#include "irprog.h"
-#include "lpp.h"
-#include "lpp_local.h"
-#include "lpp_remote.h"
+#include <lpp/lpp.h>
+#include <lpp/lpp_net.h>
#include "xmalloc.h"
#include "becopyopt.h"
#include "becopystat.h"
+#include "besched_t.h"
-#define DUMP_MPS
+#define LPP_HOST "i44pc52"
+#define LPP_SOLVER "cplex"
+
+#undef DUMP_MPS
#define DEBUG_LVL SET_LEVEL_1
static firm_dbg_module_t *dbg = NULL;
+#define EPSILON 0.00001
#define SLOTS_LIVING 32
-/**
- * Represents the _costs_ if node n and m have different colors.
- * Must be >=0.
- **/
-#define get_weight(n,m) 1
-
typedef struct _simpl_t {
struct list_head chain;
if_node_t *ifn;
redo = 0;
for (ifn = set_first(if_nodes); ifn; ifn = set_next(if_nodes)) {
ir_node *irn = get_irn_for_graph_nr(pi->co->chordal_env->irg, ifn->nnr);
- if (!is_removed(irn) && !is_optimizable(irn) &&
+ if (!is_removed(irn) && !is_optimizable(pi->co->chordal_env->arch_env, irn) &&
!is_optimizable_arg(pi->co, irn) && pi_is_simplicial(pi, ifn)) {
simpl_t *s = xmalloc(sizeof(*s));
s->ifn = ifn;
list_add(&s->chain, &pi->simplicials);
pset_insert_ptr(pi->removed, irn);
redo = 1;
- DBG((dbg, LEVEL_2, " Removed %n\n", irn));
+ DBG((dbg, LEVEL_2, " Removed %n %d\n", irn, get_irn_graph_nr(irn)));
}
}
}
nnr = get_irn_graph_nr(curr->irn);
mangle_cst(pi->buf, 'A', nnr);
- cst_idx = lpp_add_cst(pi->curr_lp, pi->buf, equal, 1);
+ cst_idx = lpp_add_cst(pi->curr_lp, pi->buf, lpp_equal, 1);
// iterate over all possible colors in order
bitset_clear_all(pos_regs);
bitset_foreach(pos_regs, col) {
int var_idx;
mangle_var(pi->buf, 'x', nnr, col);
- var_idx = lpp_add_var(pi->curr_lp, pi->buf, binary, 0);
+ var_idx = lpp_add_var(pi->curr_lp, pi->buf, lpp_binary, 0);
pi->last_x_var = var_idx;
lpp_set_factor_fast(pi->curr_lp, cst_idx, var_idx, 1);
}
int cst_idx;
ir_node *n;
mangle_cst(pi->buf, 'B', pi->cst_counter);
- cst_idx = lpp_add_cst(pi->curr_lp, pi->buf, less, 1);
+ cst_idx = lpp_add_cst(pi->curr_lp, pi->buf, lpp_less, 1);
for (n = pset_first(living); n; n = pset_next(living)) {
int var_idx;
mangle_var_irn(pi->buf, 'x', n, color);
/**
* Generates constraints which interrelate x with y variables.
- * y=1 ==> x1 and x2 must have the same color.
- * <== is achieved automatically by minimization.
+ * x1 and x2 have the different colors ==> y_12 = 1
*/
static void pi_add_constr_E(problem_instance_t *pi) {
unit_t *curr;
- bitset_t *root_regs, *arg_regs;
+ bitset_t *root_regs, *arg_regs, *work_regs;
int cst_counter = 0;
unsigned nregs = pi->co->chordal_env->cls->n_regs;
root_regs = bitset_alloca(nregs);
arg_regs = bitset_alloca(nregs);
+ work_regs = bitset_alloca(nregs);
DBG((dbg, LEVEL_2, "Add E constraints...\n"));
/* for all roots of optimization units */
list_for_each_entry(unit_t, curr, &pi->co->units, units) {
- const ir_node *root, *arg;
+ ir_node *root, *arg;
int rootnr, argnr, color;
int y_idx, i;
char buf[32];
/* Introduce new variable and set factor in objective function */
mangle_var(buf, 'y', rootnr, argnr);
- y_idx = lpp_add_var(pi->curr_lp, buf, continous, get_weight(root, arg));
+ y_idx = lpp_add_var(pi->curr_lp, buf, lpp_continous, curr->costs[i]);
+
+ //BETTER: y vars as binary or continous vars ??
