#include "pdeq.h"
#include "irprintf.h"
#include "irbitset.h"
+#include "error.h"
#include "bearch.h"
#include "beifg.h"
*/
typedef struct _aff_chunk_t {
bitset_t *nodes; /**< A bitset containing all nodes inside this chunk. */
+ bitset_t *interfere; /**< A bitset containing all interfering neighbours of the nodes in this chunk. */
int weight; /**< Weight of this chunk */
unsigned weight_consistent : 1; /**< Set if the weight is consistent. */
int id; /**< For debugging: An id of this chunk. */
int n_regs; /**< number of regs in class */
int k; /**< number of non-ignore registers in class */
bitset_t *ignore_regs; /**< set containing all global ignore registers */
- int *map_regs; /**< map the available colors to the available registers */
ir_phase ph; /**< phase object holding data for nodes */
pqueue *chunks; /**< priority queue for chunks */
pset_new_t chunkset; /**< set holding all chunks */
#define get_co_mst_irn(mst_env, irn) (phase_get_or_set_irn_data(&(mst_env)->ph, (irn)))
-typedef int decide_func_t(co_mst_irn_t *node, int col);
+typedef int decide_func_t(const co_mst_irn_t *node, int col);
#ifdef DEBUG_libfirm
/**
* Write a chunk to stderr for debugging.
*/
-static void dbg_aff_chunk(co_mst_env_t *env, aff_chunk_t *c) {
+static void dbg_aff_chunk(const co_mst_env_t *env, const aff_chunk_t *c) {
int idx;
if (c->weight_consistent)
ir_fprintf(stderr, " $%d ", c->weight);
/**
* Dump all admissible colors to stderr.
*/
-static void dbg_admissible_colors(co_mst_env_t *env, co_mst_irn_t *node) {
+static void dbg_admissible_colors(const co_mst_env_t *env, const co_mst_irn_t *node) {
int idx;
if (bitset_popcnt(node->adm_colors) < 1)
fprintf(stderr, "no admissible colors?!?");
/**
* Dump color-cost pairs to stderr.
*/
-static void dbg_col_cost(co_mst_env_t *env, col_cost_t *cost) {
+static void dbg_col_cost(const co_mst_env_t *env, const col_cost_t *cost) {
int i;
for (i = 0; i < env->n_regs; ++i) {
if (cost[i].cost == COL_COST_INFEASIBLE)
#endif /* DEBUG_libfirm */
-static INLINE int get_mst_irn_col(co_mst_irn_t *node) {
+static INLINE int get_mst_irn_col(const co_mst_irn_t *node) {
return node->tmp_fixed ? node->tmp_col : node->col;
}
/**
* @return 1 if node @p node has color @p col, 0 otherwise.
*/
-static int decider_has_color(co_mst_irn_t *node, int col) {
+static int decider_has_color(const co_mst_irn_t *node, int col) {
return get_mst_irn_col(node) == col;
}
/**
* @return 1 if node @p node has not color @p col, 0 otherwise.
*/
-static int decider_hasnot_color(co_mst_irn_t *node, int col) {
+static int decider_hasnot_color(const co_mst_irn_t *node, int col) {
return get_mst_irn_col(node) != col;
}
/**
* Always returns true.
*/
-static int decider_always_yes(co_mst_irn_t *node, int col) {
+static int decider_always_yes(const co_mst_irn_t *node, int col) {
return 1;
}
c->weight = -1;
c->weight_consistent = 0;
c->nodes = bitset_irg_malloc(env->co->irg);
+ c->interfere = bitset_irg_malloc(env->co->irg);
c->id = last_chunk_id++;
pset_new_insert(&env->chunkset, c);
return c;
static INLINE void delete_aff_chunk(co_mst_env_t *env, aff_chunk_t *c) {
pset_new_remove(&env->chunkset, c);
bitset_free(c->nodes);
+ bitset_free(c->interfere);
+ memset(c, 0, sizeof(*c));
free(c);
}
* Adds a node to an affinity chunk
*/
static INLINE void aff_chunk_add_node(aff_chunk_t *c, co_mst_irn_t *node) {
+ int i;
+
c->weight_consistent = 0;
node->chunk = c;
bitset_set(c->nodes, get_irn_idx(node->irn));
+
+ for (i = node->n_neighs - 1; i >= 0; --i) {
+ ir_node *neigh = node->int_neighs[i];
+ bitset_set(c->interfere, get_irn_idx(neigh));
+ }
}
/**
/* build list of interfering neighbours */
len = 0;
be_ifg_foreach_neighbour(env->ifg, nodes_it, irn, neigh) {
- obstack_ptr_grow(phase_obst(ph), neigh);
- ++len;
+ if (! arch_irn_is(env->aenv, neigh, ignore)) {
+ obstack_ptr_grow(phase_obst(ph), neigh);
+ ++len;
+ }
}
res->int_neighs = obstack_finish(phase_obst(ph));
res->n_neighs = len;
/**
* Check if affinity chunk @p chunk interferes with node @p irn.
