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[/] [or1k_old/] [trunk/] [gdb-5.3/] [sim/] [igen/] [ld-insn.c] - Rev 1765
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/* The IGEN simulator generator for GDB, the GNU Debugger. Copyright 2002 Free Software Foundation, Inc. Contributed by Andrew Cagney. This file is part of GDB. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "misc.h" #include "lf.h" #include "table.h" #include "filter.h" #include "igen.h" #include "ld-insn.h" static insn_word_entry * parse_insn_word (line_ref *line, char *string, int word_nr) { char *chp; insn_word_entry *word = ZALLOC (insn_word_entry); /* create a leading sentinal */ word->first = ZALLOC (insn_field_entry); word->first->first = -1; word->first->last = -1; word->first->width = 0; /* and a trailing sentinal */ word->last = ZALLOC (insn_field_entry); word->last->first = options.insn_bit_size; word->last->last = options.insn_bit_size; word->last->width = 0; /* link them together */ word->first->next = word->last; word->last->prev = word->first; /* now work through the formats */ chp = skip_spaces (string); while (*chp != '\0') { char *start_pos; int strlen_pos; char *start_val; int strlen_val; insn_field_entry *new_field; /* create / link in the new field */ new_field = ZALLOC (insn_field_entry); new_field->next = word->last; new_field->prev = word->last->prev; new_field->next->prev = new_field; new_field->prev->next = new_field; new_field->word_nr = word_nr; /* break out the first field (if present) */ start_pos = chp; chp = skip_to_separator (chp, ".,!"); strlen_pos = back_spaces (start_pos, chp) - start_pos; /* break out the second field (if present) */ if (*chp != '.') { /* assume what was specified was the value (and not the start position). Assume the value length implicitly specifies the number of bits */ start_val = start_pos; strlen_val = strlen_pos; start_pos = ""; strlen_pos = 0; } else { chp++; /* skip `.' */ chp = skip_spaces (chp); start_val = chp; if (*chp == '/' || *chp == '*') { do { chp++; } while (*chp == '/' || *chp == '*'); } else if (isalpha (*start_val)) { do { chp++; } while (isalnum (*chp) || *chp == '_'); } else if (isdigit (*start_val)) { do { chp++; } while (isalnum (*chp)); } strlen_val = chp - start_val; chp = skip_spaces (chp); } if (strlen_val == 0) error (line, "Empty value field\n"); /* break out any conditional fields - { [ "!" | "=" [ <value> | <field-name> } */ while (*chp == '!' || *chp == '=') { char *start; char *end; int len; insn_field_cond *new_cond = ZALLOC (insn_field_cond); /* determine the conditional test */ switch (*chp) { case '=': new_cond->test = insn_field_cond_eq; break; case '!': new_cond->test = insn_field_cond_ne; break; default: ASSERT (0); } /* save the value */ chp++; chp = skip_spaces (chp); start = chp; chp = skip_to_separator (chp, "+,:!="); end = back_spaces (start, chp); len = end - start; if (len == 0) error (line, "Missing or invalid conditional value\n"); new_cond->string = NZALLOC (char, len + 1); strncpy (new_cond->string, start, len); /* determine the conditional type */ if (isdigit (*start)) { /* [ "!" | "=" ] <value> */ new_cond->type = insn_field_cond_value; new_cond->value = a2i (new_cond->string); } else { /* [ "!" | "=" ] <field> - check field valid */ new_cond->type = insn_field_cond_field; /* new_cond->field is determined in later */ } /* Only a single `=' is permitted. */ if ((new_cond->test == insn_field_cond_eq && new_field->conditions != NULL) || (new_field->conditions != NULL && new_field->conditions->test == insn_field_cond_eq)) error (line, "Only single conditional when `=' allowed\n"); /* insert it */ { insn_field_cond **last = &new_field->conditions; while (*last != NULL) last = &(*last)->next; *last = new_cond; } } /* NOW verify that the field was finished */ if (*chp == ',') { chp = skip_spaces (chp + 1); if (*chp == '\0') error (line, "empty field\n"); } else if (*chp != '\0') { error (line, "Missing field separator\n"); } /* copy the value */ new_field->val_string = NZALLOC (char, strlen_val + 1); strncpy (new_field->val_string, start_val, strlen_val); if (isdigit (new_field->val_string[0])) { if (strlen_pos == 0) { /* when the length/pos field is omited, an integer field is always binary */ unsigned64 val = 0; int i; for (i = 0; i < strlen_val; i++) { if (new_field->val_string[i] != '0' && new_field->val_string[i] != '1') error (line, "invalid binary field %s\n", new_field->val_string); val = (val << 1) + (new_field->val_string[i] == '1'); } new_field->val_int = val; new_field->type = insn_field_int; } else { new_field->val_int = a2i (new_field->val_string); new_field->type = insn_field_int; } } else if (new_field->val_string[0] == '/') { new_field->type = insn_field_reserved; } else if (new_field->val_string[0] == '*') { new_field->type = insn_field_wild; } else { new_field->type = insn_field_string; if (filter_is_member (word->field_names, new_field->val_string)) error (line, "Field name %s is duplicated\n", new_field->val_string); filter_parse (&word->field_names, new_field->val_string); } if (new_field->type != insn_field_string && new_field->conditions != NULL) error (line, "Conditionals can only be applied to named fields\n"); /* the copy the position */ new_field->pos_string = NZALLOC (char, strlen_pos + 1); strncpy (new_field->pos_string, start_pos, strlen_pos); if (strlen_pos == 0) { new_field->first = new_field->prev->last + 1; if (new_field->first == 0 /* first field */ && *chp == '\0' /* no further fields */ && new_field->type == insn_field_string) { /* A