/* set starting value */
//lpp_set_start_value(pi->curr_lp, y_idx, (get_irn_col(pi->co, root) != get_irn_col(pi->co, arg)));
/* For all colors root and arg have in common, add 2 constraints to E */
- bitset_and(arg_regs, root_regs);
- bitset_foreach(arg_regs, color) {
+ bitset_copy(work_regs, root_regs);
+ bitset_and(work_regs, arg_regs);
+ bitset_foreach(work_regs, color) {
int root_idx, arg_idx, cst_idx;
mangle_var(buf, 'x', rootnr, color);
root_idx = lpp_get_var_idx(pi->curr_lp, buf);
/* add root-arg-y <= 0 */
mangle_cst(buf, 'E', cst_counter++);
- cst_idx = lpp_add_cst(pi->curr_lp, buf, less, 0);
+ cst_idx = lpp_add_cst(pi->curr_lp, buf, lpp_less, 0);
lpp_set_factor_fast(pi->curr_lp, cst_idx, root_idx, 1);
lpp_set_factor_fast(pi->curr_lp, cst_idx, arg_idx, -1);
lpp_set_factor_fast(pi->curr_lp, cst_idx, y_idx, -1);
/* add arg-root-y <= 0 */
mangle_cst(buf, 'E', cst_counter++);
- cst_idx = lpp_add_cst(pi->curr_lp, buf, less, 0);
+ cst_idx = lpp_add_cst(pi->curr_lp, buf, lpp_less, 0);
lpp_set_factor_fast(pi->curr_lp, cst_idx, root_idx, -1);
lpp_set_factor_fast(pi->curr_lp, cst_idx, arg_idx, 1);
lpp_set_factor_fast(pi->curr_lp, cst_idx, y_idx, -1);
}
+ /* For all colors root and arg have "disjunct", add 1 constraints to E.
+ * If root gets a color the arg is not possible to get then they will
+ * definetly get different colors. So y has to be 1.
+ * Vice versa for arg.
+ */
+ bitset_copy(work_regs, root_regs);
+ bitset_xor(work_regs, arg_regs);
+ bitset_foreach(work_regs, color) {
+ int root_idx, arg_idx, cst_idx;
+ mangle_var(buf, 'x', rootnr, color);
+ root_idx = lpp_get_var_idx(pi->curr_lp, buf);
+ mangle_var(buf, 'x', argnr, color);
+ arg_idx = lpp_get_var_idx(pi->curr_lp, buf);
+
+ mangle_cst(buf, 'E', cst_counter++);
+ cst_idx = lpp_add_cst(pi->curr_lp, buf, lpp_less, 0);
+ if (bitset_is_set(root_regs, color)) {
+ /* add root-y <= 0 */
+ lpp_set_factor_fast(pi->curr_lp, cst_idx, root_idx, 1);
+ lpp_set_factor_fast(pi->curr_lp, cst_idx, y_idx, -1);
+ } else {
+ assert(bitset_is_set(arg_regs, color) && "bitset_xor is buggy");
+ /* add arg-y <= 0 */
+ lpp_set_factor_fast(pi->curr_lp, cst_idx, arg_idx, 1);
+ lpp_set_factor_fast(pi->curr_lp, cst_idx, y_idx, -1);
+ }
+ }
}
}
}
/**
- * Matrix M: maximum independent set constraints
+ * Matrix S: maximum independent set constraints
* Generates lower bound-cuts for optimization units with inner interferences.
