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Diffstat (limited to 'ACE/apps/gperf/src/Key_List.cpp')
-rw-r--r-- | ACE/apps/gperf/src/Key_List.cpp | 1957 |
1 files changed, 0 insertions, 1957 deletions
diff --git a/ACE/apps/gperf/src/Key_List.cpp b/ACE/apps/gperf/src/Key_List.cpp deleted file mode 100644 index 8eeecfd5551..00000000000 --- a/ACE/apps/gperf/src/Key_List.cpp +++ /dev/null @@ -1,1957 +0,0 @@ -// -*- C++ -*- - -// $Id$ - -// Copyright (C) 1989 Free Software Foundation, Inc. -// written by Douglas C. Schmidt (schmidt@cs.wustl.edu) - -// This file is part of GNU GPERF. - -// 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 "Key_List.h" - -ACE_RCSID(src, Key_List, "$Id$") - -#if defined (ACE_HAS_GPERF) - -#include "Hash_Table.h" -#include "ace/Read_Buffer.h" -#include "ace/Auto_Ptr.h" -#include "ace/OS_Memory.h" -#include "ace/OS_NS_stdio.h" -#include "ace/OS_NS_string.h" - -// Default type for generated code. -const char *const Key_List::default_array_type = "char *"; - -// in_word_set return type, by default. -const char *const Key_List::default_return_type = "char *"; - -// How wide the printed field width must be to contain the maximum -// hash value. -int Key_List::field_width = 0; -int Key_List::determined_[ACE_STANDARD_CHARACTER_SET_SIZE]; - -// Destructor dumps diagnostics during debugging. - -Key_List::~Key_List (void) -{ - if (option[DEBUGGING]) - this->dump (); - - // Free up all the nodes in the list. - while (this->head != 0) - { - List_Node *temp; - - // Make sure to delete the linked nodes, as well. - for (List_Node *ptr = this->head->link; - ptr != 0; - ptr = temp) - { - temp = ptr->link; - delete ptr; - } - - temp = this->head->next; - delete this->head; - this->head = temp; - } -} - -// Gathers the input stream into a buffer until one of two things occur: -// -// 1. We read a '%' followed by a '%' -// 2. We read a '%' followed by a '}' -// -// The first symbolizes the beginning of the keyword list proper, The -// second symbolizes the end of the C source code to be generated -// verbatim in the output file. -// -// I assume that the keys are separated from the optional preceding -// struct declaration by a consecutive % followed by either % or } -// starting in the first column. The code below uses an expandible -// buffer to scan off and return a pointer to all the code (if any) -// appearing before the delimiter. - -char * -Key_List::special_input (char delimiter) -{ - int size = 80; - char *buf = 0; - ACE_NEW_RETURN (buf, - char[size], - 0); - int c; - - for (int i = 0; (c = getchar ()) != EOF; i++) - { - if (c == '%') - { - c = getchar (); - if (c == delimiter) - { - // Discard newline... - while ((c = getchar ()) != '\n') - continue; - - if (i == 0) - { - buf[0] = '\0'; - return buf; - } - else - { - buf[delimiter == '%' && buf[i - 2] == ';' - ? i - 2 - : i - 1] = '\0'; - return buf; - } - } - else - buf[i++] = '%'; - } - else if (i >= size) - { - // Yikes, time to grow the buffer! - - char *temp = 0; - ACE_NEW_RETURN (temp, - char[size *= 2], - 0); - for (int j = 0; j < i; j++) - temp[j] = buf[j]; - - delete [] buf; - buf = temp; - } - buf[i] = static_cast<char> (c); - } - - return 0; -} - -// Stores any C/C++ source code that must be included verbatim into -// the generated code output. - -char * -Key_List::save_include_src (void) -{ - int c = getchar (); - - if (c != '%') - ACE_OS::ungetc (c, stdin); - else if ((c = getchar ()) != '{') - ACE_ERROR_RETURN ((LM_ERROR, - "internal error, %c != '{' on line %l in file %N", - c), - 0); - else - return special_input ('}'); - return (char *) ""; -} - -// Determines from the input file whether the user wants to build a -// table from a user-defined struct, or whether the user is content to -// simply use the default array of keys. - -char * -Key_List::array_type (void) -{ - return special_input ('%'); -} - -// Sets up the Return_Type, the Struct_Tag type and the Array_Type -// based upon various user Options. - -int -Key_List::output_types (void) -{ - if (option[TYPE]) - { - array_type_ = array_type (); - if (array_type_ == 0) - // Something's wrong, but we'll catch it later on.... - return -1; - else - { - // Yow, we've got a user-defined type... - size_t struct_tag_length = ACE_OS::strcspn (array_type_, - "{\n\0"); - if (option[POINTER]) // And it must return a pointer... - { - ACE_NEW_RETURN (return_type, - char[struct_tag_length + 2], - -1); - ACE_OS::strncpy (return_type, - array_type_, - struct_tag_length); - return_type[struct_tag_length] = '*'; - return_type[struct_tag_length + 1] = '\0'; - } - - ACE_NEW_RETURN (struct_tag, - char[struct_tag_length + 2], - -1); - ACE_OS::strncpy (struct_tag, - array_type_, - struct_tag_length); - if (struct_tag[struct_tag_length] != ' ') - { - struct_tag[struct_tag_length] = ' '; - struct_tag_length++; - } - struct_tag[struct_tag_length] = '\0'; - } - } - else if (option[POINTER]) // Return a char *. - return_type = (char *) Key_List::default_array_type; - return 0; -} - -// Reads in all keys from standard input and creates a linked list -// pointed to by Head. This list is then quickly checked for -// ``links,'' i.e., unhashable elements possessing identical key sets -// and lengths. - -int -Key_List::read_keys (void) -{ - this->include_src = this->save_include_src (); - if (this->include_src == 0) - return -1; - else if (this->output_types () == -1) - return -1; - else - { - ACE_Read_Buffer input (stdin); - - char *buffer = input.read ('\n'); - - if (buffer == 0) - ACE_ERROR_RETURN ((LM_ERROR, - "No words in input file, did you forget to prepend %%%%" - " or use -t accidentally?\n"), - -1); - // Read in all the keywords from the input file. - else - { - List_Node *temp = 0; - const char *delimiter = option.delimiter (); - ACE_NEW_RETURN (this->head, - List_Node (buffer, - static_cast<int> (ACE_OS::strcspn (buffer, - delimiter))), - -1); - for (temp = this->head; - (0 != (buffer = input.read ('\n'))) - && ACE_OS::strcmp (buffer, "%%"); - temp = temp->next) - { - ACE_NEW_RETURN (temp->next, - List_Node (buffer, - static_cast<int> (ACE_OS::strcspn (buffer, - delimiter))), - -1); - this->total_keys++; - } - - // See if any additional source code is included at end of - // this file. - if (buffer) - additional_code = 1; - - this->list_len = this->total_keys; - - // Make large hash table for efficiency. - Hash_Table table (this->list_len * Key_List::TABLE_MULTIPLE); - List_Node *trail = 0; - - // Test whether there are any links and also set the maximum - // length an identifier in the keyword list. - - for (temp = head; - temp != 0; - temp = temp->next) - { - List_Node *ptr = table.find (temp, option[NOLENGTH]); - - // Check for static key links. We deal with these by - // building an equivalence class of all duplicate values - // (i.e., links) so that only 1 keyword is - // representative of the entire collection. This - // *greatly* simplifies processing during later stages - // of the program. - - if (ptr == 0) - trail = temp; - else - { - total_duplicates++; - list_len--; - trail->next = temp->next; - temp->link = ptr->link; - ptr->link = temp; - - // Complain if user hasn't enabled the duplicate - // option. - if (!option[DUP] || option[DEBUGGING]) - ACE_ERROR ((LM_ERROR, - "Static key link: \"%s\" = \"%s\", with key set \"%s\".