X-Git-Url: http://nsz.repo.hu/git/?a=blobdiff_plain;f=ir%2Fbe%2Fbeabihelper.c;h=0aec1415257573832747341a99cc06f999d434db;hb=6f068af98daa4725d60e5d23a8f98ec2841cfa44;hp=e6d592867a91126a0ac59ac89ddc00ac7d6758e9;hpb=e086f5c2a79020ff404656713c348f8d30244b7c;p=libfirm diff --git a/ir/be/beabihelper.c b/ir/be/beabihelper.c index e6d592867..0aec14152 100644 --- a/ir/be/beabihelper.c +++ b/ir/be/beabihelper.c @@ -34,63 +34,86 @@ #include "iredges.h" #include "irgwalk.h" #include "irphase_t.h" -#include "height.h" +#include "heights.h" +/** + * An entry in the register state map. + */ typedef struct reg_flag_t { - const arch_register_t *reg; /**< register at an input position. - may be NULL in case of memory input */ - arch_irn_flags_t flags; + const arch_register_t *reg; /**< register at an input position. + may be NULL in case of memory input */ + arch_register_req_type_t flags; /**< requirement flags for this register. */ } reg_flag_t; /** * A register state mapping keeps track of the symbol values (=firm nodes) - * to registers. This is usefull when constructing straight line code - * which like the function prolog or epilog in some architectures. + * to registers. This is useful when constructing straight line code + * like the function prolog or epilog in some architectures. */ typedef struct register_state_mapping_t { ir_node **value_map; /**< mapping of state indices to values */ - int **reg_index_map; /**< mapping of regclass,regnum to an index + size_t **reg_index_map; /**< mapping of regclass,regnum to an index into the value_map */ reg_flag_t *regs; /**< registers (and memory values) that form a state */ - ir_node *last_barrier; } register_state_mapping_t; +/** + * The environment for all helper functions. + */ struct beabi_helper_env_t { - ir_graph *irg; - register_state_mapping_t prolog; - register_state_mapping_t epilog; - ir_phase *stack_order; + ir_graph *irg; /**< the graph we operate on */ + register_state_mapping_t prolog; /**< the register state map for the prolog */ + register_state_mapping_t epilog; /**< the register state map for the epilog */ + ir_phase *stack_order; /**< a phase to handle stack dependencies. */ }; +/** + * Create a new empty register state map for the given + * architecture. + * + * @param rsm the register state map to be initialized + * @param arch_env the architecture environment + * + * After this call, the register map is initialized to empty. + */ static void prepare_rsm(register_state_mapping_t *rsm, const arch_env_t *arch_env) { - unsigned n_reg_classes = arch_env_get_n_reg_class(arch_env); + unsigned n_reg_classes = arch_env->n_register_classes; unsigned c; - reg_flag_t memory = { NULL, 0 }; + reg_flag_t memory = { NULL, arch_register_req_type_none }; rsm->regs = NEW_ARR_F(reg_flag_t, 0); /* memory input at 0 */ ARR_APP1(reg_flag_t, rsm->regs, memory); rsm->value_map = NULL; - rsm->reg_index_map = XMALLOCN(int*, n_reg_classes); + rsm->reg_index_map = XMALLOCN(size_t*, n_reg_classes); for (c = 0; c < n_reg_classes; ++c) { - const arch_register_class_t *cls = arch_env_get_reg_class(arch_env, c); + const arch_register_class_t *cls = &arch_env->register_classes[c]; unsigned n_regs = arch_register_class_n_regs(cls); unsigned r; - rsm->reg_index_map[c] = XMALLOCN(int, n_regs); + rsm->reg_index_map[c] = XMALLOCN(size_t, n_regs); for (r = 0; r < n_regs; ++r) { - rsm->reg_index_map[c][r] = -1; + rsm->reg_index_map[c][r] = (size_t)-1; } } } +/** + * Destroy a register state map for the given + * architecture. + * + * @param rsm the register state map to be destroyed + * @param arch_env the architecture environment + * + * After this call, the