X-Git-Url: http://nsz.repo.hu/git/?a=blobdiff_plain;f=ir%2Fbe%2Fbecopyilp.c;h=a40a448c26b332f082bca0c06fc9d4bfa146c13a;hb=f7d0af60cd69a01e593074b840c0f510a0945dda;hp=367bf6ab475317c5ac8a8b129090269453c2d41b;hpb=c84cfae34532910cb95a7da3ed4c949fe0b7d6a4;p=libfirm diff --git a/ir/be/becopyilp.c b/ir/be/becopyilp.c index 367bf6ab4..a40a448c2 100644 --- a/ir/be/becopyilp.c +++ b/ir/be/becopyilp.c @@ -1,673 +1,199 @@ /** - * Minimizing copies with an exact algorithm using mixed integer programming (MIP). - * Problem statement as a 'quadratic 0-1 program with linear constraints' with - * n binary variables. Constraints are knapsack (enforce color for each node) and - * cliques of ifg (interference constraints). - * Transformation into a 'mixed integer program' with n binary variables and - * additional 2n real variables. Constraints are the above the transformed - * objective function and 'complementary conditions' for two var classes. - * @author Daniel Grund + * Author: Daniel Grund + * Date: 28.02.2006 + * Copyright: (c) Universitaet Karlsruhe + * Licence: This file protected by GPL - GNU GENERAL PUBLIC LICENSE. + * + * Common stuff used by all ILP fomulations. * - * NOTE: Unfortunately no good solver is available locally (or even for linking) - * We use CPLEX 9.0 which runs on a machine residing at the Rechenzentrum. - * @date 12.04.2005 */ -#include "becopyopt.h" +#ifdef HAVE_CONFIG_H +#include "config.h" +#endif /* HAVE_CONFIG_H */ -#define DUMP_MPS /**< dumps the problem in "CPLEX"-MPS format. NOT fixed-column-MPS. */ -#define USE_SOS /**< uses Special Ordered Sets when using MPS */ -#define DO_SOLVE /**< solve the MPS output with CPLEX */ -#define DUMP_MATRICES /**< dumps all matrices completely. only recommended for small problems */ -#define DUMP_LP /**< dumps the problem in LP format. 'human-readable' equations etc... */ -#define DELETE_FILES /**< deletes all dumped files after use */ -#define EXPECT_FILENAME "runme" /** name of the expect-script */ +#ifdef WITH_ILP -/* CPLEX-account related stuff */ -#define SSH_USER_HOST_PATH "kb61@sp-smp.rz.uni-karlsruhe.de" -#define SSH_PASSWD "!cplex90" +#include "becopyilp_t.h" +#include "beifg_t.h" -#define DEBUG_LVL SET_LEVEL_1 -static firm_dbg_module_t *dbg = NULL; +/****************************************************************************** + _____ _ _ _ _ + / ____(_) | | | | (_) + | (___ _ _______ _ __ ___ __| |_ _ ___| |_ _ ___ _ __ + \___ \| |_ / _ \ | '__/ _ \/ _` | | | |/ __| __| |/ _ \| '_ \ + ____) | |/ / __/ | | | __/ (_| | |_| | (__| |_| | (_) | | | | + |_____/|_/___\___| |_| \___|\__,_|\__,_|\___|\__|_|\___/|_| |_| -#define SLOTS_NUM2POS 256 -#define SLOTS_LIVING 32 + *****************************************************************************/ -/** - * A type storing names of the x variables in the form x[NUMBER]_[COLOR] - */ -typedef struct _x_name_t { - int n, c; -} x_name_t; -/** - * For each node taking part in the opt-problem its position in the - * x-variable-vector is stored in a set. This set maps