single string without any position, assume that it represents the entire instruction word */ new_field->width = options.insn_bit_size; } else { /* No explicit width/position, assume value implicitly supplies the width */ new_field->width = strlen_val; } new_field->last = new_field->first + new_field->width - 1; if (new_field->last >= options.insn_bit_size) error (line, "Bit position %d exceed instruction bit size (%d)\n", new_field->last, options.insn_bit_size); } else if (options.insn_specifying_widths) { new_field->first = new_field->prev->last + 1; new_field->width = a2i (new_field->pos_string); new_field->last = new_field->first + new_field->width - 1; if (new_field->last >= options.insn_bit_size) error (line, "Bit position %d exceed instruction bit size (%d)\n", new_field->last, options.insn_bit_size); } else { new_field->first = target_a2i (options.hi_bit_nr, new_field->pos_string); new_field->last = new_field->next->first - 1; /* guess */ new_field->width = new_field->last - new_field->first + 1; /* guess */ new_field->prev->last = new_field->first - 1; /*fix */ new_field->prev->width = new_field->first - new_field->prev->first; /*fix */ } } /* fiddle first/last so that the sentinals disapear */ ASSERT (word->first->last < 0); ASSERT (word->last->first >= options.insn_bit_size); word->first = word->first->next; word->last = word->last->prev; /* check that the last field goes all the way to the last bit */ if (word->last->last != options.insn_bit_size - 1) { if (options.warn.width) options.warning (line, "Instruction format is not %d bits wide\n", options.insn_bit_size); word->last->last = options.insn_bit_size - 1; } /* now go over this again, pointing each bit position at a field record */ { insn_field_entry *field; for (field = word->first; field->last < options.insn_bit_size; field = field->next) { int i; for (i = field->first; i <= field->last; i++) { word->bit[i] = ZALLOC (insn_bit_entry); word->bit[i]->field = field; switch (field->type) { case insn_field_invalid: ASSERT (0); break; case insn_field_int: word->bit[i]->mask = 1; word->bit[i]->value = ((field->val_int & ((insn_uint) 1 << (field->last - i))) != 0); case insn_field_reserved: case insn_field_wild: case insn_field_string: /* if we encounter a constant conditional, encode their bit value. */ if (field->conditions != NULL && field->conditions->test == insn_field_cond_eq && field->conditions->type == insn_field_cond_value) { word->bit[i]->mask = 1; word->bit[i]->value = ((field->conditions->value & ((insn_uint) 1 << (field->last - i))) != 0); } break; } } } } return word; } static void parse_insn_words (insn_entry * insn, char *formats) { insn_word_entry **last_word = &insn->words; char *chp; /* now work through the formats */ insn->nr_words = 0; chp = formats; while (1) { char *start_pos; char *end_pos; int strlen_pos; char *format; insn_word_entry *new_word; /* skip leading spaces */ chp = skip_spaces (chp); /* break out the format */ start_pos = chp; chp = skip_to_separator (chp, "+"); end_pos = back_spaces (start_pos, chp); strlen_pos = end_pos - start_pos; /* check that something was there */ if (strlen_pos == 0) error (insn->line, "missing or empty instruction format\n"); /* parse the field */ format = NZALLOC (char, strlen_pos + 1); strncpy (format, start_pos, strlen_pos); new_word = parse_insn_word (insn->line, format, insn->nr_words); insn->nr_words++; if (filter_is_common (insn->field_names, new_word->field_names)) error (insn->line, "Field name duplicated between two words\n"); filter_add (&insn->field_names, new_word->field_names); /* insert it */ *last_word = new_word; last_word = &new_word->next; /* last format? */ if (*chp == '\0') break; ASSERT (*chp == '+'); chp++; } /* create a quick access array (indexed by word) of the same structure */ { int i; insn_word_entry *word; insn->word = NZALLOC (insn_word_entry *, insn->nr_words + 1); for (i = 0, word = insn->words; i < insn->nr_words; i++, word = word->next) insn->word[i] = word; } /* Go over all fields that have conditionals refering to other fields. Link the fields up. Verify that the two fields have the same size. Verify that the two fields are different */ { int i; for (i = 0; i < insn->nr_words; i++) { insn_word_entry *word = insn->word[i]; insn_field_entry *f; for (f = word->first; f->last < options.insn_bit_size; f = f->next) { insn_field_cond *cond; for (cond = f->conditions; cond != NULL; cond = cond->next) { if (cond->type == insn_field_cond_field) { int j; if (strcmp (cond->string, f->val_string) == 0) error (insn->line, "Conditional `%s' of field `%s' refers to its self\n", cond->string, f->val_string); for (j = 0; j <= i && cond->field == NULL; j++) { insn_word_entry *refered_word = insn->word[j]; insn_field_entry *refered_field; for (refered_field = refered_word->first; refered_field != NULL && cond->field == NULL; refered_field = refered_field->next) { if (refered_field->type == insn_field_string && strcmp (refered_field->val_string, cond->string) == 0) { /* found field being refered to by conditonal */ cond->field = refered_field; /* check refered to and this field are the same size */ if (f->width != refered_field->width) error (insn->line, "Conditional `%s' of field `%s' should be of size %s\n", cond->string, f->val_string, refered_field->width); } } } if (cond->field == NULL) error (insn->line, "Conditional `%s' of field `%s' not yet defined\n", cond->string, f->val_string); } } } } } } typedef enum { unknown_record = 0, insn_record, /* default */ code_record, cache_record, compute_record, scratch_record, option_record, string_function_record, function_record, internal_record, define_record, include_record, model_processor_record, model_macro_record, model_data_record, model_static_record, model_function_record, model_internal_record, } insn_record_type; static const name_map insn_type_map[] = { {"option", option_record}, {"cache", cache_record}, {"compute", compute_record}, {"scratch", scratch_record}, {"define", define_record}, {"include", include_record}, {"%s", string_function_record}, {"function", function_record}, {"internal", internal_record}, {"model", model_processor_record}, {"model-macro", model_macro_record}, {"model-data", model_data_record}, {"model-static", model_static_record}, {"model-internal", model_internal_record}, {"model-function", model_function_record}, {NULL, insn_record}, }; static int record_is_old (table_entry *entry) { if (entry->nr_fields > record_type_field && strlen (entry->field[record_type_field]) == 0) return 1; return 0; } static insn_record_type record_type (table_entry *entry) { switch (entry->type) { case table_code_entry: return code_record; case table_colon_entry: if (record_is_old (entry)) { /* old-format? */ if (entry->nr_fields > old_record_type_field) { int i = name2i (entry->field[old_record_type_field], insn_type_map); return i; } else { return unknown_record; } } else if (entry->nr_fields > record_type_field && entry->field[0][0] == '\0') { /* new-format? */ int i = name2i (entry->field[record_type_field], insn_type_map); return i; } else return insn_record; /* default */ } return unknown_record; } static int record_prefix_is (table_entry *entry, char ch, int nr_fields) { if (entry->type != table_colon_entry) return 0; if (entry->nr_fields < nr_fields) return 0; if (entry->field[0][0] != ch && ch != '\0') return 0; return 1; } static table_entry * parse_model_data_record (insn_table *isa, table *file, table_entry *record, int nr_fields, model_data **list) { table_entry *model_record = record; table_entry *code_record = NULL; model_data *new_data; if (record->nr_fields < nr_fields) error (record->line, "Incorrect number of fields\n"); record = table_read (file); if (record->type == table_code_entry) { code_record = record; record = table_read (file); } /* create the new data record */ new_data = ZALLOC (model_data); new_data->line = model_record->line; filter_parse (&new_data->flags, model_record->field[record_filter_flags_field]); new_data->entry = model_record; new_data->code = code_record; /* append it if not filtered out */ if (!is_filtered_out (options.flags_filter, model_record->field[record_filter_flags_field]) && !is_filtered_out (options.model_filter, model_record->field[record_filter_models_field])) { while (*list != NULL) list = &(*list)->next; *list = new_data; } return record; } typedef enum { insn_bit_size_option = 1, insn_specifying_widths_option, hi_bit_nr_option, flags_filter_option, model_filter_option, multi_sim_option, format_names_option, gen_delayed_branch, unknown_option, } option_names; static const name_map option_map[] = { {"insn-bit-size", insn_bit_size_option}, {"insn-specifying-widths", insn_specifying_widths_option}, {"hi-bit-nr", hi_bit_nr_option}, {"flags-filter", flags_filter_option}, {"model-filter", model_filter_option}, {"multi-sim", multi_sim_option}, {"format-names", format_names_option}, {"gen-delayed-branch", gen_delayed_branch}, {NULL, unknown_option}, }; static table_entry * parse_include_record (table *file, table_entry *record) { /* parse the include record */ if (record->nr_fields < nr_include_fields) error (record->line, "Incorrect nr fields for include record\n"); /* process it */ if (!is_filtered_out (options.flags_filter, record->field[record_filter_flags_field]) && !is_filtered_out (options.model_filter, record->field[record_filter_models_field])) { table_push (file, record->line, options.include, record->field[include_filename_field]); } /* nb: can't read next record until after the file has been pushed */ record = table_read (file); return record; } static table_entry * parse_option_record (table *file, table_entry *record) { table_entry *option_record; /* parse the option record */ option_record = record; if (record->nr_fields < nr_option_fields) error (record->line, "Incorrect nr of fields for option record\n"); record = table_read (file); /* process it */ if (!is_filtered_out (options.flags_filter, option_record->field[record_filter_flags_field]) && !is_filtered_out (options.model_filter, option_record->field[record_filter_models_field])) { char *name = option_record->field[option_name_field]; option_names option = name2i (name, option_map); char *value = option_record->field[option_value_field]; switch (option) { case insn_bit_size_option: { options.insn_bit_size = a2i (value); if (options.insn_bit_size < 0 || options.insn_bit_size > max_insn_bit_size) error (option_record->line, "Instruction bit size out of range\n"); if (options.hi_bit_nr != options.insn_bit_size - 1 && options.hi_bit_nr != 0) error (option_record->line, "insn-bit-size / hi-bit-nr conflict\n"); break; } case insn_specifying_widths_option: { options.insn_specifying_widths = a2i (value); break; } case hi_bit_nr_option: { options.hi_bit_nr = a2i (value); if (options.hi_bit_nr != 0 && options.hi_bit_nr != options.insn_bit_size - 1) error (option_record->line, "hi-bit-nr / insn-bit-size conflict\n"); break; } case flags_filter_option: { filter_parse (&options.flags_filter, value); break; } case model_filter_option: { filter_parse (&options.model_filter, value); break; } case