*/
-static INLINE int aff_chunk_interferes(co_mst_env_t *env, aff_chunk_t *chunk, ir_node *irn) {
- co_mst_irn_t *node = get_co_mst_irn(env, irn);
- ir_node *neigh;
+static INLINE int aff_chunk_interferes(co_mst_env_t *env, const aff_chunk_t *chunk, ir_node *irn) {
+#if 1
+ if (bitset_is_set(chunk->interfere, get_irn_idx(irn)))
+ return 1;
+#else
+ const co_mst_irn_t *node = get_co_mst_irn(env, irn);
+ const ir_node *neigh;
int i;
- for (i = node->n_neighs - 1; i >= 0; --i) {
+ for (i = 0; i < node->n_neighs; ++i) {
neigh = node->int_neighs[i];
if (! arch_irn_is(env->aenv, neigh, ignore) && bitset_is_set(chunk->nodes, get_irn_idx(neigh)))
return 1;
}
-
+#endif
return 0;
}
* @param c2 Another chunk
* @return 1 if there are interferences between nodes of c1 and c2, 0 otherwise.
*/
-static INLINE int aff_chunks_interfere(co_mst_env_t *env, aff_chunk_t *c1, aff_chunk_t *c2) {
+static INLINE int aff_chunks_interfere(co_mst_env_t *env, const aff_chunk_t *c1, const aff_chunk_t *c2) {
int idx;
+ bitset_t *tmp;
if (c1 == c2)
return 0;
-
+#if 1
+ tmp = bitset_alloca(get_irg_last_idx(env->co->irg));
+ tmp = bitset_copy(tmp, c1->interfere);
+ tmp = bitset_and(tmp, c2->nodes);
+ if (bitset_popcnt(tmp) > 0)
+ return 1;
+#else
/* check if there is a node in c2 having an interfering neighbor in c1 */
bitset_foreach(c2->nodes, idx) {
ir_node *n = get_idx_irn(env->co->irg, idx);
if (aff_chunk_interferes(env, c1, n))
return 1;
}
-
+#endif
return 0;
}
int idx;
bitset_or(c1->nodes, c2->nodes);
+ bitset_or(c1->interfere, c2->interfere);
c1->weight_consistent = 0;
bitset_foreach(c2->nodes, idx) {
/**
* Assures that the weight of the given chunk is consistent.
*/
-static void aff_chunk_assure_weight(co_mst_env_t *env, aff_chunk_t *c) {
+static void aff_chunk_assure_weight(const co_mst_env_t *env, aff_chunk_t *c) {
if (! c->weight_consistent) {
int w = 0;
int idx;
bitset_foreach(c->nodes, idx) {
- ir_node *n = get_idx_irn(env->co->irg, idx);
- affinity_node_t *an = get_affinity_info(env->co, n);
+ ir_node *n = get_idx_irn(env->co->irg, idx);
+ const affinity_node_t *an = get_affinity_info(env->co, n);
if (an != NULL) {
neighb_t *neigh;
co_gs_foreach_neighb(an, neigh) {
- ir_node *m = neigh->irn;
- int m_idx = get_irn_idx(m);
+ const ir_node *m = neigh->irn;
+ const int m_idx = get_irn_idx(m);
/* skip ignore nodes */
if (arch_irn_is(env->aenv, m, ignore))
/**
* Count the number of interfering affinity neighbours
*/
-static int count_interfering_aff_neighs(co_mst_env_t *env, affinity_node_t *an) {
- neighb_t *neigh;
- ir_node *irn = an->irn;
- co_mst_irn_t *node = get_co_mst_irn(env, irn);
- int res = 0;
+static int count_interfering_aff_neighs(co_mst_env_t *env, const affinity_node_t *an) {
+ const neighb_t *neigh;
+ ir_node *irn = an->irn;
+ const co_mst_irn_t *node = get_co_mst_irn(env, irn);
+ int res = 0;
co_gs_foreach_neighb(an, neigh) {
- ir_node *n = neigh->irn;
- int i;
+ const ir_node *n = neigh->irn;
+ int i;
/* skip ignore nodes */
if (arch_irn_is(env->aenv, n, ignore))
continue;
/* check if the affinity neighbour interfere */
- for (i = node->n_neighs - 1; i >= 0; --i) {
+ for (i = 0; i < node->n_neighs; ++i) {
if (node->int_neighs[i] == n) {
++res;
break;
}
/* calculate (positive) costs for interfering neighbours */
- for (i = node->n_neighs - 1; i >= 0; --i) {
+ for (i = 0; i < node->n_neighs; ++i) {
co_mst_irn_t *neigh;
int col, col_cnt;