the node-nr (given by - * benumb) to the position in the vector. - */ -typedef struct _num2pos_t { - int num, pos; -} num2pos_t; +size_red_t *new_size_red(copy_opt_t *co) { + size_red_t *res = xmalloc(sizeof(*res)); -/** - * A type storing the unmodified '0-1 quadratic program' of the form - * min f = xQx - * udN: Ax = e - * Bx <= e - * x \in {0, 1} - * - * This problem is called the original problem - */ -typedef struct _problem_instance_t { - ir_graph* irg; - const char *name; - int x_dim, A_dim, B_dim; /**< number of: x variables, rows in A, rows in B */ - x_name_t *x; /**< stores the names of the x variables. all possible colors for a node are ordered and occupy consecutive entries. lives in obstack ob. */ - set *num2pos; /**< maps node numbers to positions in x. */ - sp_matrix_t *Q, *A, *B; /**< the (sparse) matrices of this problem */ - - /* needed only for linearizations */ - int bigM, maxQij, minQij; - - /* overhead needed to build this */ - struct obstack ob; - int curr_color; - int curr_row; -} problem_instance_t; - -/* Nodes have consecutive numbers so this hash shoud be fine */ -#define HASH_NUM(num) num - -static int set_cmp_num2pos(const void *x, const void *y, size_t size) { - return ((num2pos_t *)x)->num != ((num2pos_t *)y)->num; -} + res->co = co; + res->all_removed = pset_new_ptr_default(); + res->col_suff = NULL; + obstack_init(&res->ob); -/** - * Sets the first position of node with number num to pos. - * See x_name_t *x in _problem_instance_t. - */ -static INLINE void pi_set_first_pos(problem_instance_t *pi, int num, int pos) { - num2pos_t find; - find.num = num; - find.pos = pos; - set_insert(pi->num2pos, &find, sizeof(find), HASH_NUM(num)); + return res; } /** - * Get position by number. (First possible color) - * returns -1 if not found. + * Checks if a node is simplicial in the graph heeding the already removed nodes. */ -static INLINE int pi_get_first_pos(problem_instance_t *pi, int num) { - num2pos_t find, *found; - find.num = num; - found = set_find(pi->num2pos, &find, sizeof(find), HASH_NUM(num)); - if (found) { - assert(pi->x[found->pos].n == num && (found->pos == 0 || pi->x[found->pos-1].n != num) && "pi->num2pos is broken!"); - return found->pos; - } else - return -1; -} +static INLINE int sr_is_simplicial(size_red_t *sr, const ir_node *ifn) { + int i, o, size = 0; + ir_node **all, *curr; + be_ifg_t *ifg = sr->co->cenv->ifg; + void *iter = be_ifg_neighbours_iter_alloca(ifg); -/** - * Get position by number and color. - * returns -1 if not found. - */ -static INLINE int pi_get_pos(problem_instance_t *pi, int num, int col) { - num2pos_t find, *found; - find.num = num; - int pos; - found = set_find(pi->num2pos, &find, sizeof(find), HASH_NUM(num)); - if (!found) - return -1; - pos = found->pos; - while (pos < pi->x_dim && pi->x[pos].n == num && pi->x[pos].c < col) - pos++; - - if (pi->x[pos].n == num && pi->x[pos].c == col) - return pos; - else - return -1; -} + all = alloca(be_ifg_degree(ifg, ifn) * sizeof(*all)); -static INLINE FILE *ffopen(const char *base, const char *ext, const char *mode) { - FILE *out; - char buf[1024]; + /* get all non-removed neighbors */ + be_ifg_foreach_neighbour(ifg, iter, ifn, curr) + if (!sr_is_removed(sr, curr)) + all[size++] = curr; + be_ifg_neighbours_break(ifg, iter); - snprintf(buf, sizeof(buf), "%s.