Mercurial > hg > early-roguelike
view urogue/dictutil.c @ 292:ebf49a933e51
UltraRogue: ask about unidentified magic items by default.
author | John "Elwin" Edwards |
---|---|
date | Fri, 29 Dec 2017 14:16:24 -0500 |
parents | c4b12d2d1dcd |
children | 13b482bd9e66 |
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/* dictutil.c UltraRogue: The Ultimate Adventure in the Dungeons of Doom Copyright (C) 1995 Herb Chong All rights reserved. See the file LICENSE.TXT for full copyright and licensing information. */ /************************************************************************* ** Utilities for Dictionary Maintenence Functions *************************************************************************/ static char sccsid[] = "%W% %G%"; #include <stdio.h> #include <string.h> #include <stdlib.h> #if !defined(OS2) && !defined(_WIN32) #include <unistd.h> #else #include <io.h> #include <fcntl.h> #endif #include "dict.h" #include "dictutil.h" #include "rogue.h" int dict_trace; FILE *ft; /*********** ** Read 'count' characters into 'buffer' at 'offset' in a binary file ** Return 0 on success; -1 on failure; ***********/ int block_read( FILE *fi , char *buffer , size_t count , long offset ) { if ( fseek(fi,offset,SEEK_SET) == -1 ) return( -1 ); if ( fread(buffer,1,count,fi) != count ) return( -1 ); return( 0 ); } /*********** ** Write 'count' characters from 'buffer' to a binary file. ** Return -1 on failure; 0 on success. ***********/ int block_write( FILE *fo , char *buffer , size_t count ) { if ( fwrite(buffer,1,count,fo) != count ) return( -1 ); return( 0 ); } /*********** ** Load a dictionary table entry with id TOC_id into memory pointed to by block. ** Update the dictionary TOC. ** If *block=NULL, allocate the block of memory. ** Return 0 on success; -1 on failure. ** Set dt_entry->ptr to where the block is stored. ***********/ void *dict_load_block( DICTIONARY *dict , char *toc_id , FILE *fi , void *block ) { DICT_TOC_ENTRY *dt_entry; static void *ptr; int index, ret_code; index = dict_toc_index( dict , toc_id ); if ( index != -1 ) { /* Found the id */ dt_entry = &(dict->toc[index]); } else { signal_error( "dict_load_block: could not find TOC_id" , toc_id , 1 ); return( NULL ); } /* endif */ if ( block == NULL ) { ptr = malloc( dt_entry->size ); if ( dict_trace > 3 ) { fprintf( ft , "\ndict_load_block allocates %lx bytes at location %p\n" , dt_entry->size , ptr ); } /* endif */ } else { ptr = block; if ( dict_trace > 3 ) { fprintf( ft , "\ndict_load_block uses memory at location %p\n" , ptr ); } /* endif */ } /* endif */ if ( ptr == NULL ) { signal_error( "dict_load_block: alloc failed " , toc_id , 1 ); return( NULL ); } /* endif */ ret_code = block_read( fi , (char*)ptr , dt_entry->size , dt_entry->offset ); if ( ret_code == -1 ) return( NULL ); if ( dt_entry->checksum != compute_checksum( dt_entry->size , (char*)ptr ) ) { signal_error( "dict_load_block: invalid checksum ", toc_id, 1); return( NULL ); } /* endif */ dt_entry->ptr = ptr; if ( dict_trace > 3 ) { fprintf( ft , "\nLoaded block\nTOC entry: id:%s offset:%lx size:%lx ptr:%p checksum:%lx type:%d\n" , dict->toc[index].id , dict->toc[index].offset , dict->toc[index].size , dict->toc[index].ptr , dict->toc[index].checksum , dict->toc[index].type ); } /* endif */ return( ptr ); } /*********** ** Save a dictionary table entry. ** Update the dictionary TOC entry offset and checksum fields. ** Return 0 on success, -1 on failure. ** Note: It is assumed that the size and pointer fields in TOC entry are ** already up to date; i.e., that they are consistent with the current ** location and size of the block being written. This is essential ** because the table of contents must have already been written ** into the file. ***********/ BOOLEANC dict_save_block( DICTIONARY *dict , char *toc_id , FILE *fo ) { DICT_TOC_ENTRY *dt_entry; int index, ret_code; char *block; index = dict_toc_index( dict , toc_id ); if ( index == -1 ) { signal_error( "dict_save_block: id not found " , toc_id , 1 ); return( FALSE ); } /* endif */ dt_entry = &(dict->toc[index]); block = (char*)(dt_entry->ptr); if ( block == NULL ) { signal_error( "dict_save_block: NULL block " , toc_id , 1 ); return( FALSE ); } /* endif */ /* dt_entry->offset = fseek( fo , 0 , SEEK_END ); */ dt_entry->checksum = compute_checksum( dt_entry->size , block ); ret_code = block_write( fo , dt_entry->ptr , dt_entry->size ); if ( ret_code == -1 ) { signal_error( "dict_save_block: block_write failed " , toc_id , 1 ); return( FALSE ); } /* endif */ if ( dict_trace > 3 ) { fprintf( ft , "\nStored block\nTOC entry: id:%s offset:%lx size:%lx ptr:%p checksum:%lx type:%d\n" , dict->toc[index].id , dict->toc[index].offset , dict->toc[index].size , dict->toc[index].ptr , dict->toc[index].checksum , dict->toc[index].type ); } /* endif */ return( TRUE ); } /*********** ** Look up and id in the table of contents. ** Return its index (-1 on failure). ***********/ int dict_toc_index( DICTIONARY *dict , char *toc_id ) { int index; for ( index = 0 ; index < dict->sig->toc_size ; index++ ) { if ( strcmp(dict->toc[index].id,toc_id) == 0 ) return( index ); } /* endfor */ return( -1 ); } /*********** ** Compute a block checksum. ** (Currently just returns 0.) ***********/ unsigned long compute_checksum( size_t size , char *block ) { NOOP(size); NOOP(block); return( 0 ); } /*********** ** Create a dictionary paramter entry. ***********/ DICT_PARM_ENTRY *dict_make_parm_entry( char *id , unsigned long value ) { static DICT_PARM_ENTRY *entry; entry = (DICT_PARM_ENTRY *) malloc( sizeof(DICT_PARM_ENTRY) ); if ( entry == NULL ) return(NULL); strncpy( entry->id , id , 13 ); entry->value = value; return( entry ); } /*********** ** Look up and id in the parameter array. ** Return its index (-1 on failure). ***********/ int dict_parm_index( DICTIONARY *dict , char *parm_id ) { long index; for ( index = 0 ; index < dict->sig->nparms ; index++ ) { if ( strcmp( dict->parm[index].id , parm_id ) == 0 ) return( (int) index ); } /* endfor */ return( -1 ); } /*********** ** Reset table of contents offsets and checksums ** in preparation for dict_save(). ***********/ BOOLEANC dict_reset_toc_offsets( DICTIONARY *dict ) { int i; long offset; offset = sizeof(DICT_SIG) + dict->sig->toc_size * sizeof(DICT_TOC_ENTRY); for ( i = 0 ; i < dict->sig->toc_size ; i++ ) { dict->toc[i].offset = offset; offset += dict->toc[i].size; dict->toc[i].checksum = compute_checksum( dict->toc[i].size , dict->toc[i].ptr ); } /* endfor */ return( TRUE ); } /*********** ** Load the names of the dictionary parameters. ** 14 parms ***********/ BOOLEANC dict_set_parm_ids( DICTIONARY *dict ) { if ( dict==NULL || dict->sig == NULL ) { signal_error( "dict_set_parm_ids: Allocate dict and signature first." , "" , 0 ); return( FALSE ); } dict->sig->nparms = 14; strcpy( dict->parm[0].id , "FLAGS_______" ); strcpy( dict->parm[1].id , "ENTRY_COUNT_" ); strcpy( dict->parm[2].id , "ARRAY_SIZE__" ); strcpy( dict->parm[3].id , "ARRAY_USED__" ); strcpy( dict->parm[4].id , "ARR_GROW_CT_" ); strcpy( dict->parm[5].id , "STRING_MAX__" ); strcpy( dict->parm[6].id , "STR_GROW_CT_" ); strcpy( dict->parm[7].id , "LONG_CHAIN__" ); strcpy( dict->parm[8].id , "ALLOW_CHAIN_" ); strcpy( dict->parm[9].id , "HASH_TAB_SIZ" ); strcpy( dict->parm[10].id , "HASH_MASK___" ); strcpy( dict->parm[11].id , "HASH_GROW_CT" ); strcpy( dict->parm[12].id , "CHECK_VALUE_" ); strcpy( dict->parm[13].id , "SCAN_STR_IX_" ); return( TRUE ); } /*********** ** Set the dictionary parm structure from the values in the dict structure. ** 14 parms ***********/ BOOLEANC dict_set_parm_values( DICTIONARY *dict ) { int index; if ( (index=dict_parm_index(dict,"FLAGS_______")) == -1 ) return( FALSE ); dict->parm[index].value = (unsigned long)dict->flags; if ( (index=dict_parm_index(dict,"ENTRY_COUNT_")) == -1 ) return( FALSE ); dict->parm[index].value = (unsigned long)dict->entry_count; if ( (index=dict_parm_index(dict,"ARRAY_SIZE__")) == -1 ) return( FALSE ); dict->parm[index].value = (unsigned long)dict->array_size; if ( (index=dict_parm_index(dict,"ARRAY_USED__")) == -1 ) return( FALSE ); dict->parm[index].value = (unsigned long)dict->array_used; if ( (index=dict_parm_index(dict,"ARR_GROW_CT_")) == -1 ) return( FALSE ); dict->parm[index].value = (unsigned long)dict->array_growth_count; if ( (index=dict_parm_index(dict,"STRING_MAX__")) == -1 ) return( FALSE ); dict->parm[index].value = (unsigned long)dict->string_max; if ( (index=dict_parm_index(dict,"STR_GROW_CT_")) == -1 ) return( FALSE ); dict->parm[index].value = (unsigned long)dict->string_growth_count; if ( (index=dict_parm_index(dict,"LONG_CHAIN__")) == -1 ) return( FALSE ); dict->parm[index].value = (unsigned long)dict->longest_chain_length; if ( (index=dict_parm_index(dict,"ALLOW_CHAIN_")) == -1 ) return( FALSE ); dict->parm[index].value = (unsigned long)dict->allowable_chain_length; if ( (index=dict_parm_index(dict,"HASH_TAB_SIZ")) == -1 ) return( FALSE ); dict->parm[index].value = (unsigned long)dict->table_size; if ( (index=dict_parm_index(dict,"HASH_MASK___")) == -1 ) return( FALSE ); dict->parm[index].value = (unsigned long)dict->hash_mask; if ( (index=dict_parm_index(dict,"HASH_GROW_CT")) == -1 ) return( FALSE ); dict->parm[index].value = (unsigned long)dict->hash_growth_count; if ( (index=dict_parm_index(dict,"CHECK_VALUE_")) == -1 ) return( FALSE ); dict->parm[index].value = (unsigned long)dict->check_value; if ( (index=dict_parm_index(dict,"SCAN_STR_IX_")) == -1 ) return( FALSE ); dict->parm[index].value = (unsigned long)dict->scan_string_index; return( TRUE ); } /*********** ** Set the values in the dict structure from the dictionary parm structure. ** 14 parms ***********/ BOOLEANC dict_set_parm_variables( DICTIONARY *dict ) { int index; if ( (index=dict_parm_index(dict,"FLAGS_______")) == -1 ) return( FALSE ); dict->flags = (unsigned long)dict->parm[index].value; if ( (index=dict_parm_index(dict,"ENTRY_COUNT_")) == -1 ) return( FALSE ); dict->entry_count = (long)dict->parm[index].value; if ( (index=dict_parm_index(dict,"ARRAY_SIZE__")) == -1 ) return( FALSE ); dict->array_size = (long)dict->parm[index].value; if ( (index=dict_parm_index(dict,"ARRAY_USED__")) == -1 ) return( FALSE ); dict->array_used = (long)dict->parm[index].value; if ( (index=dict_parm_index(dict,"ARR_GROW_CT_")) == -1 ) return( FALSE ); dict->array_growth_count = (int)dict->parm[index].value; if ( (index=dict_parm_index(dict,"STRING_MAX__")) == -1 ) return( FALSE ); dict->string_max = (long)dict->parm[index].value ; if ( (index=dict_parm_index(dict,"STR_GROW_CT_")) == -1 ) return( FALSE ); dict->string_growth_count = (int)dict->parm[index].value; if ( (index=dict_parm_index(dict,"LONG_CHAIN__")) == -1 ) return( FALSE ); dict->longest_chain_length = (int)dict->parm[index].value; if ( (index=dict_parm_index(dict,"ALLOW_CHAIN_")) == -1 ) return( FALSE ); dict->allowable_chain_length = (int)dict->parm[index].value; if ( (index=dict_parm_index(dict,"HASH_TAB_SIZ")) == -1 ) return( FALSE ); dict->table_size = (long)dict->parm[index].value; if ( (index=dict_parm_index(dict,"HASH_MASK___")) == -1 ) return( FALSE ); dict->hash_mask = (unsigned long)dict->parm[index].value; if ( (index=dict_parm_index(dict,"HASH_GROW_CT")) == -1 ) return( FALSE ); dict->hash_growth_count = (int)dict->parm[index].value; if ( (index=dict_parm_index(dict,"CHECK_VALUE_")) == -1 ) return( FALSE ); dict->check_value = (unsigned long)dict->parm[index].value; if ( (index=dict_parm_index(dict,"SCAN_STR_IX_")) == -1 ) return( FALSE ); dict->scan_string_index = (long)dict->parm[index].value; return( TRUE ); } /*********** ** If dict_trace (global) > 0 , signal an error ** If severity > 0 , abort ***********/ void signal_error( char *header , char *message , int severity ) { FILE *fpe; if ( dict_trace > 0 ) { printf( "%s: %s\n" , header , message ); fpe = fopen( "ERROR.FIL" , "a" ); fprintf( fpe , "\n%s: %s\n" , header , message ); fclose( fpe ); } /* endif */ if ( severity > 0 ) abort(); }