_colored);
}
-
-/* BETTER #ifdef BUILD_GRAPH --> faster version of checker with edges */
-
-void be_ra_chordal_done(be_chordal_env_t *env)
-{
-#ifdef BUILD_GRAPH
- {
- if_node_t *ifn;
- for(ifn = set_first(env->nodes); ifn; ifn = set_next(env->nodes))
- free(ifn->neighb);
- free(env->nodes);
- free(env->edges);
- }
-#endif
-
- pmap_destroy(env->border_heads);
- obstack_free(&env->obst, NULL);
- free(env);
-}
-
-int nodes_interfere(const be_chordal_env_t *env, const ir_node *a, const ir_node *b)
-{
-#ifdef BUILD_GRAPH
- return are_connected(env, get_irn_graph_nr(a), get_irn_graph_nr(b));
-#else
- return values_interfere(a, b);
-#endif /* BUILD_GRAPH */
-}
-
-#ifdef BUILD_GRAPH
-
-set *be_ra_get_ifg_edges(const be_chordal_env_t *env) {
- return env->edges;
-}
-
-set *be_ra_get_ifg_nodes(const be_chordal_env_t *env) {
- return env->nodes;
-}
-
-#endif