%s", base, ext); - if (! (out = fopen(buf, mode))) { - fprintf(stderr, "Cannot open file %s in mode %s\n", buf, mode); - assert(0); - } - return out; + /* check if these form a clique */ + for (i=0; iname, "matrix", "wt"); +void sr_remove(size_red_t *sr) { + ir_node *irn; + int redo = 1; + int n_nodes = 0; + const be_ifg_t *ifg = sr->co->cenv->ifg; + void *iter = be_ifg_nodes_iter_alloca(ifg); - DBG((dbg, LEVEL_1, "Dumping raw...\n")); - fprintf(out, "\n\nx-names =\n"); - for (i=0; ix_dim; ++i) - fprintf(out, "%5d %2d\n", pi->x[i].n, pi->x[i].c); + while (redo) { + redo = 0; + be_ifg_foreach_node(ifg, iter, irn) { + arch_register_req_t req; - fprintf(out, "\n\n-Q =\n"); - matrix_dump(pi->Q, out, -1); + arch_get_register_req(sr->co->aenv, &req, irn, -1); - fprintf(out, "\n\nA =\n"); - matrix_dump(pi->A, out, 1); + if (!arch_register_req_is(&req, limited) && !sr_is_removed(sr, irn) && !co_gs_is_optimizable(sr->co, irn)) { + if (sr_is_simplicial(sr, irn)) { + coloring_suffix_t *cs = obstack_alloc(&sr->ob, sizeof(*cs)); - fprintf(out, "\n\nB =\n"); - matrix_dump(pi->B, out, 1); + cs->irn = irn; + cs->next = sr->col_suff; + sr->col_suff = cs; - fclose(out); -} -#endif + pset_insert_ptr(sr->all_removed, irn); -#ifdef DUMP_LP -/** - * Dumps the problem instance as a MILP. The original problem is transformed into: - * min f = es - Mex - * udN: Qx -y -s +Me = 0 - * Ax = e - * Bx <= e - * y <= 2M(e-x) - * x \in N y, s >= 0 - * - * with M >= max sum Q'ij * x_j - * i j - */ -static void pi_dump_lp(problem_instance_t *pi) { - int i, max_abs_Qij; - matrix_elem_t *e; - FILE *out = ffopen(pi->name, "lpo", "wt"); - - DBG((dbg, LEVEL_1, "Dumping lp_org...\n")); - /* calc the big M for Q */ - max_abs_Qij = pi->maxQij; - if (-pi->minQij > max_abs_Qij) - max_abs_Qij = -pi->minQij; - pi->bigM = pi->A_dim * max_abs_Qij; - DBG((dbg, LEVEL_2, "BigM = %d\n", pi->bigM)); - - /* generate objective function */ - fprintf(out, "min: "); - for (i=0; ix_dim; ++i) - fprintf(out, "+s%d_%d -%dx%d_%d ", pi->x[i].n, pi->x[i].c, pi->bigM, pi->x[i].n, pi->x[i].c); - fprintf(out, ";\n\n"); - - /* constraints for former objective function */ - for (i=0; ix_dim; ++i) { - matrix_foreach_in_row(pi->Q, i, e) { - int Qio = e->val; - if (Qio == 1) - fprintf(out, "+x%d_%d ", pi->x[e->col].n, pi->x[e->col].c); - else if(Qio == -1) - fprintf(out, "-x%d_%d ", pi->x[e->col].n, pi->x[e->col].c); - else - fprintf(out, "%+dx%d_%d ", Qio, pi->x[e->col].n, pi->x[e->col].c); + redo = 1; + } + } } - fprintf(out, "-y%d_%d -s%d_%d +%d= 0;\n", pi->x[i].n, pi->x[i].c, pi->x[i].n, pi->x[i].c, pi->bigM); - } - fprintf(out, "\n\n"); - - /* constraints for (special) complementary condition */ - for (i=0; ix_dim; ++i) - fprintf(out, "y%d_%d <= %d - %dx%d_%d;\n", pi->x[i].n, pi->x[i].c, 2*pi->bigM, 2*pi->bigM, pi->x[i].n, pi->x[i].c); - fprintf(out, "\n\n"); - - /* knapsack constraints */ - for (i=0; iA_dim; ++i) { - matrix_foreach_in_row(pi->Q, i, e) - fprintf(out, "+x%d_%d ", pi->x[e->col].n, pi->x[e->col].c); - fprintf(out, " = 1;\n"); + be_ifg_nodes_break(ifg, iter); } - fprintf(out, "\n\n"); - - /* interference graph constraints */ - for (i=0; iB_dim; ++i) { - matrix_foreach_in_row(pi->Q, i, e) - fprintf(out, "+x%d_%d ", pi->x[e->col].n, pi->x[e->col].c); - fprintf(out, " <= 1;\n"); - } - fprintf(out, "\n\n"); - - /* integer constraints */ - fprintf(out, "int x%d_%d", pi->x[0].n, pi->x[0].c); - for (i=1; ix_dim; ++i) - fprintf(out, ", x%d_%d", pi->x[i].n, pi->x[i].c); - fprintf(out, ";\n"); - - fclose(out); } -#endif - -#ifdef DUMP_MPS -/** - * Dumps an mps file representing the problem. This is NOT the old-style, - * fixed-column format. Some white spaces are important, in general spaces - * are separators, MARKER-lines are used in COLUMN section to define binaries. - */ -//BETTER use last 2 fields in COLUMNS section -static void pi_dump_mps(problem_instance_t *pi) { - int i, max_abs_Qij; - matrix_elem_t *e; - FILE *out = ffopen(pi->name, "mps", "wt"); - - DBG((dbg, LEVEL_1, "Dumping mps...\n")); - max_abs_Qij = pi->maxQij; - if (-pi->minQij > max_abs_Qij) - max_abs_Qij = -pi->minQij; - pi->bigM = pi->A_dim * max_abs_Qij; - DBG((dbg, LEVEL_2, "BigM = %d\n", pi->bigM)); - - fprintf(out, "NAME %s\n", pi->name); - - fprintf(out, "ROWS\n"); - fprintf(out, " N obj\n"); - for (i=0; ix_dim; ++i) - fprintf(out, " E cQ%d\n", i); - for (i=0; iA_dim; ++i) - fprintf(out, " E cA%d\n", i); - for (i=0; iB_dim; ++i) - fprintf(out, " L cB%d\n", i); - for (i=0; ix_dim; ++i) - fprintf(out, " L cy%d\n", i); - - fprintf(out, "COLUMNS\n"); - /* the x vars come first */ - /* mark them as binaries */ - fprintf(out, " MARKI0\t'MARKER'\t'INTORG'\n"); -#ifdef USE_SOS - int sos_cnt = 0; - fprintf(out, " S1 SOS_%d\t'MARKER'\t'SOSORG'\n", sos_cnt++); -#endif - for (i=0; ix_dim; ++i) { -#ifdef USE_SOS - if (i>0 && pi->x[i].n != pi->x[i-1].n) { - fprintf(out, " SOS_%d\t'MARKER'\t'SOSEND'\n", sos_cnt++); - fprintf(out, " S1 SOS_%d\t'MARKER'\t'SOSORG'\n", sos_cnt++); - } -#endif - /* participation in objective */ - fprintf(out, " x%d_%d\tobj\t%d\n", pi->x[i].n, pi->x[i].c, -pi->bigM); - /* in Q */ - matrix_foreach_in_col(pi->Q, i, e) - fprintf(out, " x%d_%d\tcQ%d\t%d\n", pi->x[i].n, pi->x[i].c, e->row, e->val); - /* in A */ - matrix_foreach_in_col(pi->A, i, e) - fprintf(out, " x%d_%d\tcA%d\t%d\n", pi->x[i].n, pi->x[i].c, e->row, e->val); - /* in B */ - matrix_foreach_in_col(pi->B, i, e) - fprintf(out, " x%d_%d\tcB%d\t%d\n", pi->x[i].n, pi->x[i].c, e->row, e->val); - /* in y */ - fprintf(out, " x%d_%d\tcy%d\t%d\n", pi->x[i].n, pi->x[i].c, i, 2*pi->bigM); - } - -#ifdef USE_SOS - fprintf(out, " SOS_%d\t'MARKER'\t'SOSEND'\n", sos_cnt++); -#endif - fprintf(out, " MARKI1\t'MARKER'\t'INTEND'\n"); /* end of marking */ - - /* next the s