/********************************************************************** * File: varable.c (Formerly variable.c) * Description: Initialization and setting of VARIABLEs. * Author: Ray Smith * Created: Fri Feb 22 16:22:34 GMT 1991 * * (C) Copyright 1991, Hewlett-Packard Ltd. ** Licensed under the Apache License, Version 2.0 (the "License"); ** you may not use this file except in compliance with the License. ** You may obtain a copy of the License at ** http://www.apache.org/licenses/LICENSE-2.0 ** Unless required by applicable law or agreed to in writing, software ** distributed under the License is distributed on an "AS IS" BASIS, ** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. ** See the License for the specific language governing permissions and ** limitations under the License. * **********************************************************************/ #include "mfcpch.h" //precompiled headers #include #include #include #include "scanutils.h" #include "tprintf.h" #include "varable.h" #define PLUS '+' //flag states #define MINUS '-' #define EQUAL '=' CLISTIZE (INT_VARIABLE) CLISTIZE (BOOL_VARIABLE) CLISTIZE (STRING_VARIABLE) CLISTIZE (double_VARIABLE) INT_VAR_FROM INT_VARIABLE::copy; INT_VARIABLE_CLIST INT_VARIABLE::head; //global definition INT_VAR_TO INT_VARIABLE::replace; BOOL_VAR_FROM BOOL_VARIABLE::copy; BOOL_VARIABLE_CLIST BOOL_VARIABLE::head; //global definition BOOL_VAR_TO BOOL_VARIABLE::replace; STRING_VAR_FROM STRING_VARIABLE::copy; STRING_VARIABLE_CLIST STRING_VARIABLE::head; //global definition STRING_VAR_TO STRING_VARIABLE::replace; double_VAR_FROM double_VARIABLE::copy; double_VARIABLE_CLIST double_VARIABLE::head; //global definition double_VAR_TO double_VARIABLE::replace; /********************************************************************** * INT_VAR_FROM::INT_VAR_FROM * * Constructor to copy the list to a temporary location while the * list head gets constructed. **********************************************************************/ INT_VAR_FROM::INT_VAR_FROM() { //constructor INT_VARIABLE_C_IT start_it = &INT_VARIABLE::head; INT_VARIABLE_C_IT end_it = &INT_VARIABLE::head; if (!start_it.empty ()) { while (!end_it.at_last ()) end_it.forward (); //move to copy list.assign_to_sublist (&start_it, &end_it); } } /********************************************************************** * INT_VAR_TO::INT_VAR_TO * * Constructor to copy the list back to its rightful place. **********************************************************************/ INT_VAR_TO::INT_VAR_TO() { //constructor INT_VARIABLE_C_IT start_it = &INT_VARIABLE::copy.list; INT_VARIABLE_C_IT end_it = &INT_VARIABLE::copy.list; if (!start_it.empty ()) { while (!end_it.at_last ()) end_it.forward (); INT_VARIABLE::head.assign_to_sublist (&start_it, &end_it); } } /********************************************************************** * INT_VARIABLE::INT_VARIABLE * * Constructor for INT_VARIABLE. Add the variable to the static list. **********************************************************************/ INT_VARIABLE::INT_VARIABLE( //constructor inT32 v, //the variable const char *vname, //of variable const char *comment //info on variable ) { INT_VARIABLE_C_IT it = &head; //list iterator //tprintf("Constructing %s\n",vname); set_value(v); //set the value name = vname; //strings must be static info = comment; it.add_before_stay_put (this); //add it to stack } INT_VARIABLE::~INT_VARIABLE ( //constructor ) { INT_VARIABLE_C_IT it = &head; //list iterator for (it.mark_cycle_pt (); !it.cycled_list (); it.forward ()) if (it.data () == this) it.extract (); } /********************************************************************** * INT_VARIABLE::get_head * * Get the head of the list of the variables. **********************************************************************/ INT_VARIABLE_CLIST *INT_VARIABLE::get_head() { //access to static return &head; } /********************************************************************** * INT_VARIABLE::print * * Print the entire list of INT_VARIABLEs. **********************************************************************/ void INT_VARIABLE::print( //print full list FILE *fp //file to print on ) { INT_VARIABLE_C_IT it = &head; //list iterator INT_VARIABLE *elt; //current element if (fp == stdout) { tprintf ("#Variables of type INT_VARIABLE:\n"); for (it.mark_cycle_pt (); !it.cycled_list (); it.forward ()) { elt = it.data (); tprintf ("%s %d #%s\n", elt->name, elt->value, elt->info); } } else { fprintf (fp, "#Variables of type INT_VARIABLE:\n"); for (it.mark_cycle_pt (); !it.cycled_list (); it.forward ()) { elt = it.data (); fprintf (fp, "%s " INT32FORMAT " #%s\n", elt->name, elt->value, elt->info); } } } /********************************************************************** * BOOL_VAR_FROM::BOOL_VAR_FROM * * Constructor to copy the list to a temporary location while the * list head gets constructed. **********************************************************************/ BOOL_VAR_FROM::BOOL_VAR_FROM() { //constructor BOOL_VARIABLE_C_IT start_it = &BOOL_VARIABLE::head; BOOL_VARIABLE_C_IT end_it = &BOOL_VARIABLE::head; if (!start_it.empty ()) { while (!end_it.at_last ()) end_it.forward (); //move to copy list.assign_to_sublist (&start_it, &end_it); } } /********************************************************************** * BOOL_VAR_TO::BOOL_VAR_TO * * Constructor to copy the list back to its rightful place. **********************************************************************/ BOOL_VAR_TO::BOOL_VAR_TO() { //constructor BOOL_VARIABLE_C_IT start_it = &BOOL_VARIABLE::copy.list; BOOL_VARIABLE_C_IT end_it = &BOOL_VARIABLE::copy.list; if (!start_it.empty ()) { while (!end_it.at_last ()) end_it.forward (); BOOL_VARIABLE::head.assign_to_sublist (&start_it, &end_it); } } /********************************************************************** * BOOL_VARIABLE::BOOL_VARIABLE * * Constructor for BOOL_VARIABLE. Add the variable to the static list. **********************************************************************/ BOOL_VARIABLE::BOOL_VARIABLE( //constructor BOOL8 v, //the variable const char *vname, //of variable const char *comment //info on variable ) { BOOL_VARIABLE_C_IT it = &head; //list iterator //tprintf("Constructing %s\n",vname); set_value(v); //set the value name = vname; //strings must be static info = comment; it.add_before_stay_put (this); //add it to stack } /********************************************************************** * BOOL_VARIABLE::BOOL_VARIABLE * * Constructor for BOOL_VARIABLE. Add the variable to the static list. **********************************************************************/ BOOL_VARIABLE::~BOOL_VARIABLE () { BOOL_VARIABLE_C_IT it = &head; //list iterator for (it.mark_cycle_pt (); !it.cycled_list (); it.forward ()) if (it.data () == this) it.extract (); } /********************************************************************** * BOOL_VARIABLE::get_head * * Get the head of the list of the variables. **********************************************************************/ BOOL_VARIABLE_CLIST *BOOL_VARIABLE::get_head() { //access to static return &head; } /********************************************************************** * BOOL_VARIABLE::print * * Print the entire list of BOOL_VARIABLEs. **********************************************************************/ void BOOL_VARIABLE::print( //print full list FILE *fp //file to print on ) { BOOL_VARIABLE_C_IT it = &head; //list iterator BOOL_VARIABLE *elt; //current element if (fp == stdout) { tprintf ("#Variables of type BOOL_VARIABLE:\n"); for (it.mark_cycle_pt (); !it.cycled_list (); it.forward ()) { elt = it.data (); tprintf ("%s %c #%s\n", elt->name, elt->value ? 'T' : 'F', elt->info); } } else { fprintf (fp, "#Variables of type BOOL_VARIABLE:\n"); for (it.mark_cycle_pt (); !it.cycled_list (); it.forward ()) { elt = it.data (); fprintf (fp, "%s %c #%s\n", elt->name, elt->value ? 