multi_sim_option: { options.gen.multi_sim = a2i (value); break; } case format_names_option: { filter_parse (&options.format_name_filter, value); break; } case gen_delayed_branch: { options.gen.delayed_branch = a2i (value); break; } case unknown_option: { error (option_record->line, "Unknown option - %s\n", name); break; } } } return record; } static table_entry * parse_function_record (table *file, table_entry *record, function_entry ** list, function_entry ** list_entry, int is_internal, model_table *model) { function_entry *new_function; new_function = ZALLOC (function_entry); new_function->line = record->line; new_function->is_internal = is_internal; /* parse the function header */ if (record_is_old (record)) { if (record->nr_fields < nr_old_function_fields) error (record->line, "Missing fields from (old) function record\n"); new_function->type = record->field[old_function_typedef_field]; new_function->type = record->field[old_function_typedef_field]; if (record->nr_fields > old_function_param_field) new_function->param = record->field[old_function_param_field]; new_function->name = record->field[old_function_name_field]; } else { if (record->nr_fields < nr_function_fields) error (record->line, "Missing fields from function record\n"); filter_parse (&new_function->flags, record->field[record_filter_flags_field]); filter_parse (&new_function->models, record->field[record_filter_models_field]); new_function->type = record->field[function_typedef_field]; new_function->param = record->field[function_param_field]; new_function->name = record->field[function_name_field]; } record = table_read (file); /* parse any function-model records */ while (record != NULL && record_prefix_is (record, '*', nr_function_model_fields)) { char *model_name = record->field[function_model_name_field] + 1; /*skip `*' */ filter_parse (&new_function->models, model_name); if (!filter_is_subset (model->processors, new_function->models)) { error (record->line, "machine model `%s' undefined\n", model_name); } record = table_read (file); } /* parse the function body */ if (record->type == table_code_entry) { new_function->code = record; record = table_read (file); } /* insert it */ if (!filter_is_subset (options.flags_filter, new_function->flags)) { if (options.warn.discard) notify (new_function->line, "Discarding function %s - filter flags\n", new_function->name); } else if (new_function->models != NULL && !filter_is_common (options.model_filter, new_function->models)) { if (options.warn.discard) notify (new_function->line, "Discarding function %s - filter models\n", new_function->name); } else { while (*list != NULL) list = &(*list)->next; *list = new_function; if (list_entry != NULL) *list_entry = new_function; } /* done */ return record; } static void parse_insn_model_record (table *file, table_entry *record, insn_entry * insn, model_table *model) { insn_model_entry **last_insn_model; insn_model_entry *new_insn_model = ZALLOC (insn_model_entry); /* parse it */ new_insn_model->line = record->line; if (record->nr_fields > insn_model_unit_data_field) new_insn_model->unit_data = record->field[insn_model_unit_data_field]; new_insn_model->insn = insn; /* parse the model names, verify that all were defined */ new_insn_model->names = NULL; filter_parse (&new_insn_model->names, record->field[insn_model_name_field] + 1 /*skip `*' */ ); if (new_insn_model->names == NULL) { /* No processor names - a generic model entry, enter it into all the non-empty fields */ int index; for (index = 0; index < model->nr_models; index++) if (insn->model[index] == 0) { insn->model[index] = new_insn_model; } /* also add the complete processor set to this processor's set */ filter_add (&insn->processors, model->processors); } else { /* Find the corresponding master model record for each name so that they can be linked in. */ int index; char *name = ""; while (1) { name = filter_next (new_insn_model->names, name); if (name == NULL) break; index = filter_is_member (model->processors, name) - 1; if (index < 0) { error (new_insn_model->line, "machine model `%s' undefined\n", name); } /* store it in the corresponding model array entry */ if (insn->model[index] != NULL && insn->model[index]->names != NULL) { warning (new_insn_model->line, "machine model `%s' previously defined\n", name); error (insn->model[index]->line, "earlier definition\n"); } insn->model[index] = new_insn_model; /* also add the name to the instructions processor set as an alternative lookup mechanism */ filter_parse (&insn->processors, name); } } #if 0 /* for some reason record the max length of any function unit field */ int len = strlen (insn_model_ptr->field[insn_model_fields]); if (model->max_model_fields_len < len) model->max_model_fields_len = len; #endif /* link it in */ last_insn_model = &insn->models; while ((*last_insn_model) != NULL) last_insn_model = &(*last_insn_model)->next; *last_insn_model = new_insn_model; } static void parse_insn_mnemonic_record (table *file, table_entry *record, insn_entry * insn) { insn_mnemonic_entry **last_insn_mnemonic; insn_mnemonic_entry *new_insn_mnemonic = ZALLOC (insn_mnemonic_entry); /* parse it */ new_insn_mnemonic->line = record->line; ASSERT (record->nr_fields > insn_mnemonic_format_field); new_insn_mnemonic->format = record->field[insn_mnemonic_format_field]; ASSERT (new_insn_mnemonic->format[0] == '"'); if (new_insn_mnemonic->format[strlen (new_insn_mnemonic->format) - 1] != '"') error (new_insn_mnemonic->line, "Missing closing double quote in mnemonic field\n"); if (record->nr_fields > insn_mnemonic_condition_field) new_insn_mnemonic->condition = record->field[insn_mnemonic_condition_field]; new_insn_mnemonic->insn = insn; /* insert it */ last_insn_mnemonic = &insn->mnemonics; while ((*last_insn_mnemonic) != NULL) last_insn_mnemonic = &(*last_insn_mnemonic)->next; insn->nr_mnemonics++; *last_insn_mnemonic = new_insn_mnemonic; } static table_entry * parse_macro_record (table *file, table_entry *record) { #if 1 error (record->line, "Macros are not implemented"); #else /* parse the define record */ if (record->nr_fields < nr_define_fields) error (record->line, "Incorrect nr fields for define record\n"); /* process it */ if (!is_filtered_out (options.flags_filter, record->field[record_filter_flags_field]) && !is_filtered_out (options.model_filter, record->field[record_filter_models_field])) { table_define (file, record->line, record->field[macro_name_field], record->field[macro_args_field], record->field[macro_expr_field]); } record = table_read (file); #endif return record; } insn_table * load_insn_table (char *file_name, cache_entry *cache) { table *file = table_open (file_name); table_entry *record = table_read (file); insn_table *isa = ZALLOC (insn_table); model_table *model = ZALLOC (model_table); isa->model = model; isa->caches = cache; while (record != NULL) { switch (record_type (record)) { case include_record: { record = parse_include_record (file, record); break; } case option_record: { if (isa->insns != NULL) error (record->line, "Option after first instruction\n"); record = parse_option_record (file, record); break; } case string_function_record: { function_entry *function = NULL; record = parse_function_record (file, record, &isa->functions, &function, 0 /*is-internal */ , model); /* convert a string function record into an internal function */ if (function != NULL) { char *name = NZALLOC (char, (strlen ("str_") + strlen (function->name) + 1)); strcat (name, "str_"); strcat (name, function->name); function->name = name; function->type = "const char *"; } break; } case function_record: /* function record */ { record = parse_function_record (file, record, &isa->functions, NULL, 0 /*is-internal */ , model); break; } case internal_record: { /* only insert it into the function list if it is unknown */ function_entry *function = NULL; record = parse_function_record (file, record, &isa->functions, &function, 1 /*is-internal */ , model); /* check what was inserted to see if a pseudo-instruction entry also needs to be created */ if (function != NULL) { insn_entry **insn = NULL; if (strcmp (function->name, "illegal") == 0) { /* illegal function save it away */ if (isa->illegal_insn != NULL) { warning (function->line, "Multiple illegal instruction definitions\n"); error (isa->illegal_insn->line, "Location of first illegal instruction\n"); } else insn = &isa->illegal_insn; } if (insn != NULL) { *insn = ZALLOC (insn_entry); (*insn)->line = function->line; (*insn)->name = function->name; (*insn)->code = function->code; } } break; } case scratch_record: /* cache macro records */ case cache_record: case compute_record: { cache_entry *new_cache; /* parse the cache record */ if (record->nr_fields < nr_cache_fields) error (record->line, "Incorrect nr of fields for scratch/cache/compute record\n"); /* create it */ new_cache = ZALLOC (cache_entry); new_cache->line = record->line; filter_parse (&new_cache->flags, record->field[record_filter_flags_field]); filter_parse (&new_cache->models, record->field[record_filter_models_field]); new_cache->type = record->field[cache_typedef_field]; new_cache->name = record->field[cache_name_field]; filter_parse (&new_cache->original_fields, record->field[cache_original_fields_field]); new_cache->expression = record->field[cache_expression_field]; /* insert it but only if not filtered out */ if (!filter_is_subset (options.flags_filter, new_cache->flags)) { notify (new_cache->line, "Discarding cache entry %s - filter flags\n", new_cache->name); } else if (is_filtered_out (options.model_filter, record-> field[record_filter_models_field])) { notify (new_cache->line, "Discarding cache entry %s - filter models\n", new_cache->name); } else { cache_entry **last; last = &isa->caches; while (*last != NULL) last = &(*last)->next; *last = new_cache; } /* advance things */ record = table_read (file); break; } /* model records */ case model_processor_record: { model_entry *new_model; /* parse the model */ if (record->nr_fields < nr_model_processor_fields) error (record->line, "Incorrect nr of fields for model record\n"); if (isa->insns != NULL) error (record->line, "Model appears after first instruction\n"); new_model = ZALLOC (model_entry); filter_parse (&new_model->flags, record->field[record_filter_flags_field]); new_model->line = record->line; new_model->name = record->field[model_name_field]; new_model->full_name = record->field[model_full_name_field]; new_model->unit_data = record->field[model_unit_data_field]; /* only insert it if not filtered out */ if (!filter_is_subset (options.flags_filter, new_model->flags)) { notify (new_model->line, "Discarding processor model %s - filter flags\n", new_model->name); } else if (is_filtered_out (options.model_filter, record-> field[record_filter_models_field])) { notify (new_model->line, "Discarding processor model %s - filter models\n", new_model->name); } else if (filter_is_member (model->processors, new_model->name)) { error (new_model->line, "Duplicate processor model %s\n", new_model->name); } else { model_entry **last; last = &model->models; while (*last != NULL) last = &(*last)->next; *last = new_model; /* count it */ model->nr_models++; filter_parse (&model->processors, new_model->name); } /* advance things */ record = table_read (file); } break; case model_macro_record: record = parse_model_data_record (isa, file, record, nr_model_macro_fields, &model->macros); break; case model_data_record: record = parse_model_data_record (isa, file, record, nr_model_data_fields, &model->data); break; case model_static_record: record = parse_function_record (file, record, &model->statics, NULL, 0 /*is internal */ , model); break; case model_internal_record: record = parse_function_record (file, record, &model->internals, NULL, 1 /*is internal */ , model); break; case model_function_record: record = parse_function_record (file, record, &model->functions, NULL, 0 /*is internal */ , model); break; case insn_record: /* instruction records */ { insn_entry *new_insn; char *format; /* parse the instruction */ if (record->nr_fields < nr_insn_fields) error (record->line, "Incorrect nr of fields for insn record\n"); new_insn = ZALLOC (insn_entry); new_insn->line = record->line; filter_parse (&new_insn->flags, record->field[record_filter_flags_field]); /* save the format field. Can't parse it until after the filter-out checks. Could be filtered out because the format is invalid */ format = record->field[insn_word_field]; new_insn->format_name = record->field[insn_format_name_field]; if (options.format_name_filter != NULL && !filter_is_member (options.format_name_filter, new_insn->format_name)) error (new_insn->line, "Unreconized instruction format name `%s'\n", new_insn->format_name); filter_parse (&new_insn->options, record->field[insn_options_field]); new_insn->name = record->field[insn_name_field]; record = table_read (file); /* Parse any model/assember records */ new_insn->nr_models = model->nr_models; new_insn->model = NZALLOC (insn_model_entry *, model->nr_models + 1); while (record != NULL) { if (record_prefix_is (record, '*', nr_insn_model_fields)) parse_insn_model_record (file, record, new_insn, model); else if (record_prefix_is (record, '"', nr_insn_mnemonic_fields)) parse_insn_mnemonic_record (file, record, new_insn); else break; /* advance */ record = table_read (file); } /* Parse the code record */ if (record != NULL && record->type == table_code_entry) { new_insn->code = record; record = table_read (file); } else if (options.warn.unimplemented) notify (new_insn->line, "unimplemented\n"); /* insert it */ if (!filter_is_subset (options.flags_filter, new_insn->flags)) { if (options.warn.discard) notify (new_insn->line, "Discarding instruction %s (flags-filter)\n", new_insn->name); } else if (new_insn->processors != NULL && options.model_filter != NULL && !filter_is_common (options.model_filter, new_insn->processors)) { /* only discard an instruction based in the processor model when both the instruction and the options are nonempty */ if (options.warn.discard) notify (new_insn->line, "Discarding instruction %s (processor-model)\n", new_insn->name); } else { insn_entry **last; /* finish the parsing */ parse_insn_words (new_insn, format); /* append it */ last = &isa->insns; while (*last) last = &(*last)->next; *last = new_insn; /* update global isa counters */ isa->nr_insns++; if (isa->max_nr_words < new_insn->nr_words) isa->max_nr_words = new_insn->nr_words; filter_add (&isa->flags, new_insn->flags); filter_add (&isa->options, new_insn->options); } break; } case define_record: record = parse_macro_record (file, record); break; case unknown_record: case code_record: error (record->line, "Unknown or unexpected entry\n"); } } return isa; } void print_insn_words (lf *file, insn_entry * insn) { insn_word_entry *word = insn->words; if (word != NULL) { while (1) { insn_field_entry *field = word->first; while (1) { if (options.insn_specifying_widths) lf_printf (file, "%d.", field->width); else lf_printf (file, "%d.", i2target (options.hi_bit_nr, field->first)); switch (field->type) { case insn_field_invalid: ASSERT (0); break; case insn_field_int: lf_printf (file, "0x%lx", (long) field->val_int); break; case insn_field_reserved: lf_printf (file, "/"); break; case insn_field_wild: lf_printf (file, "*"); break; case insn_field_string: lf_printf (file, "%s", field->val_string); break; } if (field == word->last) break; field = field->next; lf_printf (file, ","); } word = word->next; if (word == NULL) break; lf_printf (file, "+"); } } } void function_entry_traverse (lf *file, function_entry * functions, function_entry_handler * handler, void *data) { function_entry *function; for (function = functions; function != NULL; function = function->next) { handler (file, function, data); } } void insn_table_traverse_insn (lf *file, insn_table *isa, insn_entry_handler * handler, void *data) { insn_entry *insn; for (insn = isa->insns; insn != NULL; insn = insn->next) { handler (file, isa, insn, data); } } static void dump_function_entry (lf *file, char *prefix, function_entry * entry, char *suffix) { lf_printf (file, "%s(function_entry *) 0x%lx", prefix, (long) entry); if (entry != NULL) { dump_line_ref (file, "\n(line ", entry->line, ")"); dump_filter (file, "\n(flags ", entry->flags, ")"); lf_printf (file, "\n(type \"%s\")", entry->type); lf_printf (file, "\n(name \"%s\")", entry->name); lf_printf (file, "\n(param \"%s\")", entry->param); dump_table_entry (file, "\n(code ", entry->code, ")"); lf_printf (file, "\n(is_internal %d)", entry->is_internal); lf_printf (file, "\n(next 0x%lx)", (long) entry->next); } lf_printf (file, "%s", suffix); } static