vars */ - for (i=0; ix_dim; ++i) { - /* participation in objective */ - fprintf(out, " s%d_%d\tobj\t%d\n", pi->x[i].n, pi->x[i].c, 1); - /* in Q */ - fprintf(out, " s%d_%d\tcQ%d\t%d\n", pi->x[i].n, pi->x[i].c, i, -1); - } - /* next the y vars */ - for (i=0; ix_dim; ++i) { - /* in Q */ - fprintf(out, " y%d_%d\tcQ%d\t%d\n", pi->x[i].n, pi->x[i].c, i, -1); - /* in y */ - fprintf(out, " y%d_%d\tcy%d\t%d\n", pi->x[i].n, pi->x[i].c, i, 1); - } +void sr_reinsert(size_red_t *sr) { + coloring_suffix_t *cs; + be_ifg_t *ifg = sr->co->cenv->ifg; + bitset_t *used_cols = bitset_alloca(arch_register_class_n_regs(sr->co->cls)); + void *iter = be_ifg_neighbours_iter_alloca(ifg); - fprintf(out, "RHS\n"); - for (i=0; ix_dim; ++i) - fprintf(out, " rhs\tcQ%d\t%d\n", i, -pi->bigM); - for (i=0; iA_dim; ++i) - fprintf(out, " rhs\tcA%d\t%d\n", i, 1); - for (i=0; iB_dim; ++i) - fprintf(out, " rhs\tcB%d\t%d\n", i, 1); - for (i=0; ix_dim; ++i) - fprintf(out, " rhs\tcy%d\t%d\n", i, 2*pi->bigM); - - fprintf(out, "ENDATA\n"); - fclose(out); - - out = ffopen(pi->name, "mst", "wt"); - fprintf(out, "NAME\n"); - for (i=0; ix_dim; ++i) { - int val, n, c; - n = pi->x[i].n; - c = pi->x[i].c; - if (get_irn_color(get_irn_for_graph_nr(pi->irg, n)) == c) - val = 1; - else - val = 0; - fprintf(out, " x%d_%d\t%d\n", n, c, val); - } - fprintf(out, "ENDATA\n"); - fclose(out); -} -#endif + /* color the removed nodes in right order */ + for (cs = sr->col_suff; cs; cs = cs->next) { + int free_col; + ir_node *other, *irn; -#ifdef DO_SOLVE -/** - * Invoke an external solver - */ -static void pi_solve_ilp(problem_instance_t *pi) { - FILE *out; - - /* write command file for CPLEX */ - out = ffopen(pi->name, "cmd", "wt"); - fprintf(out, "read %s.mps\n", pi->name); - fprintf(out, "read %s.mst\n", pi->name); - fprintf(out, "set mip strategy mipstart 1\n"); - fprintf(out, "optimize\n"); - fprintf(out, "set logfile %s.sol\n", pi->name); - fprintf(out, "display solution variables 1-%d\n", pi->x_dim); - fprintf(out, "set logfile cplex.log\n"); - fprintf(out, "quit\n"); - fclose(out); - - /* write expect-file for copying problem to RZ */ - out = ffopen(EXPECT_FILENAME, "exp", "wt"); - fprintf(out, "#! /usr/bin/expect\n"); - fprintf(out, "spawn scp %s.mps %s.mst %s.cmd %s:\n", pi->name, pi->name, pi->name, SSH_USER_HOST_PATH); - fprintf(out, "expect \":\"\n"); - fprintf(out, "send \"%s\\n\"\n", SSH_PASSWD); - fprintf(out, "interact\n"); - - fprintf(out, "spawn ssh %s \"./cplex90 < %s.cmd\"\n", SSH_USER_HOST_PATH, pi->name); - fprintf(out, "expect \":\"\n"); - fprintf(out, "send \"%s\\n\"\n", SSH_PASSWD); - fprintf(out, "interact\n"); - - fprintf(out, "spawn scp %s:%s.sol .\n", SSH_USER_HOST_PATH, pi->name); - fprintf(out, "expect \":\"\n"); - fprintf(out, "send \"%s\\n\"\n", SSH_PASSWD); - fprintf(out, "interact\n"); - fclose(out); - - /* call the expect script */ - chmod(EXPECT_FILENAME ".exp", 0700); - system(EXPECT_FILENAME ".exp"); -} + /* get free color by inspecting all neighbors */ + irn = cs->irn; + bitset_clear_all(used_cols); -/** - * Sets the colors of irns according to the values of variables found in the - * output file of the solver. - */ -static void pi_apply_solution(problem_instance_t *pi) { - FILE *in = ffopen(pi->name, "sol", "rt"); - - if (!in) - return; - DBG((dbg, LEVEL_1, "Applying solution...