* Sum(y_{root, arg}, arg \in Args) <= max_indep_set_size - 1
*/
-static void pi_add_constr_M(problem_instance_t *pi) {
+static void pi_add_constr_S(problem_instance_t *pi) {
unit_t *curr;
int cst_counter = 0;
DBG((dbg, LEVEL_2, "Add M constraints...\n"));
int cst_idx, y_idx, i;
char buf[32];
- if (curr->ifg_mis_size == curr->node_count)
+ if (curr->minimal_costs == 0)
continue;
root = curr->nodes[0];
rootnr = get_irn_graph_nr(root);
mangle_cst(buf, 'M', cst_counter++);
- cst_idx = lpp_add_cst(pi->curr_lp, buf, greater, curr->node_count - curr->ifg_mis_size);
+ cst_idx = lpp_add_cst(pi->curr_lp, buf, lpp_greater, curr->minimal_costs);
/* for all arguments */
for (i = 1; i < curr->node_count; ++i) {
argnr = get_irn_graph_nr(arg);
mangle_var(buf, 'y', rootnr, argnr);
y_idx = lpp_get_var_idx(pi->curr_lp, buf);
- lpp_set_factor_fast(pi->curr_lp, cst_idx, y_idx, 1);
+ lpp_set_factor_fast(pi->curr_lp, cst_idx, y_idx, curr->costs[i]);
+ }
+ }
+}
+
+static void M_constr_walker(ir_node *block, void *env) {
+ problem_instance_t *pi = env;
+ int pos, count, arity, row, col, other_row;
+ ir_node **phis, *phi, *irn, **phi_matrix;
+ pset *done;
+ bitset_t *candidates;
+
+ //TODO
+ return;
+
+ /* Count all phi nodes of this block */
+ for (count=0, irn = sched_first(block); is_Phi(irn); irn = sched_next(irn))
+ count++;
+
+ /* We at least 2 phi nodes for this class of inequalities */
+ if (count < 2)
+ return;
+
+ /* Build the \Phi-Matrix */
+ arity = get_irn_arity(sched_first(block));
+ phis = alloca(count * sizeof(*phis));
+ phi_matrix = alloca(count*arity * sizeof(*phi_matrix));
+ candidates = bitset_alloca(count);
+
+ phi = sched_first(block);
+ for (row=0; row<count; ++row) {
+ phis[row] = phi;
+ for (col=0; col<arity; ++col)
+ phi_matrix[row*arity + col] = get_irn_n(phi, col);
+ phi = sched_next(phi);
+ }
+
+ /* Now find the interesting patterns in the matrix:
+ * All nodes which are used at least twice in a column. */
+ /* columnwise ... */
+ for (col=0; col<arity; ++col) {
+ done = pset_new_ptr_default();
+ for (row=0; row<count; ++row) {
+ irn = phi_matrix[row*arity + col];
+ /* has the irn already been processed in this col? */
+ if (pset_find_ptr(done, irn))
+ continue;
+ else
+ pset_insert_ptr(done, irn);
+
+ /* insert irn in candidates */
+ bitset_clear_all(candidates);
+ bitset_set(candidates, row);
+ /* search the irn in the rows below */
+ for (other_row = row+1; other_row<count; ++other_row)
+ if (irn == phi_matrix[other_row*arity + col]) {
+ /* found the irn in the same col in another row */
+ bitset_set(candidates, other_row);
+ }
+
+ /* now we know all occurences of irn in this col */
+ if (bitset_popcnt(candidates) < 2)
+ continue;
+
+ /* generate an unequation finally */
+ //TODO
+
}
+ del_pset(done); /* clear set for next row */
}
+
+}
+
+/**
+ * Matrix M: Multi-Arg-Use. Interrelates different \phi-functions
+ * in the same block, iff they use the same arg at the same pos.
+ * Only one of the phis can get the arg.