\n", - temp->key, - ptr->key, - temp->keysig)); - } - - // Update minimum and maximum keyword length, if needed. - if (max_key_len < temp->length) - max_key_len = temp->length; - if (min_key_len > temp->length) - min_key_len = temp->length; - } - } - - // Exit program if links exists and option[DUP] not set, since - // we can't continue. - if (total_duplicates) - { - if (option[DUP]) - { - if (!option[MUTE]) - ACE_ERROR_RETURN ((LM_ERROR, - "%d input keysigs have identical hash values, examine output carefully...\n", - total_duplicates), - 0); - } - else - ACE_ERROR_RETURN ((LM_ERROR, - "%d input keysigs have identical hash values,\ntry different key positions or use option -D.\n", - total_duplicates), - -1); - } - if (option[ALLCHARS]) - option.keysig_size (max_key_len); - } - - return 0; -} - -// Recursively merges two sorted lists together to form one sorted -// list. The ordering criteria is by frequency of occurrence of -// elements in the key set or by the hash value. This is a kludge, -// but permits nice sharing of almost identical code without incurring -// the overhead of a function call comparison. - -List_Node * -Key_List::merge (List_Node *list1, List_Node *list2) -{ - if (!list1) - return list2; - else if (!list2) - return list1; - else if (occurrence_sort && list1->occurrence < list2->occurrence - || hash_sort && list1->hash_value > list2->hash_value - || key_sort && ACE_OS::strcmp (list1->key, list2->key) >= 0) - { - list2->next = merge (list2->next, list1); - return list2; - } - else - { - list1->next = merge (list1->next, list2); - return list1; - } -} - -// Applies the merge sort algorithm to recursively sort the key list -// by frequency of occurrence of elements in the key set. - -List_Node * -Key_List::merge_sort (List_Node *a_head) -{ - if (!a_head || !a_head->next) - return a_head; - else - { - List_Node *middle = a_head; - List_Node *temp = a_head->next->next; - - while (temp) - { - temp = temp->next; - middle = middle->next; - if (temp) - temp = temp->next; - } - - temp = middle->next; - middle->next = 0; - return merge (merge_sort (a_head), merge_sort (temp)); - } -} - -// Returns the frequency of occurrence of elements in the key set. - -inline int -Key_List::occurrence (List_Node *ptr) -{ - int value = 0; - - for (char *temp = ptr->keysig; *temp; temp++) - value += Vectors::occurrences[(int) *temp]; - - return value; -} - -// Sets the index location for all keysig characters that are now -// determined. - -inline void -Key_List::determined (List_Node *ptr) -{ - for (char *temp = ptr->keysig; *temp; temp++) - Key_List::determined_[(int) *temp] = 1; -} - -// Returns TRUE if PTR's key set is already completely determined. - -inline int -Key_List::already_determined (List_Node *ptr) -{ - int is_determined = 1; - - for (char *temp = ptr->keysig; is_determined && *temp; temp++) - is_determined = determined_[(int) *temp]; - - return is_determined; -} - -// Reorders the table by first sorting the list so that frequently -// occuring keys appear first, and then the list is reorded so that -// keys whose values are already determined will be placed towards the -// front of the list. This helps prune the search time by handling -// inevitable collisions early in the search process. See Cichelli's -// paper from Jan 1980 JACM for details.... - -void -Key_List::reorder (void) -{ - List_Node *ptr; - - for (ptr = head; ptr; ptr = ptr->next) - ptr->occurrence = occurrence (ptr); - - // Switch to sorting by occurrence. - hash_sort = 0; - occurrence_sort = 1; - - for (ptr = head = merge_sort (head); ptr->next; ptr = ptr->next) - { - determined (ptr); - - if (already_determined (ptr->next)) - continue; - else - { - List_Node *trail_ptr = ptr->next; - List_Node *run_ptr = trail_ptr->next; - - for (; run_ptr; run_ptr = trail_ptr->next) - { - - if (already_determined (run_ptr)) - { - trail_ptr->next = run_ptr->next; - run_ptr->next = ptr->next; - ptr = ptr->next = run_ptr; - } - else - trail_ptr = run_ptr; - } - } - } -} - -// Outputs the maximum and minimum hash values. Since the list is -// already sorted by hash value all we need to do is find the final -// item! - -void -Key_List::output_min_max (void) -{ - List_Node *temp; - for (temp = head; temp->next; temp = temp->next) - continue; - - min_hash_value = head->hash_value; - max_hash_value = temp->hash_value; - - if (!option[ENUM]) - ACE_OS::printf ("\n#define TOTAL_KEYWORDS %d\n#define MIN_WORD_LENGTH %d" - "\n#define MAX_WORD_LENGTH %d\n#define MIN_HASH_VALUE %d" - "\n#define MAX_HASH_VALUE %d\n#define HASH_VALUE_RANGE %d" - "\n#define DUPLICATES %d\n#define WORDLIST_SIZE %d\n\n", - total_keys, min_key_len, max_key_len, min_hash_value, - max_hash_value, max_hash_value - min_hash_value + 1, - total_duplicates ? total_duplicates + 1 : 0, total_keys + min_hash_value); - else if (option[GLOBAL]) - ACE_OS::printf ("enum\n{\n" - " TOTAL_KEYWORDS = %d,\n" - " MIN_WORD_LENGTH = %d,\n" - " MAX_WORD_LENGTH = %d,\n" - " MIN_HASH_VALUE = %d,\n" - " MAX_HASH_VALUE = %d,\n" - " HASH_VALUE_RANGE = %d,\n" - " DUPLICATES = %d\n" - " WORDLIST_SIZE = %d};\n\n", - total_keys, min_key_len, max_key_len, min_hash_value, - max_hash_value, max_hash_value - min_hash_value + 1, - total_duplicates ? total_duplicates + 1 : 0, total_keys + min_hash_value); -} - -// Generates the output using a C switch. This trades increased -// search time for decreased table space (potentially *much* less -// space for sparse tables). It the user has specified their own -// struct in the keyword file *and* they enable the POINTER option we -// have extra work to do. The solution here is to maintain a local -// static array of user defined struct's, as with the -// Output_Lookup_Function. Then we use for switch statements to -// perform either a strcmp or strncmp, returning 0 if the str fails to -// match, and otherwise returning a pointer to appropriate index -// location in the local static array. - -void -Key_List::output_switch (int use_keyword_table) -{ - if (!option[GLOBAL] && use_keyword_table == 0) - { - if (option[LENTABLE] && option[DUP]) - output_keylength_table (); - if (option[POINTER] && option[TYPE]) - output_keyword_table (); - } - - ACE_Auto_Basic_Array_Ptr<char> safe_comp_buffer; - char * comp_buffer; - - List_Node *curr = head; - int pointer_and_type_enabled = option[POINTER] && option[TYPE]; - int total_switches = option.total_switches (); - int switch_size = keyword_list_length () / total_switches; - - if (pointer_and_type_enabled) - { - // Keep track of the longest string we'll need! - const char *s = "charmap[*str] == *resword->%s && !ACE_OS::strncasecmp (str + 1, resword->%s + 1, len - 1)"; - - char * const tmp = - new char[ACE_OS::strlen (s) - + 2 * ACE_OS::strlen (option.key_name ()) + 1]; - safe_comp_buffer.reset (tmp); - - comp_buffer = safe_comp_buffer.get (); - - if (option[COMP]) - ACE_OS::sprintf (comp_buffer, "%s == *resword->%s && !