\n")); - while (!feof(in)) { - char buf[1024]; - int num = -1, col = -1, val = -1; - if (fscanf(in, "x%d_%d %d.%s\n", &num, &col, &val, buf) != 3) { - while(fscanf(in, "%1020s\n", buf) != 1); - continue; + be_ifg_foreach_neighbour(ifg, iter, irn, other) { + if (!sr_is_removed(sr, other)) /* only inspect nodes which are in graph right now */ + bitset_set(used_cols, get_irn_col(sr->co, other)); } - if (val == 1) { - DBG((dbg, LEVEL_1, "x%d_%d = %d\n", num, col, val)); - set_irn_color(get_irn_for_graph_nr(pi->irg, num), col); - } - } - fclose(in); -} -#endif /* DO_SOLVE */ - -#ifdef DELETE_FILES -static void pi_delete_files(problem_instance_t *pi) { - char buf[1024]; - int end = snprintf(buf, sizeof(buf), "%s", pi->name); -#ifdef DUMP_MATRICES - snprintf(buf+end, sizeof(buf)-end, ".matrix"); - remove(buf); -#endif -#ifdef DUMP_MPS - snprintf(buf+end, sizeof(buf)-end, ".mps"); - remove(buf); - snprintf(buf+end, sizeof(buf)-end, ".mst"); - remove(buf); - snprintf(buf+end, sizeof(buf)-end, ".cmd"); - remove(buf); - remove(EXPECT_FILENAME ".exp"); -#endif -#ifdef DUMP_LP - snprintf(buf+end, sizeof(buf)-end, ".lp"); - remove(buf); -#endif -} -#endif + be_ifg_neighbours_break(ifg, iter); -/** - * Collects all irns in currently processed register class - */ -static void pi_collect_x_names(ir_node *block, void *env) { - problem_instance_t *pi = env; - struct list_head *head = &get_ra_block_info(block)->border_head; - border_t *curr; - - list_for_each_entry_reverse(border_t, curr, head, list) - if (curr->is_def && curr->is_real) { - x_name_t xx; - pi->A_dim++; /* one knapsack constraint for each node */ - - xx.n = get_irn_graph_nr(curr->irn); - pi_set_first_pos(pi, xx.n, pi->x_dim); - //TODO iterate over all possible colors !!MUST BE IN ORDER!! - for (xx.c=0; xx.cirn, xx.c)); - obstack_grow(&pi->ob, &xx, sizeof(xx)); - pi->x_dim++; /* one x variable for each node and color */ - } - } + /* now all bits not set are possible colors */ + free_col = bitset_next_clear(used_cols, 0); + assert(free_col != -1 && "No free color found. This can not be."); + set_irn_col(sr->co, irn, free_col); + pset_remove_ptr(sr->all_removed, irn); /* irn is back in graph again */ + } } -/** - * Checks if all nodes in living are live_out in block block. - */ -static INLINE int all_live_out(ir_node *block, pset *living) { - ir_node *n; - for (n = pset_first(living); n; n = pset_next(living)) - if (!is_live_out(block, n)) { - pset_break(living); - return 0; - } - return 1; +void free_size_red(size_red_t *sr) { + del_pset(sr->all_removed); + obstack_free(&sr->ob, NULL); + free(sr); } -/** - * Finds cliques in the interference graph, considering only nodes - * for which the color pi->curr_color is possible. Finds only 