register map is initialized to empty. + */ static void free_rsm(register_state_mapping_t *rsm, const arch_env_t *arch_env) { - unsigned n_reg_classes = arch_env_get_n_reg_class(arch_env); + unsigned n_reg_classes = arch_env->n_register_classes; unsigned c; for (c = 0; c < n_reg_classes; ++c) { @@ -107,20 +130,26 @@ static void free_rsm(register_state_mapping_t *rsm, const arch_env_t *arch_env) rsm->value_map = NULL; } +/** + * Remove all registers from a register state map. + * + * @param rsm the register state map to be destroyed + * @param arch_env the architecture environment + */ static void rsm_clear_regs(register_state_mapping_t *rsm, const arch_env_t *arch_env) { - unsigned n_reg_classes = arch_env_get_n_reg_class(arch_env); + unsigned n_reg_classes = arch_env->n_register_classes; unsigned c; - reg_flag_t memory = { NULL, 0 }; + reg_flag_t memory = { NULL, arch_register_req_type_none }; for (c = 0; c < n_reg_classes; ++c) { - const arch_register_class_t *cls = arch_env_get_reg_class(arch_env, c); + const arch_register_class_t *cls = &arch_env->register_classes[c]; unsigned n_regs = arch_register_class_n_regs(cls); unsigned r; for (r = 0; r < n_regs; ++r) { - rsm->reg_index_map[c][r] = -1; + rsm->reg_index_map[c][r] = (size_t)-1; } } ARR_RESIZE(reg_flag_t, rsm->regs, 0); @@ -132,88 +161,75 @@ static void rsm_clear_regs(register_state_mapping_t *rsm, } } -static void rsm_add_reg(register_state_mapping_t *rsm, - const arch_register_t *reg, arch_irn_flags_t flags) +/** + * Add a register and its constraint flags to a register state map + * and return its index inside the map. + */ +static size_t rsm_add_reg(register_state_mapping_t *rsm, + const arch_register_t *reg, + arch_register_req_type_t flags) { - int input_idx = ARR_LEN(rsm->regs); + size_t input_idx = ARR_LEN(rsm->regs); int cls_idx = reg->reg_class->index; int reg_idx = reg->index; reg_flag_t regflag = { reg, flags }; /* we must not have used get_value yet */ - assert(rsm->reg_index_map[cls_idx][reg_idx] == -1); + assert(rsm->reg_index_map[cls_idx][reg_idx] == (size_t)-1); rsm->reg_index_map[cls_idx][reg_idx] = input_idx; ARR_APP1(reg_flag_t, rsm->regs, regflag); -} + if (rsm->value_map != NULL) { + ARR_APP1(ir_node*, rsm->value_map, NULL); + assert(ARR_LEN(rsm->value_map) == ARR_LEN(rsm->regs)); + } + return input_idx; +} -static ir_node *rsm_get_value(register_state_mapping_t *rsm, int index) +/** + * Retrieve the ir_node stored at the given index in the register state map. + */ +static ir_node *rsm_get_value(register_state_mapping_t *rsm, size_t index) { assert(index < ARR_LEN(rsm->value_map)); return rsm->value_map[index]; } +/** + * Retrieve the ir_node occupying the given register in the register state map. + */ static ir_node *rsm_get_reg_value(register_state_mapping_t *rsm, const arch_register_t *reg) { - int cls_idx = reg->reg_class->index; - int reg_idx = reg->index; - int input_idx = rsm->reg_index_map[cls_idx][reg_idx]; + int cls_idx = reg->reg_class->index; + int reg_idx = reg->index; + size_t input_idx = rsm->reg_index_map[cls_idx][reg_idx]; return rsm_get_value(rsm, input_idx); } -static void rsm_set_value(register_state_mapping_t *rsm, int index, +/** + * Enter a ir_node at the given index in the register state map. + */ +static void rsm_set_value(register_state_mapping_t *rsm, size_t index, ir_node *value) { assert(index < ARR_LEN(rsm->value_map)); rsm->value_map[index] = value; } +/** + * Enter a ir_node at the given register in the register state map. + */ static void rsm_set_reg_value(register_state_mapping_t *rsm, const arch_register_t *reg, ir_node *value) { - int cls_idx = reg->reg_class->index; - int