%s (str + 1, resword->%s + 1, len - 1)", - option[STRCASECMP] ? "charmap[*str]" : "*str", option.key_name (), - option[STRCASECMP] ? "strncasecmp" : "strncmp", option.key_name ()); - else - ACE_OS::sprintf (comp_buffer, "%s == *resword->%s && !%s (str + 1, resword->%s + 1)", - option[STRCASECMP] ? "charmap[*str]" : "*str", option.key_name (), - option[STRCASECMP] ? "strcasecmp" : "strcmp", option.key_name ()); - } - else - { - if (option[COMP]) - comp_buffer = option[STRCASECMP] - ? (char *) "charmap[*str] == *resword && !ACE_OS::strncasecmp (str + 1, resword + 1, len - 1)" - : (char *) "*str == *resword && !ACE_OS::strncmp (str + 1, resword + 1, len - 1)"; - else - comp_buffer = option[STRCASECMP] - ? (char *) "charmap[*str] == *resword && !ACE_OS::strncasecmp (str + 1, resword + 1, len - 1)" - : (char *) "*str == *resword && !ACE_OS::strcmp (str + 1, resword + 1)"; - } - if (!option[OPTIMIZE]) - ACE_OS::printf (" if (len <= MAX_WORD_LENGTH && len >= MIN_WORD_LENGTH)\n {\n"); - ACE_OS::printf (" unsigned int key = %s (str, len);\n\n", option.hash_name ()); - if (!option[OPTIMIZE]) - ACE_OS::printf (" if (key <= MAX_HASH_VALUE && key >= MIN_HASH_VALUE)\n"); - - ACE_OS::printf (" {\n"); - - // Properly deal with user's who request multiple switch statements. - - while (curr) - { - List_Node *temp = curr; - int lowest_case_value = curr->hash_value; - int number_of_cases = 0; - - // Figure out a good cut point to end this switch. - - for (; temp && ++number_of_cases < switch_size; temp = temp->next) - if (temp->next && temp->hash_value == temp->next->hash_value) - while (temp->next && temp->hash_value == temp->next->hash_value) - temp = temp->next; - - if (temp && total_switches != 1) - ACE_OS::printf (" if (key <= %d)\n {\n", temp->hash_value); - else - ACE_OS::printf (" {\n"); - - // Output each keyword as part of a switch statement indexed by - // hash value. - - if (option[POINTER] || option[DUP] || use_keyword_table) - { - int i = 0; - - ACE_OS::printf (" %s%s *resword; %s\n\n", - option[CONSTANT] || pointer_and_type_enabled == 0 ? "const " : "", - pointer_and_type_enabled ? struct_tag : "char", - option[LENTABLE] && !option[DUP] ? "unsigned int key_len;" : ""); - if (total_switches == 1) - { - ACE_OS::printf (" switch (key)\n {\n"); - lowest_case_value = 0; - } - else - ACE_OS::printf (" switch (key - %d)\n {\n", lowest_case_value); - - for (temp = curr; temp && ++i <= number_of_cases; temp = temp->next) - { - ACE_OS::printf (" case %*d:\n", - Key_List::field_width, - temp->hash_value - lowest_case_value); - - // Handle `static links,' i.e., those that occur during - // the initial preprocessing. - - if (temp->link == 0) - { - if (option[DEBUGGING]) - ACE_OS::printf (" /* hash value = %4d, keyword = \"%s\" */\n", - temp->hash_value, - temp->key); - } - else - { - List_Node *links; - - for (links = temp; links; links = links->link) - { - if (option[DEBUGGING]) - ACE_OS::printf (" /* hash value = %4d, keyword = \"%s\" */\n", - temp->hash_value, - links->key); - if (pointer_and_type_enabled) - ACE_OS::printf (" resword = &wordlist[%d];\n", links->slot); - else if (use_keyword_table) - ACE_OS::printf (" resword = wordlist[%d];\n", links->slot); - else - ACE_OS::printf (" resword = \"%s\";\n", links->key); - ACE_OS::printf (" if (%s) return resword;\n", comp_buffer); - } - } - - // Handle unresolved duplicate hash values. These are - // guaranteed to be adjacent since we sorted the keyword - // list by increasing hash values. - if (temp->next && temp->hash_value == temp->next->hash_value) - { - - for ( ; temp->next && temp->hash_value == temp->next->hash_value; - temp = temp->next) - { - if (pointer_and_type_enabled) - ACE_OS::printf (" resword = &wordlist[%d];\n", temp->slot); - else if (use_keyword_table) - ACE_OS::printf (" resword = wordlist[%d];", temp->slot); - else - ACE_OS::printf (" resword = \"%s\";\n", temp->key); - ACE_OS::printf (" if (%s) return resword;\n", comp_buffer); - } - if (pointer_and_type_enabled) - ACE_OS::printf (" resword = &wordlist[%d];\n", temp->slot); - else if (use_keyword_table) - ACE_OS::printf (" resword = wordlist[%d];", temp->slot); - else - ACE_OS::printf (" resword = \"%s\";\n", temp->key); - ACE_OS::printf (" return %s ? resword : 0;\n", comp_buffer); - } - else if (temp->link) - ACE_OS::printf (" return 0;\n"); - else - { - if (pointer_and_type_enabled) - ACE_OS::printf (" resword = &wordlist[%d];", temp->slot); - else if (use_keyword_table) - ACE_OS::printf (" resword = wordlist[%d];", temp->slot); - else - ACE_OS::printf (" resword = \"%s\";", temp->key); - if (option[LENTABLE] && !option[DUP]) - ACE_OS::printf (" key_len = %d;", temp->length); - ACE_OS::printf (" break;\n"); - } - } - ACE_OS::printf (" default: return 0;\n }\n"); - if (option[OPTIMIZE]) - ACE_OS::printf (" return resword;\n"); - else - { - ACE_OS::printf (option[LENTABLE] && !option[DUP] - ? " if (len == key_len && %s)\n return resword;\n" - : " if (%s)\n return resword;\n", comp_buffer); - ACE_OS::printf (" return 0;\n"); - } - ACE_OS::printf (" }\n"); - curr = temp; - } - else // Nothing special required here. - { - int i = 0; - ACE_OS::printf (" char *s;\n\n switch (key - %d)\n {\n", - lowest_case_value); - - for (temp = curr; temp && ++i <= number_of_cases; temp = temp->next) - if (option[LENTABLE]) - ACE_OS::printf (" case %*d: if (len == %d) s = \"%s\"; else return 0; break;\n", - Key_List::field_width, - temp->hash_value - lowest_case_value, - temp->length, - temp->key); - else - ACE_OS::printf (" case %*d: s = \"%s\"; break;\n", - Key_List::field_width, - temp->hash_value - lowest_case_value, - temp->key); - - ACE_OS::printf (" default: return 0;\n }\n "); - if (option[COMP]) - ACE_OS::printf ("return %s == *s && !%s;\n }\n", - option[STRCASECMP] ? "charmap[*str]" : "*str", - option[STRCASECMP] ? "strncasecmp (s + 1, str + 1, len - 1)" : "strcmp (s + 1, str + 1)"); - else - ACE_OS::printf ("return %s == *s && !