'maximal-cliques', - * viz cliques which are not conatained in another one. - * This is used for the matrix B. - */ -static void pi_clique_finder(ir_node *block, void *env) { - problem_instance_t *pi = env; - enum phase_t {growing, shrinking} phase = growing; - struct list_head *head = &get_ra_block_info(block)->border_head; - border_t *b; - pset *living = pset_new_ptr(SLOTS_LIVING); - - list_for_each_entry_reverse(border_t, b, head, list) { - const ir_node *irn = b->irn; - if (!is_possible_color(n, pi->curr_col)) - continue; - - if (b->is_def) { - DBG((dbg, LEVEL_2, "Def %n\n", irn)); - pset_insert_ptr(living, irn); - phase = growing; - } else { /* is_use */ - DBG((dbg, LEVEL_2, "Use %n\n", irn)); - - /* before shrinking the set, store the current 'maximum' clique; - * do NOT if clique is a single node - * do NOT if all values are live_out */ - if (phase == growing && pset_count(living) >= 2 && !all_live_out(block, living)) { - ir_node *n; - for (n = pset_first(living); n; n = pset_next(living)) { - int pos = pi_get_pos(pi, get_irn_graph_nr(n), pi->curr_color); - matrix_set(pi->B, pi->curr_row, pos, 1); - DBG((dbg, LEVEL_2, "B[%d, %d] := %d\n", pi->curr_row, pos, 1)); - } - pi->curr_row++; - } - pset_remove_ptr(living, irn); - phase = shrinking; - } - } +/****************************************************************************** + _____ _ _____ _ _____ + / ____| (_) |_ _| | | __ \ + | | __ ___ _ __ ___ _ __ _ ___ | | | | | |__) | + | | |_ |/ _ \ '_ \ / _ \ '__| |/ __| | | | | | ___/ + | |__| | __/ | | | __/ | | | (__ _| |_| |____| | + \_____|\___|_| |_|\___|_| |_|\___| |_____|______|_| - del_pset(living); -} + *****************************************************************************/ -/** - * Generate the initial problem matrices and vectors. - */ -static problem_instance_t *new_pi(const copy_opt_t *co) { - DBG((dbg, LEVEL_1, "Generating new instance...\n")); - problem_instance_t *pi = calloc(1, sizeof(*pi)); - pi->irg = co->irg; - pi->name = get_entity_name(get_irg_entity(co->irg)); - pi->num2pos = new_set(set_cmp_num2pos, SLOTS_NUM2POS); - pi->bigM = 1; - - /* Vector x - * one entry per node and possible color */ - obstack_init(&pi->ob); - dom_tree_walk_irg(co->irg, pi_collect_x_names, NULL, &pi->ob); - pi->x = obstack_finish(&pi->ob); - - /* Matrix Q - * weights for the 'same-color-optimization' target */ - { - unit_t *curr; - pi->Q = new_matrix(pi->x_dim, pi->x_dim); - - list_for_each_entry(unit_t, curr, &co->units, units) { - const ir_node *root, *arg; - int rootnr, argnr; - unsigned rootpos, argpos; - int i; - - root = curr->nodes[0]; - rootnr = get_irn_graph_nr(root); - rootpos = pi_get_first_pos(pi, rootnr); - for (i = 1; i < curr->node_count; ++i) { - int weight = -get_weight(root, arg); - arg = curr->nodes[i]; - argnr = get_irn_graph_nr(arg); - argpos = pi_get_first_pos(pi, argnr); - - DBG((dbg, LEVEL_2, "Q[%n, %n] := %d\n", root, arg, weight)); - /* for all colors root and arg have in common, set the weight for - * this pair in the objective function