ir_node *int_neigh;
waitq_put(local_changed, node);
/* try to color all interfering neighbours with current color forbidden */
- for (j = node->n_neighs - 1; j >= 0; --j) {
+ for (j = 0; j < node->n_neighs; ++j) {
co_mst_irn_t *nn;
ir_node *neigh;
/* check which color is the "best" for the given chunk */
- for (col = 0; col < env->k; ++col) {
- int reg_col = env->map_regs[col];
+ for (col = 0; col < env->n_regs; ++col) {
int one_good = 0;
aff_chunk_t *local_best;
- DB((dbg, LEVEL_3, "\ttrying color %d\n", reg_col));
+ /* skip ignore colors */
+ if (bitset_is_set(env->ignore_regs, col))
+ continue;
+
+ DB((dbg, LEVEL_3, "\ttrying color %d\n", col));
/* try to bring all nodes of given chunk to the current color. */
bitset_foreach(c->nodes, idx) {
assert(! node->fixed && "Node must not have a fixed color.");
- DB((dbg, LEVEL_4, "\t\tBringing %+F from color %d to color %d ...\n", irn, node->col, reg_col));
- one_good |= change_node_color(env, node, reg_col, changed_ones);
- DB((dbg, LEVEL_4, "\t\t... %+F attempt from %d to %d %s\n", irn, node->col, reg_col, one_good ? "succeeded" : "failed"));
+ DB((dbg, LEVEL_4, "\t\tBringing %+F from color %d to color %d ...\n", irn, node->col, col));
+ one_good |= change_node_color(env, node, col, changed_ones);
+ DB((dbg, LEVEL_4, "\t\t... %+F attempt from %d to %d %s\n", irn, node->col, col, one_good ? "succeeded" : "failed"));
}
/* try next color when failed */
continue;
/* fragment the chunk according to the coloring */
- local_best = fragment_chunk(env, reg_col, c, tmp_chunks);
+ local_best = fragment_chunk(env, col, c, tmp_chunks);
/* search the best of the good list
and make it the new best if it is better than the current */
if (local_best) {
aff_chunk_assure_weight(env, local_best);
- DB((dbg, LEVEL_4, "\t\tlocal best chunk (id %d) for color %d: ", local_best->id, reg_col));
+ DB((dbg, LEVEL_4, "\t\tlocal best chunk (id %d) for color %d: ", local_best->id, col));
DBG_AFF_CHUNK(env, LEVEL_4, local_best);
if (! best_chunk || best_chunk->weight < local_best->weight) {
best_chunk = local_best;
- best_color = reg_col;
+ best_color = col;
DB((dbg, LEVEL_4, "\n\t\t... setting global best chunk (id %d), color %d\n", best_chunk->id, best_color));
} else {
DB((dbg, LEVEL_4, "\n\t\t... omitting, global best is better\n"));
int res;
res = change_node_color(env, node, best_color, changed_ones);
- assert(res && "color manifesting failed");
+ if (! res)
+ panic("Color manifesting failed for %+F, color %d in chunk %d\n", irn, best_color, best_chunk->id);
node->fixed = 1;
node->chunk = best_chunk;
}
/**
* Main driver for mst safe coalescing algorithm.
*/
-int co_solve_heuristic_mst(copy_opt_t *co)
-{
+int co_solve_heuristic_mst(copy_opt_t *co) {
unsigned n_regs = co->cls->n_regs;
bitset_t *ignore_regs = bitset_alloca(n_regs);
- unsigned k, idx, num;
+ unsigned k;
ir_node *irn;
co_mst_env_t mst_env;
k = be_put_ignore_regs(co->cenv->birg, co->cls, ignore_regs);
k = n_regs - k;
- /* Create a color to register number map. In some architectures registers are ignore "in the middle"
- of the register set. */
- mst_env.map_regs = NEW_ARR_D(int, phase_obst(&mst_env.ph), k);
- for (idx = num = 0; idx < n_regs; ++idx) {
- if (bitset_is_set(ignore_regs, idx))
- continue;
- mst_env.map_regs[num++] = idx;
- }
- assert(num == k);
-
mst_env.n_regs = n_regs;
mst_env.k = k;
mst_env.chunks = new_pqueue();