%s;\n }\n", - option[STRCASECMP] ? "charmap[*str]" : "*str", - option[STRCASECMP] ? "strcasecmp (s + 1, str + 1, len - 1)" : "strcmp (s + 1, str + 1)"); - curr = temp; - } - } - ACE_OS::printf (" }\n %s\n}\n", option[OPTIMIZE] ? "" : "}\n return 0;"); -} - -// Prints out a table of keyword lengths, for use with the comparison -// code in generated function ``in_word_set.'' - -void -Key_List::output_keylength_table (void) -{ - const int max_column = 15; - int slot = 0; - int column = 0; - const char *indent = option[GLOBAL] ? "" : " "; - List_Node *temp; - - if (!option[DUP] && !option[SWITCH]) - { - ACE_OS::printf ("\n%sstatic %sunsigned %s lengthtable[] =\n%s%s{\n ", - indent, - option[CONSTANT] ? "const " : "", - max_key_len <= ((int) UCHAR_MAX) ? "char" : (max_key_len <= ((int) USHRT_MAX) ? "short" : "long"), - indent, - indent); - - for (temp = head; temp; temp = temp->next, slot++) - { - - if (slot < temp->hash_value) - for ( ; slot < temp->hash_value; slot++) - ACE_OS::printf ("%3d,%s", 0, ++column % (max_column - 1) ? "" : "\n "); - - ACE_OS::printf ("%3d,%s", temp->length, ++column % (max_column - 1 ) ? "" : "\n "); - } - - ACE_OS::printf ("\n%s%s};\n", - indent, - indent); - } -} - -// Prints out the array containing the key words for the Gen_Perf hash -// function. - -void -Key_List::output_keyword_table (void) -{ - const char *l_brace = *head->rest ? "{" : ""; - const char *r_brace = *head->rest ? "}," : ""; - const char *indent = option[GLOBAL] ? "" : " "; - int slot = 0; - List_Node *temp; - - int pointer_and_type_enabled = option[POINTER] && option[TYPE]; - ACE_OS::printf ("%sstatic %s%swordlist[] =\n%s%s{\n", - indent, - option[CONSTANT] || pointer_and_type_enabled == 0 ? "const " : "", - struct_tag, - indent, - indent); - - // Skip over leading blank entries if there are no duplicates. - - if (0 < head->hash_value) - ACE_OS::printf (" "); - - - int column; - - for (column = 1; slot < head->hash_value; column++) - { - ACE_OS::printf ("%s\"\",%s%s%s", - l_brace, - option.fill_default (), - r_brace, - column % 9 ? "" : "\n "); - slot++; - } - - if (0 < head->hash_value && column % 10) - ACE_OS::printf ("\n"); - - // Generate an array of reserved words at appropriate locations. - - for (temp = head ; temp; temp = temp->next, slot++) - { - temp->slot = slot; - - if (!option[SWITCH] && (total_duplicates == 0 || !option[DUP]) && slot < temp->hash_value) - { - int column; - - ACE_OS::printf (" "); - - for (column = 1; slot < temp->hash_value; slot++, column++) - ACE_OS::printf ("%s\"\",%s%s%s", - l_brace, - option.fill_default (), - r_brace, - column % 9 ? "" : "\n "); - - if (column % 10) - ACE_OS::printf ("\n"); - else - { - ACE_OS::printf ("%s\"%s\", %s%s", l_brace, temp->key, temp->rest, r_brace); - if (option[DEBUGGING]) - ACE_OS::printf (" /* hash value = %d, slot = %d */", - temp->hash_value, - temp->slot); - putchar ('\n'); - continue; - } - } - - ACE_OS::printf (" %s\"%s\", %s%s", l_brace, temp->key, temp->rest, r_brace); - if (option[DEBUGGING]) - ACE_OS::printf (" /* hash value = %d, slot = %d */", - temp->hash_value, - temp->slot); - putchar ('\n'); - - // Deal with links specially. - if (temp->link) - for (List_Node *links = temp->link; links; links = links->link) - { - links->slot = ++slot; - ACE_OS::printf (" %s\"%s\", %s%s", l_brace, links->key, links->rest, r_brace); - if (option[DEBUGGING]) - ACE_OS::printf (" /* hash value = %d, slot = %d */", - links->hash_value, - links->slot); - putchar ('\n'); - } - - } - ACE_OS::printf ("%s%s};\n\n", indent, indent); -} - -// Generates C code for the binary search algorithm that returns -// the proper encoding for each key word - -int -Key_List::output_binary_search_function (void) -{ - ACE_OS::printf ("%s\n", include_src); - - // Get prototype for strncmp() and strcmp(). - if (!option[SKIPSTRINGH]) - ACE_OS::printf ("#include \"ace/OS_NS_string.h\"\n"); - - // Output type declaration now, reference it later on.... - if (option[TYPE] && !option[NOTYPE]) - ACE_OS::printf ("%s;\n", - array_type_); - - output_min_max (); - - if (option[STRCASECMP]) - output_strcasecmp (); - - // Class definition if -M is *not* enabled. - if (option[CPLUSPLUS] && !option[SKIPCLASS]) - ACE_OS::printf ("class %s {\npublic:\n" - " static %s%s%s (const char *str);\n};\n\n", - option.class_name (), - option[CONSTANT] ? "const " : "", - return_type, - option.function_name ()); - - // Use the inline keyword to remove function overhead. - if (option[INLINE]) - ACE_OS::printf ("inline\n"); - - ACE_OS::printf ("%s%s\n", option[CONSTANT] ? "const " : "", return_type); - if (option[CPLUSPLUS]) - ACE_OS::printf ("%s::", option.class_name ()); - - ACE_OS::printf (option[ANSI] - ? "%s (const char *str)\n{\n" - : "%s (str)\n char *str;\n{\n", - option.function_name ()); - -// Use the switch in place of lookup table. - - if (option[SWITCH]) - output_switch (); - - // Use the lookup table, in place of switch. - else - { - if (!option[GLOBAL]) - { - if (option[LENTABLE]) - output_keylength_table (); - output_keyword_table (); - } - } - - // Logic to handle the Binary Search. - - ACE_OS::printf ("int first = 0, last = 0, middle = 0;\n"); - - if (option[DUP] && total_duplicates > 0) - { - ACE_OS::printf ("%s*base = 0;\n",struct_tag); - } - - ACE_OS::printf ("\nlast = %d;\n",total_keys - 1); - ACE_OS::printf ("while (last >= first)\n"); - ACE_OS::printf ("\t{\n"); - ACE_OS::printf ("\t middle = (last + first) / 2;\n"); - ACE_OS::printf ("\t if (ACE_OS::strcmp (wordlist[middle].%s, str) == 0)\n break;\n", option.key_name()); - ACE_OS::printf ("\t if (ACE_OS::strcmp (wordlist[middle].%s, str) < 0)\n first = middle + 1;\n", option.key_name()); - ACE_OS::printf ("\t else last = middle - 1;\n"); - ACE_OS::printf ("\t}\n"); - ACE_OS::printf ("if (last < first)\n return 0;\n"); - ACE_OS::printf ("else\n return (&wordlist[middle]);\n}\n"); - - if (additional_code) - { - for (;;) - { - int c = getchar (); - - if (c == EOF) - break; - else - putchar (c); - } - } - - ACE_OS::fflush(stdout); - - return 0; - -} - -// Generates C code for the linear search algorithm that returns -// the proper encoding for each key word - -int -Key_List::output_linear_search_function (void) -{ - ACE_OS::printf ("%s\n", include_src); - - // Get prototype for strncmp() and strcmp(). - if (!option[SKIPSTRINGH]) - ACE_OS::printf ("#include \"ace/OS_NS_string.h\"\n"); - - // Output type declaration now, reference it later on.... - if (option[TYPE] && !option[NOTYPE]) - ACE_OS::printf ("%s;\n", - array_type_); - - output_min_max (); - - if (option[STRCASECMP]) - output_strcasecmp (); - - // Class definition if -M is *not* enabled. - if (option[CPLUSPLUS] && !option[SKIPCLASS]) - ACE_OS::printf ("class %s {\npublic:\n" - " static %s%s%s (const char *str);\n};\n\n", - option.class_name (), - option[CONSTANT] ? "const " : "", - return_type, - option.function_name ()); - - // Use the inline keyword to remove function overhead. - if (option[INLINE]) - ACE_OS::printf ("inline\n"); - - ACE_OS::printf ("%s%s\n", - option[CONSTANT] ? "const " : "", - return_type); - if (option[CPLUSPLUS]) - ACE_OS::printf ("%s::", option.class_name ()); - - ACE_OS::printf (option[ANSI] - ? "%s (const char *str)\n{\n" - : "%s (str)\n char *str;\n{\n", - option.function_name ()); - - // Use the switch in place of lookup table. - - if (option[SWITCH]) - output_switch (); - // Use the lookup table, in place of switch. - else - { - if (!option[GLOBAL]) - { - if (option[LENTABLE]) - output_keylength_table (); - output_keyword_table (); - } - } - - // Logic to handle the Linear Search. - - ACE_OS::printf ("for (int i=0; i<=%d; i++)",total_keys-1); - ACE_OS::printf ("\t{\n"); - ACE_OS::printf ("\t if (ACE_OS::strcmp (wordlist[i].%s, str) == 0)\n", option.key_name()); - ACE_OS::printf ("\t return &wordlist[i];\n"); - ACE_OS::printf ("\t}\n"); - ACE_OS::printf ("return 0;\n}\n"); - - if (additional_code) - { - for (;;) - { - int c = getchar (); - - if (c == EOF) - break; - else - putchar (c); - } - } - - ACE_OS::fflush (stdout); - - return 0; - -} -// Generates C code for the hash function that returns the proper -// encoding for each key word. - -void -Key_List::output_hash_function (void) -{ - const int max_column = 10; - int count = max_hash_value; - - // Lookup table for converting ASCII to EBCDIC. - static const int ascii_to_ebcdic[ACE_ASCII_SIZE] = - { - 0x00, 0x01, 0x02, 0x03, 0x37, 0x2D, 0x2E, 0x2F, - 0x16, 0x05, 0x15, 0x0B, 0x0C, 0x0D, 0x0E, 0x0F, - 0x10, 0x11, 0x12, 0x13, 0x3C, 0x3D, 0x32, 0x26, - 0x18, 0x19, 0x3F, 0x27, 0x22, 0x1D, 0x1E, 0x1F, - - 0x40, 0x5A, 0x7F, 0x7B, 0x5B, 0x6C, 0x50, 0x7D, - 0x4D, 0x5D, 0x5C, 0x4E, 0x6B, 0x60, 0x4B, 0x61, - 0xF0, 0xF1, 0xF2, 0xF3, 0xF4, 0xF5, 0xF6, 0xF7, - 0xF8, 0xF9, 0x7A, 0x5E, 0x4C, 0x7E, 0x6E, 0x6F, - - 0x7C, 0xC1, 0xC2, 0xC3, 0xC4, 0xC5, 0xC6, 0xC7, - 0xC8, 0xC9, 0xD1, 0xD2, 0xD3, 0xD4, 0xD5, 0xD6, - 0xD7, 0xD8, 0xD9, 0xE2, 0xE3, 0xE4, 0xE5, 0xE6, - 0xE7, 0xE8, 0xE9, 0xAD, 0xE0, 0xBD, 0x5F, 0x6D, - - 0x79, 0x81, 0x82, 0x83, 0x84, 0x85, 0x86, 0x87, - 0x88, 0x89, 0x91, 0x92, 0x93, 0x94, 0x95, 0x96, - 0x97, 0x98, 0x99, 0xA2, 0xA3, 0xA4, 0xA5, 0xA6, - 0xA7, 0xA8, 0xA9, 0xC0, 0x6A, 0xD0, 0xA1, 0x07}; - - int ebcdic_to_ascii[ACE_EBCDIC_SIZE]; - int target; - - // Calculate maximum number of digits required for MAX_HASH_VALUE. - - for (Key_List::field_width = 2; - (count /= 10) > 0; - Key_List::field_width++) - continue; - - if (option[INLINE]) - ACE_OS::printf ("inline\n"); - - if (option[C]) - ACE_OS::printf ("static "); - ACE_OS::printf ("unsigned int\n"); - if (option[CPLUSPLUS]) - ACE_OS::printf ("%s::", option.class_name ()); - - ACE_OS::printf (option[ANSI] - ? "%s (const char *str, unsigned int len)\n{\n" - : "%s (str, len)\n char *str;\n unsigned int len;\n{\n", - option.hash_name ()); - - // Generate the asso_values table. - ACE_OS::printf (" static %sunsigned %s asso_values[] =\n {", - option[CONSTANT] ? "const " : "", - max_hash_value < ((int) UCHAR_MAX) ? "char" : (max_hash_value < ((int) USHRT_MAX) ? "short" : "int")); - - ACE_OS::printf ("\n#if defined (ACE_MVS)"); -#if ACE_STANDARD_CHARACTER_SET_SIZE == ACE_EBCDIC_SIZE - { - // We are running in EBCDIC environment. - for (count = 0; count < ACE_EBCDIC_SIZE; ++count) - { - if (!(count % max_column)) - ACE_OS::printf ("\n "); - - ACE_OS::printf ("%*d,", - Key_List::field_width, - Vectors::occurrences[count] ? Vectors::asso_values[count] : max_hash_value + 1); - } - - ACE_OS::printf ("\n#else"); - - for (count = 0; count < ACE_ASCII_SIZE; ++count) - { - if (!(count % max_column)) - ACE_OS::printf ("\n "); - - target = ascii_to_ebcdic[count]; - ACE_OS::printf ("%*d,", - Key_List::field_width, - Vectors::occurrences[target] ? Vectors::asso_values[target] : max_hash_value + 1); - } - } -# else - { - // We are running in ASCII environment. - for (count = 0; count < ACE_EBCDIC_SIZE; ++count) - ebcdic_to_ascii[count] = 0; - - for (count = 0; count < ACE_ASCII_SIZE; ++count) - { - target = ascii_to_ebcdic[count]; - ebcdic_to_ascii[target] = count; - } - - for (count = 0; count < ACE_EBCDIC_SIZE; ++count) - { - if (!(count % max_column)) - ACE_OS::printf ("\n "); - - target = ebcdic_to_ascii[count]; - ACE_OS::printf ("%*d,", - Key_List::field_width, - Vectors::occurrences[target] ? Vectors::asso_values[target] : max_hash_value + 1); - } - ACE_OS::printf ("\n#else"); - - for (count = 0; count < ACE_ASCII_SIZE; ++count) - { - if (!(count % max_column)) - ACE_OS::printf ("\n "); - - ACE_OS::printf ("%*d,", - Key_List::field_width, - Vectors::occurrences[count] ? Vectors::asso_values[count] : max_hash_value + 1); - } - } -#endif /* ACE_STANDARD_CHARACTER_SET_SIZE == ACE_EBCDIC_SIZE */ - ACE_OS::printf ("\n#endif /* ACE_MVS */"); - - // Optimize special case of ``-k 1,$'' - if (option[DEFAULTCHARS]) - { - if (option[STRCASECMP]) - ACE_OS::printf ("\n };\n return %sasso_values[(int) charmap[str[len - 1]]] + asso_values[(int) charmap[str[0]]];\n}\n\n", - option[NOLENGTH] ? "" : "len + "); - else - ACE_OS::printf ("\n };\n return %sasso_values[(int) str[len - 1]] + asso_values[(int) str[0]];\n}\n\n", - option[NOLENGTH] ? "" : "len + "); - } - else - { - int key_pos; - - option.reset (); - - // Get first (also highest) key position. - key_pos = option.get (); - - // We can perform additional optimizations here. - if (!option[ALLCHARS] && key_pos <= min_key_len) - { - ACE_OS::printf ("\n };\n return %s", option[NOLENGTH] ? "" : "len + "); - - for (; key_pos != WORD_END; ) - { - ACE_OS::printf (option[STRCASECMP] ? "asso_values[(int) charmap[str[%d]]]" : "asso_values[(int) str[%d]]", key_pos - 1); - if ((key_pos = option.get ()) != EOS) - ACE_OS::printf (" + "); - else - break; - } - - ACE_OS::printf ("%s;\n}\n\n", key_pos == WORD_END - ? (option[STRCASECMP] ? "asso_values[(int) charmap[str[len - 1]]]" : "asso_values[(int) str[len - 1]]") - : ""); - } - - // We've got to use the correct, but brute force, technique. - else - { - ACE_OS::printf ("\n };\n unsigned int hval = %s;\n\n switch (%s)\n {\n default:\n", - option[NOLENGTH] ? "0" : "len", option[NOLENGTH] ? "len" : "hval"); - - // User wants *all* characters considered in hash. - if (option[ALLCHARS]) - { - int i; - - // Break these options up for speed (gee, is this misplaced efficiency or what?! - if (option[STRCASECMP]) - - for (i = max_key_len; i > 0; i--) - ACE_OS::printf (" case %d:\n hval += asso_values[(int) charmap[(int) str[%d]]];\n", i, i - 1); - - else - - for (i = max_key_len; i > 0; i--) - ACE_OS::printf (" case %d:\n hval += asso_values[(int) str[%d]];\n", i, i - 1); - - ACE_OS::printf (" }\n return hval;\n}\n\n"); - } - else // do the hard part... - { - count = key_pos + 1; - - do - { - - while (--count > key_pos) - ACE_OS::printf (" case %d:\n", count); - - ACE_OS::printf (option[STRCASECMP] - ? " case %d:\n hval += asso_values[(int) charmap[(int) str[%d]]];\n" - : " case %d:\n hval += asso_values[(int) str[%d]];\n", - key_pos, key_pos - 1); - } - while ((key_pos = option.get ()) != EOS && key_pos != WORD_END); - - ACE_OS::printf (" }\n return hval%s;\n}\n\n", - key_pos == WORD_END - ? (option[STRCASECMP] ? " + asso_values[(int) charmap[(int) str[len - 1]]]" : " + asso_values[(int) str[len - 1]]") - : ""); - } - } - } -} - -int -Key_List::count_duplicates (List_Node *link, - const char *type) -{ - int count = 0; - - // Count the number of "static" duplicates for this hash value. - for (List_Node *ptr = link; - ptr != 0; - ptr = ptr->link) - { - count++; - - if (option[DEBUGGING]) - ACE_DEBUG ((LM_DEBUG, - "%s linked keyword = %s, slot = %d, hash_value = %d\n", - type, - ptr->key, - ptr->slot, - ptr->hash_value)); - } - - return count; -} - -void -Key_List::update_lookup_array (int lookup_array[], - int i1, - int i2, - Duplicate_Entry *dup_ptr, - int value) -{ - lookup_array[i1] = -dup_ptr->slot; - lookup_array[i2] = -dup_ptr->count; - lookup_array[dup_ptr->hash_value] = value; -} - -// Generates the large, sparse table that maps hash values in the -// smaller, contiguous range of the keyword table. - -int -Key_List::output_lookup_array (void) -{ - if (total_duplicates > 0) - { - const int DEFAULT_VALUE = -1; - - Duplicate_Entry *duplicates = 0; - ACE_NEW_RETURN (duplicates, - Duplicate_Entry[total_duplicates], - -1); - - int *lookup_array = 0; - ACE_NEW_RETURN (lookup_array, - int[max_hash_value + 1], - -1); - - Duplicate_Entry *dup_ptr = duplicates; - int *lookup_ptr = lookup_array + max_hash_value + 1; - - // Initialize the lookup array to the DEFAULT_VALUE (-1). - while (lookup_ptr > lookup_array) - *--lookup_ptr = DEFAULT_VALUE; - - // Iterate through the keylist and handle the static and dynamic - // duplicate entries. - for (List_Node *temp = head; temp; temp = temp->next) - { - int hash_value = temp->hash_value; - // Store the keyword's slot location into the - // <lookup_array> at the <hash_value>. If this is a - // non-duplicate, then this value will point directly to the - // keyword. - lookup_array[hash_value] = temp->slot; - - if (option[DEBUGGING]) - ACE_DEBUG ((LM_DEBUG, - "keyword = %s, slot = %d, hash_value = %d, lookup_array[hash_value] = %d\n", - temp->key, - temp->slot, - temp->hash_value, - lookup_array[temp->hash_value])); - - if (temp->link == 0 && - (temp->next == 0 || hash_value != temp->next->hash_value)) - // This isn't a duplicate. Note that we know this because - // we sorted the keys by their hash value. - continue; - else - { - // We'll handle the duplicates here. - dup_ptr->hash_value = hash_value; - dup_ptr->slot = temp->slot; - dup_ptr->count = 1; - - // Count the number of "static" duplicates, i.e., - // keywords that had the same keysig when the keyfile - // was first read. - dup_ptr->count += this->count_duplicates (temp->link, - "static"); - - // Count the number of "dynamic" duplicates, i.e., - // keywords that ended up with the same hash value as a - // result of the <asso_values> contents. - for (; - temp->next && hash_value == temp->next->hash_value; - temp = temp->next) - dup_ptr->count += this->count_duplicates (temp->next, - "dynamic"); - dup_ptr++; - } - } - - // Compute the values in the lookup array. - while (--dup_ptr >= duplicates) - { - if (option[DEBUGGING]) - ACE_DEBUG ((LM_DEBUG, - "dup_ptr[%d]: hash_value = %d, slot = %d, count = %d\n", - dup_ptr - duplicates, - dup_ptr->hash_value, - dup_ptr->slot, - dup_ptr->count)); - int i; - - // Look to the left first. - for (i = dup_ptr->hash_value; i > 0; i--) - if (lookup_array[i] == DEFAULT_VALUE && lookup_array[i - 1] == DEFAULT_VALUE) - { - this->update_lookup_array (lookup_array, - i - 1, - i, - dup_ptr, - -(max_hash_value + (dup_ptr->hash_value - i + 1))); - break; - } - - // If we didn't find it to the left look to the right - // instead... - if (i == 0) - { - for (i = dup_ptr->hash_value; i < max_hash_value; i++) - if (lookup_array[i] == DEFAULT_VALUE && lookup_array[i + 1] == DEFAULT_VALUE) - { - this->update_lookup_array (lookup_array, - i, - i + 1, - dup_ptr, - max_hash_value + (i - dup_ptr->hash_value)); - break; - } - - // If this happens, we can't use the output array scheme... - if (i >= max_hash_value) - { - option = SWITCH; - ACE_DEBUG ((LM_DEBUG, - "GPERF: Automatically changing to -S1 switch option\n")); - // Since we've already generated the keyword table - // we need to use it! - this->output_switch (1); - return 1; // 1 indicates that we've changed our mind... - } - } - } - - lookup_ptr = lookup_array + max_hash_value + 1; - int max = INT_MIN; - - while (lookup_ptr > lookup_array) - { - int val = abs (*--lookup_ptr); - if (max < val) - max = val; - } - - const char *indent = option[GLOBAL] ? "" : " "; - - ACE_OS::printf ("%sstatic %ssigned %s lookup[] =\n%s%s{\n%s", indent, option[CONSTANT] ? "const " : "", - max <= SCHAR_MAX ? "char" : (max <= SHRT_MAX ? "short" : "int"), - indent, indent, option[DEBUGGING] ? "" : " "); - - int count = max; - - // Calculate maximum number of digits required for LOOKUP_ARRAY_SIZE. - - for (Key_List::field_width = 2; (count /= 10) > 0; Key_List::field_width++) - continue; - - const int max_column = 15; - int column = 0; - - for (lookup_ptr = lookup_array; - lookup_ptr < lookup_array + max_hash_value + 1; - lookup_ptr++) - { - if (option[DEBUGGING]) - ACE_OS::printf (" %*d, /* slot = %d */\n", - Key_List::field_width, - *lookup_ptr, - (int)(lookup_ptr - lookup_array)); - else - ACE_OS::printf ("%*d, %s", - Key_List::field_width, - *lookup_ptr, - ++column % (max_column - 1) ? "" : "\n "); - } - ACE_OS::printf ("%s%s%s};\n\n", option[DEBUGGING] ? "" : "\n", indent, indent); - - delete [] duplicates; - delete [] lookup_array; - } - return 0; -} - -// Generates C code to perform the keyword lookup. - -void -Key_List::output_lookup_function (void) -{ - if (!option[OPTIMIZE]) - ACE_OS::printf (" if (len <= MAX_WORD_LENGTH && len >= MIN_WORD_LENGTH)\n {\n"); - ACE_OS::printf (" unsigned int key = %s (str, len);\n\n", option.hash_name ()); - if (!option[OPTIMIZE]) - ACE_OS::printf (" if (key <= MAX_HASH_VALUE && key >= MIN_HASH_VALUE)\n"); - ACE_OS::printf (" {\n"); - - if (option[DUP] && total_duplicates > 0) - { - int pointer_and_type_enabled = option[POINTER] && option[TYPE]; - - ACE_OS::printf (" int slot = lookup[key];\n\n" - " if (slot >= 0 && slot < WORDLIST_SIZE)\n"); - if (option[OPTIMIZE]) - ACE_OS::printf (" return %swordlist[slot];\n", option[TYPE] && option[POINTER] ? "&" : ""); - else - { - ACE_OS::printf (" {\n" - " %schar *s = wordlist[slot]", option[CONSTANT] || pointer_and_type_enabled == 0 ? "const " : ""); - if (array_type_ != Key_List::default_array_type) - ACE_OS::printf (".