matrix Q */ - while (rootpos < pi->x_dim && argpos < pi->x_dim && - pi->x[rootpos].n == rootnr && pi->x[argpos].n == argnr) { - if (pi->x[rootpos].c < pi->x[argpos].c) - ++rootpos; - else if (pi->x[rootpos].c > pi->x[argpos].c) - ++argpos; - else { - matrix_set(pi->Q, rootpos++, argpos++, weight); - - if (weight < pi->minQij) { - DBG((dbg, LEVEL_2, "minQij = %d\n", weight)); - pi->minQij = weight; - } - if (weight > pi->maxQij) { - DBG((dbg, LEVEL_2, "maxQij = %d\n", weight)); - pi->maxQij = weight; - } - } - } - } - } - } +#include - /* Matrix A - * knapsack constraint for each node */ - { - int row = 0, col = 0; - pi->A = new_matrix(pi->A_dim, pi->x_dim); - while (col < pi->x_dim) { - int curr_n = pi->x[col].n; - while (col < pi->x_dim && pi->x[col].n == curr_n) { - DBG((dbg, LEVEL_2, "A[%d, %d] := %d\n", row, col, 1)); - matrix_set(pi->A, row, col++, 1); - } - ++row; - } - assert(row == pi->A_dim); - } +ilp_env_t *new_ilp_env(copy_opt_t *co, ilp_callback build, ilp_callback apply, void *env) { + ilp_env_t *res = xmalloc(sizeof(*res)); + assert(res); - /* Matrix B - * interference constraints using exactly those cliques not contained in others. */ - { - int color, expected_clipques = pi->A_dim/3 * MAX_COLORS; - pi->B = new_matrix(expected_clipques, pi->x_dim); - for (color = 0; color < MAX_COLORS; ++color) { - pi->curr_color = color; - dom_tree_walk_irg(pi->irg, pi_clique_finder, NULL, pi); - } - pi->B_dim = matrix_get_rowcount(pi->B); - } + res->co = co; + res->build = build; + res->apply = apply; + res->env = env; + res->sr = new_size_red(co); - return pi; + return res; } -/** - * clean the problem instance - */ -static void free_pi(problem_instance_t *pi) { - del_matrix(pi->Q); - del_matrix(pi->A); - del_matrix(pi->B); - del_set(pi->num2pos); - obstack_free(&pi->ob, NULL); - free(pi); -} +lpp_sol_state_t ilp_go(ilp_env_t *ienv) { + FILE *f; + char buf[256]; + be_main_env_t *main_env = ienv->co->cenv->birg->main_env; -void co_ilp_opt(copy_opt_t *co) { - dbg = firm_dbg_register("ir.be.copyoptilp"); - firm_dbg_set_mask(dbg, DEBUG_LVL); + sr_remove(ienv->sr); - problem_instance_t *pi = new_pi(co); + ienv->build(ienv); -#ifdef DUMP_MATRICES - pi_dump_matrices(pi); +#ifdef LPP_SOLVE_NET + lpp_solve_net(ienv->lp, main_env->options->ilp_server, main_env->options->ilp_solver); +#else + lpp_solve_cplex(ienv->lp); #endif -#ifdef DUMP_LP - pi_dump_lp(pi); -#endif + snprintf(buf, sizeof(buf), "%s.ilp", ienv->co->name); + f = fopen(buf, "wt"); + lpp_dump_plain(ienv->lp, f); + fclose(f); -#ifdef DUMP_MPS - pi_dump_mps(pi); -#endif + ienv->apply(ienv); -#ifdef DO_SOLVE - pi_solve_ilp(pi); - pi_apply_solution(pi); -#endif + sr_reinsert(ienv->sr); -#ifdef DELETE_FILES - pi_delete_files(pi); -#endif + return lpp_get_sol_state(ienv->lp); +} + +void free_ilp_env(ilp_env_t *ienv) { + free_size_red(ienv->sr); + free_lpp(ienv->lp); + free(ienv); +} + +#else /* WITH_ILP */ - free_pi(pi); +static void only_that_you_can_compile_without_WITH_ILP_defined(void) { } + +#endif /* WITH_ILP */