void dump_function_entries (lf *file, char *prefix, function_entry * entry, char *suffix) { lf_printf (file, "%s", prefix); lf_indent (file, +1); while (entry != NULL) { dump_function_entry (file, "\n(", entry, ")"); entry = entry->next; } lf_indent (file, -1); lf_printf (file, "%s", suffix); } static char * cache_entry_type_to_str (cache_entry_type type) { switch (type) { case scratch_value: return "scratch"; case cache_value: return "cache"; case compute_value: return "compute"; } ERROR ("Bad switch"); return 0; } static void dump_cache_entry (lf *file, char *prefix, cache_entry *entry, char *suffix) { lf_printf (file, "%s(cache_entry *) 0x%lx", prefix, (long) entry); if (entry != NULL) { dump_line_ref (file, "\n(line ", entry->line, ")"); dump_filter (file, "\n(flags ", entry->flags, ")"); lf_printf (file, "\n(entry_type \"%s\")", cache_entry_type_to_str (entry->entry_type)); lf_printf (file, "\n(name \"%s\")", entry->name); dump_filter (file, "\n(original_fields ", entry->original_fields, ")"); lf_printf (file, "\n(type \"%s\")", entry->type); lf_printf (file, "\n(expression \"%s\")", entry->expression); lf_printf (file, "\n(next 0x%lx)", (long) entry->next); } lf_printf (file, "%s", suffix); } void dump_cache_entries (lf *file, char *prefix, cache_entry *entry, char *suffix) { lf_printf (file, "%s", prefix); lf_indent (file, +1); while (entry != NULL) { dump_cache_entry (file, "\n(", entry, ")"); entry = entry->next; } lf_indent (file, -1); lf_printf (file, "%s", suffix); } static void dump_model_data (lf *file, char *prefix, model_data *entry, char *suffix) { lf_printf (file, "%s(model_data *) 0x%lx", prefix, (long) entry); if (entry != NULL) { lf_indent (file, +1); dump_line_ref (file, "\n(line ", entry->line, ")"); dump_filter (file, "\n(flags ", entry->flags, ")"); dump_table_entry (file, "\n(entry ", entry->entry, ")"); dump_table_entry (file, "\n(code ", entry->code, ")"); lf_printf (file, "\n(next 0x%lx)", (long) entry->next); lf_indent (file, -1); } lf_printf (file, "%s", prefix); } static void dump_model_datas (lf *file, char *prefix, model_data *entry, char *suffix) { lf_printf (file, "%s", prefix); lf_indent (file, +1); while (entry != NULL) { dump_model_data (file, "\n(", entry, ")"); entry = entry->next; } lf_indent (file, -1); lf_printf (file, "%s", suffix); } static void dump_model_entry (lf *file, char *prefix, model_entry *entry, char *suffix) { lf_printf (file, "%s(model_entry *) 0x%lx", prefix, (long) entry); if (entry != NULL) { lf_indent (file, +1); dump_line_ref (file, "\n(line ", entry->line, ")"); dump_filter (file, "\n(flags ", entry->flags, ")"); lf_printf (file, "\n(name \"%s\")", entry->name); lf_printf (file, "\n(full_name \"%s\")", entry->full_name); lf_printf (file, "\n(unit_data \"%s\")", entry->unit_data); lf_printf (file, "\n(next 0x%lx)", (long) entry->next); lf_indent (file, -1); } lf_printf (file, "%s", prefix); } static void dump_model_entries (lf *file, char *prefix, model_entry *entry, char *suffix) { lf_printf (file, "%s", prefix); lf_indent (file, +1); while (entry != NULL) { dump_model_entry (file, "\n(", entry, ")"); entry = entry->next; } lf_indent (file, -1); lf_printf (file, "%s", suffix); } static void dump_model_table (lf *file, char *prefix, model_table *entry, char *suffix) { lf_printf (file, "%s(model_table *) 0x%lx", prefix, (long) entry); if (entry != NULL) { lf_indent (file, +1); dump_filter (file, "\n(processors ", entry->processors, ")"); lf_printf (file, "\n(nr_models %d)", entry->nr_models); dump_model_entries (file, "\n(models ", entry->models, ")"); dump_model_datas (file, "\n(macros ", entry->macros, ")"); dump_model_datas (file, "\n(data ", entry->data, ")"); dump_function_entries (file, "\n(statics ", entry->statics, ")"); dump_function_entries (file, "\n(internals ", entry->functions, ")"); dump_function_entries (file, "\n(functions ", entry->functions, ")"); lf_indent (file, -1); } lf_printf (file, "%s", suffix); } static char * insn_field_type_to_str (insn_field_type type) { switch (type) { case insn_field_invalid: ASSERT (0); return "(invalid)"; case insn_field_int: return "int"; case insn_field_reserved: return "reserved"; case insn_field_wild: return "wild"; case insn_field_string: return "string"; } ERROR ("bad switch"); return 0; } void dump_insn_field (lf *file, char *prefix, insn_field_entry *field, char *suffix) { char *sep = " "; lf_printf (file, "%s(insn_field_entry *) 0x%lx", prefix, (long) field); if (field != NULL) { lf_indent (file, +1); lf_printf (file, "%s(first %d)", sep, field->first); lf_printf (file, "%s(last %d)", sep, field->last); lf_printf (file, "%s(width %d)", sep, field->width); lf_printf (file, "%s(type %s)", sep, insn_field_type_to_str (field->type)); switch (field->type) { case insn_field_invalid: ASSERT (0); break; case insn_field_int: lf_printf (file, "%s(val 0x%lx)", sep, (long) field->val_int); break; case insn_field_reserved: /* nothing output */ break; case insn_field_wild: /* nothing output */ break; case insn_field_string: lf_printf (file, "%s(val \"%s\")", sep, field->val_string); break; } lf_printf (file, "%s(next 0x%lx)", sep, (long) field->next); lf_printf (file, "%s(prev 0x%lx)", sep, (long) field->prev); lf_indent (file, -1); } lf_printf (file, "%s", suffix); } void dump_insn_word_entry (lf *file, char *prefix, insn_word_entry *word, char *suffix) { lf_printf (file, "%s(insn_word_entry *) 0x%lx", prefix, (long) word); if (word != NULL) { int i; insn_field_entry *field; lf_indent (file, +1); lf_printf (file, "\n(first 