reg_idx = reg->index; - int input_idx = rsm->reg_index_map[cls_idx][reg_idx]; + int cls_idx = reg->reg_class->index; + int reg_idx = reg->index; + size_t input_idx = rsm->reg_index_map[cls_idx][reg_idx]; rsm_set_value(rsm, input_idx, value); } -static ir_node *rsm_create_barrier(register_state_mapping_t *rsm, - ir_node *block) -{ - int n_barrier_outs = ARR_LEN(rsm->regs); - ir_node **in = rsm->value_map; - ir_node *barrier; - int o; - - assert(ARR_LEN(rsm->value_map) == n_barrier_outs); - - barrier = be_new_Barrier(block, n_barrier_outs, in); - - for (o = 0; o < n_barrier_outs; ++o) { - const reg_flag_t *regflag = &rsm->regs[o]; - const arch_register_t *reg = regflag->reg; - ir_node *proj; - if (reg == NULL) { - arch_set_out_register_req(barrier, o, arch_no_register_req); - proj = new_r_Proj(barrier, mode_M, o); - } else { - be_set_constr_single_reg_in(barrier, o, reg, 0); - be_set_constr_single_reg_out(barrier, o, reg, regflag->flags); - proj = new_r_Proj(barrier, reg->reg_class->mode, o); - } - rsm->value_map[o] = proj; - } - - rsm->last_barrier = barrier; - - return barrier; -} - - - - beabi_helper_env_t *be_abihelper_prepare(ir_graph *irg) { @@ -235,11 +251,11 @@ void be_abihelper_finish(beabi_helper_env_t *env) if (env->epilog.reg_index_map != NULL) { free_rsm(&env->epilog, arch_env); } - free(env); + xfree(env); } void be_prolog_add_reg(beabi_helper_env_t *env, const arch_register_t *reg, - arch_irn_flags_t flags) + arch_register_req_type_t flags) { rsm_add_reg(&env->prolog, reg, flags); } @@ -270,18 +286,9 @@ ir_node *be_prolog_create_start(beabi_helper_env_t *env, dbg_info *dbgi, env->prolog.value_map[o] = proj; } - /* start node should really be the first thing constructed */ - assert(env->prolog.last_barrier == NULL); - env->prolog.last_barrier = start; - return start; } -ir_node *be_prolog_create_barrier(beabi_helper_env_t *env, ir_node *block) -{ - return rsm_create_barrier(&env->prolog, block); -} - ir_node *be_prolog_get_reg_value(beabi_helper_env_t *env, const arch_register_t *reg) { @@ -315,10 +322,10 @@ void be_epilog_begin(beabi_helper_env_t *env) } void be_epilog_add_reg(beabi_helper_env_t *env, const arch_register_t *reg, - arch_irn_flags_t flags, ir_node *value) + arch_register_req_type_t flags, ir_node *value) { - rsm_add_reg(&env->epilog, reg, flags); - ARR_APP1(ir_node*, env->epilog.value_map, value); + size_t index = rsm_add_reg(&env->epilog, reg, flags); + rsm_set_value(&env->epilog, index, value); } void be_epilog_set_reg_value(beabi_helper_env_t *env, @@ -343,19 +350,14 @@ ir_node *be_epilog_get_memory(beabi_helper_env_t *env) return rsm_get_value(&env->epilog, 0); } -ir_node *be_epilog_create_barrier(beabi_helper_env_t *env, ir_node *block) -{ - return rsm_create_barrier(&env->epilog, block); -} - ir_node *be_epilog_create_return(beabi_helper_env_t *env, dbg_info *dbgi, ir_node *block) { - int n_return_in = ARR_LEN(env->epilog.regs); + size_t n_return_in = ARR_LEN(env->epilog.regs); ir_node **in = env->epilog.value_map; int n_res = 1; /* TODO */ unsigned pop = 0; /* TODO */ - int i; + size_t i; ir_node *ret; assert(ARR_LEN(env->epilog.value_map) == n_return_in); @@ -366,77 +368,121 @@ ir_node *be_epilog_create_return(beabi_helper_env_t *env, dbg_info *dbgi, const reg_flag_t *regflag = &env->epilog.regs[i]; const arch_register_t *reg = regflag->reg; if (reg != NULL) { - be_set_constr_single_reg_in(ret, i, reg, 0); + be_set_constr_single_reg_in(ret, i, reg, + arch_register_req_type_none); } } rsm_clear_regs(&env->epilog, be_get_irg_arch_env(env->irg)); - env->epilog.last_barrier = NULL; return ret; } +/** + * Tests whether a node has