%s", option.key_name ()); - - ACE_OS::printf (";\n\n if (%s%s == *s && !%s)\n return %s;\n }\n", - option[LENTABLE] ? "len == lengthtable[key]\n && " : "", - option[STRCASECMP] ? "charmap[*str]" : "*str", - option[COMP] ? (option[STRCASECMP] ? "strncasecmp (str + 1, s + 1, len - 1)" : "strncmp (str + 1, s + 1, len - 1)") - : (option[STRCASECMP] ? "strcasecmp (str + 1, s + 1)" : "strcmp (str + 1, s + 1)"), - option[TYPE] && option[POINTER] ? "&wordlist[slot]" : "s"); - ACE_OS::printf (" else if (slot < 0 && slot >= -MAX_HASH_VALUE)\n" - " return 0;\n"); - } - ACE_OS::printf (" else\n {\n" - " unsigned int offset = key + slot + (slot > 0 ? -MAX_HASH_VALUE : MAX_HASH_VALUE);\n" - " %s%s*base = &wordlist[-lookup[offset]];\n" - " %s%s*ptr = base + -lookup[offset + 1];\n\n" - " while (--ptr >= base)\n ", - option[CONSTANT] || pointer_and_type_enabled == 0 ? "const " : "", struct_tag, - option[CONSTANT] || pointer_and_type_enabled == 0 ? "const " : "", struct_tag); - if (array_type_ != Key_List::default_array_type) - { - if (option[COMP]) - ACE_OS::printf ("if (%s == *ptr->%s && !%s (str + 1, ptr->%s + 1, len - 1", - option[STRCASECMP] ? "charmap[*str]" : "*str", option.key_name (), - option[STRCASECMP] ? "strncasecmp" : "strncmp", option.key_name ()); - else - ACE_OS::printf ("if (%s == *ptr->%s && !%s (str + 1, ptr->%s + 1", - option[STRCASECMP] ? "charmap[*str]" : "*str", option.key_name (), - option[STRCASECMP] ? "strcasecmp" : "strcmp", option.key_name ()); - } - else - ACE_OS::printf (option[STRCASECMP] ? "if (charmap[*str] == **ptr && !%s" : "if (*str == **ptr && !%s", - option[COMP] - ? (option[STRCASECMP] ? "strncasecmp (str + 1, *ptr + 1, len - 1" : "strncmp (str + 1, *ptr + 1, len - 1") - : (option[STRCASECMP] ? "strcasecmp (str + 1, *ptr + 1" : "strcmp (str + 1, *ptr + 1")); - ACE_OS::printf ("))\n return %sptr;" - "\n }\n }\n %s\n}\n", array_type_ == - Key_List::default_array_type ? "*" : "", option[OPTIMIZE] ? "" : "}\n return 0;"); - } - else - { - if (option[OPTIMIZE]) - ACE_OS::printf (" return %swordlist[key]", option[TYPE] && option[POINTER] ? "&" : ""); - else - { - int pointer_and_type_enabled = option[POINTER] && option[TYPE]; - - ACE_OS::printf (" %schar *s = wordlist[key]", option[CONSTANT] || pointer_and_type_enabled == 0 ? "const " : ""); - - if (array_type_ != Key_List::default_array_type) - ACE_OS::printf (".%s", option.key_name ()); - - ACE_OS::printf (";\n\n if (%s%s == *s && !%s)\n return %s", - option[LENTABLE] ? "len == lengthtable[key]\n && " : "", - option[STRCASECMP] ? "charmap[*str]" : "*str", - option[COMP] - ? (option[STRCASECMP] ? "strncasecmp (str + 1, s + 1, len - 1)" : "strncmp (str + 1, s + 1, len - 1)") - : (option[STRCASECMP] ? "strcasecmp (str + 1, s + 1)" : "strcmp (str + 1, s + 1)"), - option[TYPE] && option[POINTER] ? "&wordlist[key]" : "s"); - } - ACE_OS::printf (";\n }\n %s\n}\n", option[OPTIMIZE] ? "" : "}\n return 0;"); - } -} - -// Output the table and the functions that map upper case into lower case! - -void -Key_List::output_strcasecmp (void) -{ - ACE_OS::printf ("%s", - "/* This array is designed for mapping upper and lower case letter\n" - " * together for a case independent comparison. The mappings are\n" - " * based upon ascii character sequences.\n */" - "static char charmap[] = {\n" - " '\\000', '\\001', '\\002', '\\003', '\\004', '\\005', '\\006', '\\007',\n" - " '\\010', '\\011', '\\012', '\\013', '\\014', '\\015', '\\016', '\\017',\n" - " '\\020', '\\021', '\\022', '\\023', '\\024', '\\025', '\\026', '\\027',\n" - " '\\030', '\\031', '\\032', '\\033', '\\034', '\\035', '\\036', '\\037',\n" - " '\\040', '\\041', '\\042', '\\043', '\\044', '\\045', '\\046', '\\047',\n" - " '\\050', '\\051', '\\052', '\\053', '\\054', '\\055', '\\056', '\\057',\n" - " '\\060', '\\061', '\\062', '\\063', '\\064', '\\065', '\\066', '\\067',\n" - " '\\070', '\\071', '\\072', '\\073', '\\074', '\\075', '\\076', '\\077',\n" - " '\\100', '\\141', '\\142', '\\143', '\\144', '\\145', '\\146', '\\147',\n" - " '\\150', '\\151', '\\152', '\\153', '\\154', '\\155', '\\156', '\\157',\n" - " '\\160', '\\161', '\\162', '\\163', '\\164', '\\165', '\\166', '\\167',\n" - " '\\170', '\\171', '\\172', '\\133', '\\134', '\\135', '\\136', '\\137',\n" - " '\\140', '\\141', '\\142', '\\143', '\\144', '\\145', '\\146', '\\147',\n" - " '\\150', '\\151', '\\152', '\\153', '\\154', '\\155', '\\156', '\\157',\n" - " '\\160', '\\161', '\\162', '\\163', '\\164', '\\165', '\\166', '\\167',\n" - " '\\170', '\\171', '\\172', '\\173', '\\174', '\\175', '\\176', '\\177',\n" - " '\\200', '\\201', '\\202', '\\203', '\\204', '\\205', '\\206', '\\207',\n" - " '\\210', '\\211', '\\212', '\\213', '\\214', '\\215', '\\216', '\\217',\n" - " '\\220', '\\221', '\\222', '\\223', '\\224', '\\225', '\\226', '\\227',\n" - " '\\230', '\\231', '\\232', '\\233', '\\234', '\\235', '\\236', '\\237',\n" - " '\\240', '\\241', '\\242', '\\243', '\\244', '\\245', '\\246', '\\247',\n" - " '\\250', '\\251', '\\252', '\\253', '\\254', '\\255', '\\256', '\\257',\n" - " '\\260', '\\261', '\\262', '\\263', '\\264', '\\265', '\\266', '\\267',\n" - " '\\270', '\\271', '\\272', '\\273', '\\274', '\\275', '\\276', '\\277',\n" - " '\\300', '\\341', '\\342', '\\343', '\\344', '\\345', '\\346', '\\347',\n" - " '\\350', '\\351', '\\352', '\\353', '\\354', '\\355', '\\356', '\\357',\n" - " '\\360', '\\361', '\\362', '\\363', '\\364', '\\365', '\\366', '\\367',\n" - " '\\370', '\\371', '\\372', '\\333', '\\334', '\\335', '\\336', '\\337',\n" - " '\\340', '\\341', '\\342', '\\343', '\\344', '\\345', '\\346', '\\347',\n" - " '\\350', '\\351', '\\352', '\\353', '\\354', '\\355', '\\356', '\\357',\n" - " '\\360', '\\361', '\\362', '\\363', '\\364', '\\365', '\\366', '\\367',\n" - " '\\370', '\\371', '\\372', '\\373', '\\374', '\\375', '\\376', '\\377',\n};\n\nstatic int\n"); - if (option[COMP]) - { - ACE_OS::printf ("%s", option[ANSI] - ? "strncasecmp (char *s1, char *s2, int n)" - : "strncasecmp (s1, s2, n)\n char *s1, *s2;\n int n;"); - ACE_OS::printf ("\n{\n char *cm = charmap;\n\n while (--n >= 0 && cm[*s1] == cm[*s2++])\n" - " if (*s1++ == '\\0')\n return 0;\n" - "\n return n < 0 ? 