+ */
+static void pi_add_constr_M(problem_instance_t *pi) {
+ dom_tree_walk_irg(pi->co->chordal_env->irg, M_constr_walker, NULL, pi);
}
/**
pi->co = co;
pi->removed = pset_new_ptr_default();
INIT_LIST_HEAD(&pi->simplicials);
- pi->dilp = new_lpp(co->name, minimize);
+ pi->dilp = new_lpp(co->name, lpp_minimize);
pi->last_x_var = -1;
/* problem size reduction */
pi_find_simplicials(pi);
- //TODO dump_ifg_w/o_removed
+ //BETTER If you wish to see it: dump_ifg_w/o_removed
if (pi->all_simplicial)
return pi;
for (col = 0; col < pi->co->chordal_env->cls->n_regs; ++col)
pi_add_constr_B(pi, col);
pi_add_constr_E(pi);
+ pi_add_constr_S(pi);
pi_add_constr_M(pi);
return pi;
/**
* Invoke a solver
*/
-static void pi_solve_ilp(problem_instance_t *pi, void (*lpp_solve)(lpp_t *)) {
+static void pi_solve_ilp(problem_instance_t *pi) {
pi_set_start_sol(pi);
- lpp_solve(pi->curr_lp);
- DBG((dbg, LEVEL_1, "Solution time: %f\n", lpp_get_sol_time(pi->curr_lp)));
+ lpp_solve_net(pi->curr_lp, LPP_HOST, LPP_SOLVER);
}
/**
static void pi_apply_solution(problem_instance_t *pi) {
int i;
double *sol;
- sol_state_t state;
+ lpp_sol_state_t state;
DBG((dbg, LEVEL_2, "Applying solution...\n"));
#ifdef DO_STAT
- //TODO stat
+ curr_vals[I_ILP_ITER] += lpp_get_iter_cnt(pi->curr_lp);
+ curr_vals[I_ILP_TIME] += lpp_get_sol_time(pi->curr_lp);
#endif
sol = xmalloc((pi->last_x_var+1) * sizeof(*sol));
state = lpp_get_solution(pi->curr_lp, sol, 1, pi->last_x_var);
- if (state != optimal) {
+ if (state != lpp_optimal) {
printf("Solution state is not 'optimal': %d\n", state);
- if (state < feasible)
- assert(0);
+ assert(state >= lpp_feasible && "The solution should at least be feasible!");
}
- for (i=0; i<pi->last_x_var; ++i)
- if (sol[i] == 1.0) { /* split varibale name into components */
- int nnr, col;
- char var_name[64];
+ for (i=0; i<pi->last_x_var; ++i) {
+ int nnr, col;
+ char var_name[64];
+
+ if (sol[i] > 1-EPSILON) { /* split varibale name into components */
lpp_get_var_name(pi->curr_lp, 1+i, var_name, sizeof(var_name));
if (split_var(var_name, &nnr, &col) == 2) {
- DBG((dbg, LEVEL_2, " x%d = %d\n", nnr, col));
+ DBG((dbg, LEVEL_2, "Irn %n Idx %d Var %s Val %f\n", get_irn_for_graph_nr(pi->co->chordal_env->irg, nnr), i, var_name, sol[i]));
+ DBG((dbg, LEVEL_2, "x%d = %d\n", nnr, col));
set_irn_col(pi->co, get_irn_for_graph_nr(pi->co->chordal_env->irg, nnr), col);
} else
assert(0 && "This should be a x-var");
}
+ }
}
void co_ilp_opt(copy_opt_t *co) {
dbg = firm_dbg_register("ir.be.copyoptilp");
if (!strcmp(co->name, DEBUG_IRG))
- firm_dbg_set_mask(dbg, -1);
+ firm_dbg_set_mask(dbg, DEBUG_LVL_ILP);
else
firm_dbg_set_mask(dbg, DEBUG_LVL);
snprintf(buf, sizeof(buf), "%s.mps", co->name);
lpp_dump(pi->curr_lp, buf);
#endif
- pi_solve_ilp(pi, lpp_solve_local);
+ pi_solve_ilp(pi);
pi_apply_solution(pi);
pi_set_simplicials(pi);
}
projects / libfirm / blobdiff