a real user and is not just kept by the End or + * Anchor node + */ +static bool has_real_user(const ir_node *node) +{ + const ir_edge_t *edge; + foreach_out_edge(node, edge) { + ir_node *user = get_edge_src_irn(edge); + if (!is_End(user) && !is_Anchor(user)) + return true; + } + return false; +} + +static ir_node *add_to_keep(ir_node *last_keep, + const arch_register_class_t *cls, ir_node *node) +{ + const ir_node *op; + if (last_keep != NULL) { + be_Keep_add_node(last_keep, cls, node); + } else { + ir_node *in[1] = { node }; + ir_node *block = get_nodes_block(node); + ir_node *schedpoint; + last_keep = be_new_Keep(block, 1, in); + + schedpoint = skip_Proj(node); + if (sched_is_scheduled(schedpoint)) { + sched_add_after(schedpoint, last_keep); + } + } + op = skip_Proj_const(node); + return last_keep; +} + static void add_missing_keep_walker(ir_node *node, void *data) { int n_outs, i; - unsigned found_projs = 0; + unsigned *found_projs; const ir_edge_t *edge; ir_mode *mode = get_irn_mode(node); ir_node *last_keep; + ir_node **existing_projs; (void) data; - if (mode != mode_T) + if (mode != mode_T) { + if (!has_real_user(node)) { + const arch_register_req_t *req = arch_get_register_req_out(node); + const arch_register_class_t *cls = req->cls; + if (cls == NULL + || (cls->flags & arch_register_class_flag_manual_ra)) { + return; + } + + add_to_keep(NULL, cls, node); + } return; + } n_outs = arch_irn_get_n_outs(node); if (n_outs <= 0) return; - assert(n_outs < (int) sizeof(unsigned) * 8); + rbitset_alloca(found_projs, n_outs); + existing_projs = ALLOCANZ(ir_node*, n_outs); foreach_out_edge(node, edge) { - ir_node *node = get_edge_src_irn(edge); + ir_node *succ = get_edge_src_irn(edge); + ir_mode *mode = get_irn_mode(succ); int pn; /* The node could be kept */ - if (is_End(node) || is_Anchor(node)) + if (is_End(succ) || is_Anchor(succ)) continue; - - if (get_irn_mode(node) == mode_M) + if (mode == mode_M || mode == mode_X) + continue; + pn = get_Proj_proj(succ); + existing_projs[pn] = succ; + if (!has_real_user(succ)) continue; - pn = get_Proj_proj(node); assert(pn < n_outs); - found_projs |= 1 << pn; + rbitset_set(found_projs, pn); } - /* are keeps missing? */ last_keep = NULL; for (i = 0; i < n_outs; ++i) { - ir_node *block; - ir_node *in[1]; + ir_node *value; const arch_register_req_t *req; const arch_register_class_t *cls; - if (found_projs & (1 << i)) { + if (rbitset_is_set(found_projs, i)) { continue; } req = arch_get_out_register_req(node, i); cls = req->cls; - if (cls == NULL) { + if (cls == NULL || (cls->flags & arch_register_class_flag_manual_ra)) { continue; } - block = get_nodes_block(node); - in[0] = new_r_Proj(node, arch_register_class_mode(cls), i); - if (last_keep != NULL) { - be_Keep_add_node(last_keep, cls, in[0]); - } else { - last_keep = be_new_Keep(block, 1, in); - if (sched_is_scheduled(node)) { - sched_add_after(node, last_keep); - } - } + value = existing_projs[i]; + if (value == NULL) + value = new_r_Proj(node, arch_register_class_mode(cls), i); + last_keep = add_to_keep(last_keep, cls, value); } } @@ -446,16 +492,21 @@ void be_add_missing_keeps(ir_graph *irg) } - +/** + * Link the node into its block list as a new head. + */ static void collect_node(ir_node *node) { ir_node *block = get_nodes_block(node); - ir_node *old = get_irn_link(block); + ir_node *old = (ir_node*)get_irn_link(block); set_irn_link(node, old); set_irn_link(block, node); } +/** + * Post-walker: link all nodes that probably access the stack into lists of their block. + */ static void link_ops_in_block_walker(ir_node *node, void *data) { (void) data; @@ -476,11 +527,12 @@ static void