0 : cm[*s1] - cm[*--s2];\n}\n\n"); - } - else - { - ACE_OS::printf ("%s", option[ANSI] - ? "strcasecmp (char *s1, char *s2)" - : "strcasecmp (s1, s2)\n char *s1, *s2;"); - ACE_OS::printf ("\n{\n char *cm = charmap;\n\n while (cm[*s1] == cm[*s2++])\n" - " if (*s1++ == '\\0')\n return 0;\n" - "\n return cm[*s1] - cm[*--s2];\n}\n\n"); - } -} - -// Generates the hash function and the key word recognizer function -// based upon the user's Options. - -int -Key_List::output (void) -{ - if (option[BINARYSEARCH]) - // Generate code binary search. - this->output_binary_search_function (); - else if (option[LINEARSEARCH]) - // Generate code for linear search. - this->output_linear_search_function (); - else - { - // Generate the usual GPERF things. - ACE_OS::printf ("%s\n", include_src); - - // Get prototype for strncmp() and strcmp(). - if (!option[SKIPSTRINGH]) - ACE_OS::printf ("#include \"ace/OS_NS_string.h\"\n"); - - // Output type declaration now, reference it later on.... - if (option[TYPE] && !option[NOTYPE]) - ACE_OS::printf ("%s;\n", - array_type_); - - output_min_max (); - - if (option[STRCASECMP]) - output_strcasecmp (); - - // Class definition if -M is *not* enabled. - if (option[CPLUSPLUS] && !option[SKIPCLASS]) - ACE_OS::printf ("class %s\n{\nprivate:\n" - " static unsigned int %s (const char *str, unsigned int len);\npublic:\n" - " static %s%s%s (const char *str, unsigned int len);\n};\n\n", - option.class_name (), - option.hash_name (), - option[CONSTANT] ? "const " : "", - return_type, - option.function_name ()); - - output_hash_function (); - - if (option[GLOBAL]) - if (option[SWITCH]) - { - if (option[LENTABLE] && option[DUP]) - output_keylength_table (); - if (option[POINTER] && option[TYPE]) - output_keyword_table (); - } - else - { - if (option[LENTABLE]) - output_keylength_table (); - output_keyword_table (); - if (output_lookup_array () == -1) - ACE_ERROR_RETURN ((LM_DEBUG, - "%p\n", - "output_lookup_array"), - -1); - } - - // Use the inline keyword to remove function overhead. - if (option[INLINE]) - ACE_OS::printf ("inline\n"); - - int pointer_and_type_enabled = option[POINTER] && option[TYPE]; - - ACE_OS::printf ("%s%s\n", - option[CONSTANT] || pointer_and_type_enabled == 0 ? "const " : "", - return_type); - if (option[CPLUSPLUS]) - ACE_OS::printf ("%s::", option.class_name ()); - - ACE_OS::printf (option[ANSI] - ? "%s (const char *str, unsigned int len)\n{\n" - : "%s (str, len)\n char *str;\n unsigned int len;\n{\n", - option.function_name ()); - - if (option[ENUM] && !option[GLOBAL]) - ACE_OS::printf (" enum\n {\n" - " TOTAL_KEYWORDS = %d,\n" - " MIN_WORD_LENGTH = %d,\n" - " MAX_WORD_LENGTH = %d,\n" - " MIN_HASH_VALUE = %d,\n" - " MAX_HASH_VALUE = %d,\n" - " HASH_VALUE_RANGE = %d,\n" - " DUPLICATES = %d,\n" - " WORDLIST_SIZE = %d\n };\n\n", - total_keys, min_key_len, max_key_len, min_hash_value, - max_hash_value, max_hash_value - min_hash_value + 1, - total_duplicates ? total_duplicates + 1 : 0, total_keys + min_hash_value); - // Use the switch in place of lookup table. - if (option[SWITCH]) - output_switch (); - // Use the lookup table, in place of switch. - else - { - if (!option[GLOBAL]) - { - if (option[LENTABLE]) - output_keylength_table (); - output_keyword_table (); - } - if (!option[GLOBAL]) - { - switch (output_lookup_array ()) - { - case -1: - ACE_ERROR_RETURN ((LM_DEBUG, - "%p\n", - "output_lookup_array"), - -1); - /* NOTREACHED */ - case 0: - output_lookup_function (); - break; - /* NOTREACHED */ - default: - break; - /* NOTREACHED */ - } - } - else - output_lookup_function (); - } - - if (additional_code) - { - for (;;) - { - int c = getchar (); - - if (c == EOF) - break; - else - putchar (c); - } - } - ACE_OS::fflush (stdout); - } - return 0; - } - -// Sorts the keys by hash value. - -void -Key_List::sort (void) -{ - // By default, we sort via hashing. - hash_sort = 1; - occurrence_sort = 0; - - this->head = merge_sort (this->head); -} - -// Sorts the keys by normal strcmp. -void -Key_List::string_sort (void) -{ - - // Flatten the equivalence class list to a linear list. - - List_Node *ptr; - for(ptr=head;ptr;ptr=ptr->next) - { - List_Node *curr; - if(ptr->link) - { - List_Node *last_node = 0; - - for(curr = ptr->link; curr; curr = curr->link) - { - // Chnage the link to next pointer. - curr->next = curr->link; - - // Save the pointer for the last node. - if (curr->link == 0) - last_node = curr; - } - - // Set the pointers, correctly. - last_node->next = ptr->next; - ptr->next = ptr->link; - ptr = last_node; - } - } - - // Set all links to Null. - - for(ptr=head;ptr;ptr=ptr->next) - { - ptr->link = 0; - } - - // Set the sorting options. - - key_sort = 1; - hash_sort = 0; - occurrence_sort = 0; - - // Sort. - - this->head = merge_sort (head); - key_sort = 0; -} - - -// Dumps the key list to stderr stream. - -void -Key_List::dump (void) -{ - ACE_DEBUG ((LM_DEBUG, - "\nDumping key list information:\ntotal non-static linked keywords = %d" - "\ntotal keywords = %d\ntotal duplicates = %d\nmaximum key length = %d\n", - list_len, - total_keys, - total_duplicates ? total_duplicates + 1 : 0, - max_key_len)); - - u_int keysig_width = option.max_keysig_size () > ACE_OS::strlen ("keysig") - ? option.max_keysig_size () - : static_cast<u_int> (ACE_OS::strlen ("keysig")); - - size_t key_length = this->max_key_length (); - size_t keyword_width = key_length > ACE_OS::strlen ("keysig") - ? key_length - : ACE_OS::strlen ("keysig"); - - ACE_DEBUG ((LM_DEBUG, - "\nList contents are:\n(hash value, key length, slot, %*s, %*s, duplicates):\n", - keysig_width, - "keysig", - keyword_width, - "keyword")); - - for (List_Node *ptr = head; ptr; ptr = ptr->next) - { - ACE_DEBUG ((LM_DEBUG, - "%11d,%11d,%6d, %*s, %*s", - ptr->hash_value, - ptr->length, - ptr->slot, - keysig_width, - ptr->keysig, - keyword_width, - ptr->key)); - - List_Node *dup = ptr->link; - if (dup) - { - for (; - dup != 0; - dup = dup->link) - ACE_DEBUG ((LM_DEBUG, - " %s", - dup->key)); - } - ACE_DEBUG ((LM_DEBUG, - "\n")); - } - ACE_DEBUG ((LM_DEBUG, - "End dumping list.\n\n")); -} - -// Simple-minded constructor action here... - -Key_List::Key_List (void) - : head (0), - total_duplicates (0), - array_type_ ((char *) Key_List::default_array_type), - return_type ((char *) Key_List::default_return_type), - struct_tag ((char *) Key_List::default_array_type), - max_key_len (INT_MIN), - min_key_len (INT_MAX), - key_sort (0), - additional_code (0), - total_keys (1) -{ -} - -// Returns the length of entire key list. - -int -Key_List::keyword_list_length (void) -{ - return list_len; -} - -// Returns length of longest key read. - -int -Key_List::max_key_length (void) -{ - return max_key_len; -} - -#endif /* ACE_HAS_GPERF */ |