0x%lx)", (long) word->first); lf_printf (file, "\n(last 0x%lx)", (long) word->last); lf_printf (file, "\n(bit"); for (i = 0; i < options.insn_bit_size; i++) lf_printf (file, "\n ((value %d) (mask %d) (field 0x%lx))", word->bit[i]->value, word->bit[i]->mask, (long) word->bit[i]->field); lf_printf (file, ")"); for (field = word->first; field != NULL; field = field->next) dump_insn_field (file, "\n(", field, ")"); dump_filter (file, "\n(field_names ", word->field_names, ")"); lf_printf (file, "\n(next 0x%lx)", (long) word->next); lf_indent (file, -1); } lf_printf (file, "%s", suffix); } static void dump_insn_word_entries (lf *file, char *prefix, insn_word_entry *word, char *suffix) { lf_printf (file, "%s", prefix); while (word != NULL) { dump_insn_word_entry (file, "\n(", word, ")"); word = word->next; } lf_printf (file, "%s", suffix); } static void dump_insn_model_entry (lf *file, char *prefix, insn_model_entry *model, char *suffix) { lf_printf (file, "%s(insn_model_entry *) 0x%lx", prefix, (long) model); if (model != NULL) { lf_indent (file, +1); dump_line_ref (file, "\n(line ", model->line, ")"); dump_filter (file, "\n(names ", model->names, ")"); lf_printf (file, "\n(full_name \"%s\")", model->full_name); lf_printf (file, "\n(unit_data \"%s\")", model->unit_data); lf_printf (file, "\n(insn (insn_entry *) 0x%lx)", (long) model->insn); lf_printf (file, "\n(next (insn_model_entry *) 0x%lx)", (long) model->next); lf_indent (file, -1); } lf_printf (file, "%s", suffix); } static void dump_insn_model_entries (lf *file, char *prefix, insn_model_entry *model, char *suffix) { lf_printf (file, "%s", prefix); while (model != NULL) { dump_insn_model_entry (file, "\n", model, ""); model = model->next; } lf_printf (file, "%s", suffix); } static void dump_insn_mnemonic_entry (lf *file, char *prefix, insn_mnemonic_entry *mnemonic, char *suffix) { lf_printf (file, "%s(insn_mnemonic_entry *) 0x%lx", prefix, (long) mnemonic); if (mnemonic != NULL) { lf_indent (file, +1); dump_line_ref (file, "\n(line ", mnemonic->line, ")"); lf_printf (file, "\n(format \"%s\")", mnemonic->format); lf_printf (file, "\n(condition \"%s\")", mnemonic->condition); lf_printf (file, "\n(insn (insn_entry *) 0x%lx)", (long) mnemonic->insn); lf_printf (file, "\n(next (insn_mnemonic_entry *) 0x%lx)", (long) mnemonic->next); lf_indent (file, -1); } lf_printf (file, "%s", suffix); } static void dump_insn_mnemonic_entries (lf *file, char *prefix, insn_mnemonic_entry *mnemonic, char *suffix) { lf_printf (file, "%s", prefix); while (mnemonic != NULL) { dump_insn_mnemonic_entry (file, "\n", mnemonic, ""); mnemonic = mnemonic->next; } lf_printf (file, "%s", suffix); } void dump_insn_entry (lf *file, char *prefix, insn_entry * entry, char *suffix) { lf_printf (file, "%s(insn_entry *) 0x%lx", prefix, (long) entry); if (entry != NULL) { int i; lf_indent (file, +1); dump_line_ref (file, "\n(line ", entry->line, ")"); dump_filter (file, "\n(flags ", entry->flags, ")"); lf_printf (file, "\n(nr_words %d)", entry->nr_words); dump_insn_word_entries (file, "\n(words ", entry->words, ")"); lf_printf (file, "\n(word"); for (i = 0; i < entry->nr_models; i++) lf_printf (file, " 0x%lx", (long) entry->word[i]); lf_printf (file, ")"); dump_filter (file, "\n(field_names ", entry->field_names, ")"); lf_printf (file, "\n(format_name \"%s\")", entry->format_name); dump_filter (file, "\n(options ", entry->options, ")"); lf_printf (file, "\n(name \"%s\")", entry->name); lf_printf (file, "\n(nr_models %d)", entry->nr_models); dump_insn_model_entries (file, "\n(models ", entry->models, ")"); lf_printf (file, "\n(model"); for (i = 0; i < entry->nr_models; i++) lf_printf (file, " 0x%lx", (long) entry->model[i]); lf_printf (file, ")"); dump_filter (file, "\n(processors ", entry->processors, ")"); dump_insn_mnemonic_entries (file, "\n(mnemonics ", entry->mnemonics, ")"); dump_table_entry (file, "\n(code ", entry->code, ")"); lf_printf (file, "\n(next 0x%lx)", (long) entry->next); lf_indent (file, -1); } lf_printf (file, "%s", suffix); } static void dump_insn_entries (lf *file, char *prefix, insn_entry * entry, char *suffix) { lf_printf (file, "%s", prefix); lf_indent (file, +1); while (entry != NULL) { dump_insn_entry (file, "\n(", entry, ")"); entry = entry->next; } lf_indent (file, -1); lf_printf (file, "%s", suffix); } void dump_insn_table (lf *file, char *prefix, insn_table *isa, char *suffix) { lf_printf (file, "%s(insn_table *) 0x%lx", prefix, (long) isa); if (isa != NULL) { lf_indent (file, +1); dump_cache_entries (file, "\n(caches ", isa->caches, ")"); lf_printf (file, "\n(nr_insns %d)", isa->nr_insns); lf_printf (file, "\n(max_nr_words %d)", isa->max_nr_words); dump_insn_entries (file, "\n(insns ", isa->insns, ")"); dump_function_entries (file, "\n(functions ", isa->functions, ")"); dump_insn_entry (file, "\n(illegal_insn ", isa->illegal_insn, ")"); dump_model_table (file, "\n(model ", isa->model, ")"); dump_filter (file, "\n(flags ", isa->flags, ")"); dump_filter (file, "\n(options ", isa->options, ")"); lf_indent (file, -1); } lf_printf (file, "%s", suffix); } #ifdef MAIN igen_options options; int main (int argc, char **argv) { insn_table *isa; lf *l; INIT_OPTIONS (options); if (argc == 3) filter_parse (&options.flags_filter, argv[2]); else if (argc != 2) error (NULL, "Usage: insn <insn-table> [ <filter-in> ]\n"); isa = load_insn_table (argv[1], NULL); l = lf_open ("-", "stdout", lf_omit_references, lf_is_text, "tmp-ld-insn"); dump_insn_table (l, "(isa ", isa, ")\n"); return 0; } #endif
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