link_ops_in_block_walker(ir_node *node, void *data) break; case iro_Builtin: if (get_Builtin_kind(node) == ir_bk_return_address) { - ir_node *param = get_Builtin_param(node, 0); - tarval *tv = get_Const_tarval(param); /* must be Const */ - long value = get_tarval_long(tv); + ir_node *param = get_Builtin_param(node, 0); + ir_tarval *tv = get_Const_tarval(param); /* must be Const */ + long value = get_tarval_long(tv); if (value > 0) { - /* we need esp for the climbframe algo */ + /* not the return address of the current function: + * we need the stack pointer for the frame climbing */ collect_node(node); } } @@ -490,7 +542,7 @@ static void link_ops_in_block_walker(ir_node *node, void *data) } } -static heights_t *heights; +static ir_heights_t *heights; /** * Check if a node is somehow data dependent on another one. @@ -506,17 +558,18 @@ static int dependent_on(const ir_node *n1, const ir_node *n2) return heights_reachable_in_block(heights, n1, n2); } +/** + * Classical qsort() comparison function behavior: + * + * 0 if both elements are equal, no node depend on the other + * +1 if first depends on second (first is greater) + * -1 if second depends on first (second is greater) +*/ static int cmp_call_dependency(const void *c1, const void *c2) { const ir_node *n1 = *(const ir_node **) c1; const ir_node *n2 = *(const ir_node **) c2; - /* - Classical qsort() comparison function behavior: - 0 if both elements are equal - 1 if second is "smaller" that first - -1 if first is "smaller" that second - */ if (dependent_on(n1, n2)) return 1; @@ -528,16 +581,20 @@ static int cmp_call_dependency(const void *c1, const void *c2) return get_irn_idx(n2) - get_irn_idx(n1); } +/** + * Block-walker: sorts dependencies and remember them into a phase + */ static void process_ops_in_block(ir_node *block, void *data) { - ir_phase *phase = data; + ir_phase *phase = (ir_phase*)data; unsigned n; unsigned n_nodes; ir_node *node; ir_node **nodes; n_nodes = 0; - for (node = get_irn_link(block); node != NULL; node = get_irn_link(node)) { + for (node = (ir_node*)get_irn_link(block); node != NULL; + node = (ir_node*)get_irn_link(node)) { ++n_nodes; } @@ -546,30 +603,37 @@ static void process_ops_in_block(ir_node *block, void *data) nodes = XMALLOCN(ir_node*, n_nodes); n = 0; - for (node = get_irn_link(block); node != NULL; node = get_irn_link(node)) { - nodes[n++] = node;; + for (node = (ir_node*)get_irn_link(block); node != NULL; + node = (ir_node*)get_irn_link(node)) { + nodes[n++] = node; } assert(n == n_nodes); /* order nodes according to their data dependencies */ qsort(nodes, n_nodes, sizeof(nodes[0]), cmp_call_dependency); + /* remember the calculated dependency into a phase */ for (n = n_nodes-1; n > 0; --n) { ir_node *node = nodes[n]; ir_node *pred = nodes[n-1]; phase_set_irn_data(phase, node, pred); } + xfree(nodes); } void be_collect_stacknodes(beabi_helper_env_t *env) { ir_graph *irg = env->irg; + + /* collect all potential^stack accessing nodes */ irg_walk_graph(irg, firm_clear_link, link_ops_in_block_walker, NULL); assert(env->stack_order == NULL); env->stack_order = new_phase(irg, phase_irn_init_default); + /* use heights to create a total order for those nodes: this order is stored + * in the created phase */ heights = heights_new(irg); irg_block_walk_graph(irg, NULL, process_ops_in_block, env->stack_order); heights_free(heights); @@ -577,5 +641,5 @@ void be_collect_stacknodes(beabi_helper_env_t *env) ir_node *be_get_stack_pred(const beabi_helper_env_t *env, const ir_node *node) { - return phase_get_irn_data(env->stack_order, node); + return (ir_node*)phase_get_irn_data(env->stack_order, node); }