'T' : 'F', elt->info); } } } /********************************************************************** * STRING_VAR_FROM::STRING_VAR_FROM * * Constructor to copy the list to a temporary location while the * list head gets constructed. **********************************************************************/ STRING_VAR_FROM::STRING_VAR_FROM() { //constructor STRING_VARIABLE_C_IT start_it = &STRING_VARIABLE::head; STRING_VARIABLE_C_IT end_it = &STRING_VARIABLE::head; if (!start_it.empty ()) { while (!end_it.at_last ()) end_it.forward (); //move to copy list.assign_to_sublist (&start_it, &end_it); } } /********************************************************************** * STRING_VAR_TO::STRING_VAR_TO * * Constructor to copy the list back to its rightful place. **********************************************************************/ STRING_VAR_TO::STRING_VAR_TO() { //constructor STRING_VARIABLE_C_IT start_it = &STRING_VARIABLE::copy.list; STRING_VARIABLE_C_IT end_it = &STRING_VARIABLE::copy.list; if (!start_it.empty ()) { while (!end_it.at_last ()) end_it.forward (); STRING_VARIABLE::head.assign_to_sublist (&start_it, &end_it); } } /********************************************************************** * STRING_VARIABLE::STRING_VARIABLE * * Constructor for STRING_VARIABLE. Add the variable to the static list. **********************************************************************/ STRING_VARIABLE::STRING_VARIABLE ( //constructor const char *v, //the variable const char *vname, //of variable const char *comment //info on variable ): value(v) { // list iterator STRING_VARIABLE_C_IT it = &head; name = vname; // strings must be static info = comment; it.add_before_stay_put(this); // add it to stack } /********************************************************************** * STRING_VARIABLE::~STRING_VARIABLE * * Destructor for STRING_VARIABLE. Add the variable to the static list. **********************************************************************/ // constructor STRING_VARIABLE::~STRING_VARIABLE( ) { // list iterator STRING_VARIABLE_C_IT it = &head; for (it.mark_cycle_pt(); !it.cycled_list(); it.forward()) if (it.data() == this) it.extract(); } /********************************************************************** * STRING_VARIABLE::get_head * * Get the head of the list of the variables. **********************************************************************/ STRING_VARIABLE_CLIST *STRING_VARIABLE::get_head() { // access to static return &head; } /********************************************************************** * STRING_VARIABLE::print * * Print the entire list of STRING_VARIABLEs. **********************************************************************/ void STRING_VARIABLE::print(FILE *fp) { STRING_VARIABLE_C_IT it = &head; // list iterator STRING_VARIABLE *elt; // current element // Comments aren't allowed with string variables, so the # character can // be part of a string. if (fp == stdout) { tprintf("#Variables of type STRING_VARIABLE:\n"); for (it.mark_cycle_pt(); !it.cycled_list(); it.forward()) { elt = it.data(); tprintf("%s %s\n", elt->name, elt->value.string()); } } else { fprintf(fp, "#Variables of type STRING_VARIABLE:\n"); for (it.mark_cycle_pt(); !it.cycled_list(); it.forward()) { elt = it.data(); fprintf(fp, "%s %s\n", elt->name, elt->value.string()); } } } /********************************************************************** * double_VAR_FROM::double_VAR_FROM * * Constructor to copy the list to a temporary location while the * list head gets constructed. **********************************************************************/ double_VAR_FROM::double_VAR_FROM() { // constructor double_VARIABLE_C_IT start_it = &double_VARIABLE::head; double_VARIABLE_C_IT end_it = &double_VARIABLE::head; if (!start_it.empty()) { while (!end_it.at_last()) end_it.forward(); // move to copy list.assign_to_sublist(&start_it, &end_it); } } /********************************************************************** * double_VAR_TO::double_VAR_TO * * Constructor to copy the list back to its rightful place. **********************************************************************/ double_VAR_TO::double_VAR_TO() { // constructor double_VARIABLE_C_IT start_it = &double_VARIABLE::copy.list; double_VARIABLE_C_IT end_it = &double_VARIABLE::copy.list; if (!start_it.empty()) { while (!end_it.at_last()) end_it.forward(); double_VARIABLE::head.assign_to_sublist(&start_it, &end_it); } } /********************************************************************** * double_VARIABLE::double_VARIABLE * * Constructor for double_VARIABLE. Add the variable to the static list. **********************************************************************/ double_VARIABLE::double_VARIABLE(double v, // the variable const char *vname, // of variable const char *comment // info on variable ) { // list iterator double_VARIABLE_C_IT it = &head; set_value(v); // set the value name = vname; // strings must be static info = comment; it.add_before_stay_put(this); // add it to stack } double_VARIABLE::~double_VARIABLE() { // list iterator double_VARIABLE_C_IT it = &head; for (it.mark_cycle_pt(); !it.cycled_list(); it.forward()) if (it.data() == this) it.extract(); } /********************************************************************** * double_VARIABLE::get_head * * Get the head of the list of the variables. **********************************************************************/ double_VARIABLE_CLIST *double_VARIABLE::get_head() { // access to static return &head; } /********************************************************************** * double_VARIABLE::print * * Print the entire list of double_VARIABLEs. **********************************************************************/ void double_VARIABLE::print(FILE *fp // file to print on ) { // list iterator double_VARIABLE_C_IT it = &head; double_VARIABLE *elt; // current element if (fp == stdout) { tprintf("#Variables of type double_VARIABLE:\n"); for (it.mark_cycle_pt(); !it.cycled_list(); it.forward()) { elt = it.data(); tprintf ("%s %lg #%s\n", elt->name, elt->value, elt->info); } } else { fprintf(fp, "#Variables of type double_VARIABLE:\n"); for (it.mark_cycle_pt(); !it.cycled_list(); it.forward()) { elt = it.data(); fprintf(fp, "%s %g #%s\n", elt->name, elt->value, elt->info); } } } /********************************************************************** * read_variables_file * * Read a file of variables definitions and set/modify the values therein. * If the filename begins with a + or -, the BOOL_VARIABLEs will be * ORed or ANDed with any current values. * Blank lines and lines beginning # are ignored. * Values may have any whitespace after the name and are the rest of line. **********************************************************************/ DLLSYM BOOL8 read_variables_file(const char *file, // name to read bool global_only // only set variables ) { // starting with "global_" char flag; // file flag inT16 nameoffset; // offset for real name FILE *fp; // file pointer // iterators bool ret; if (*file == PLUS) { flag = PLUS; // file has flag nameoffset = 1; } else if (*file == MINUS) { flag = MINUS; nameoffset = 1; } else { flag = EQUAL; nameoffset = 0; } fp = fopen(file + nameoffset, "r"); if (fp == NULL) { tprintf("read_variables_file: Can't open %s\n", file + nameoffset); return TRUE; // can't open it } ret = read_variables_from_fp(fp, -1, global_only); fclose(fp); return ret; } bool read_variables_from_fp(FILE *fp, inT64 end_offset, bool global_only) { char line[MAX_PATH]; // input line bool anyerr = false; // true if any error bool foundit; // found variable inT16 length; // length of line char *valptr; // value field while ((end_offset < 0 || ftell(fp) < end_offset) && fgets(line, MAX_PATH, fp)) { if (line[0] != '\n' && line[0] != '#') { length = strlen (line); if (line[length - 1] == '\n') line[length - 1] = '\0'; // cut newline for (valptr = line; *valptr && *valptr != ' ' && *valptr != '\t'; valptr++); if (*valptr) { // found blank *valptr = '\0'; // make name a string do valptr++; // find end of blanks while (*valptr == ' ' || *valptr == '\t'); } if (global_only && strstr(line, kGlobalVariablePrefix) == NULL) continue; foundit = set_variable(line, valptr); if (!foundit) { anyerr = TRUE; // had an error tprintf("read_variables_file: variable not found: %s\n", line); exit(1); } } } return anyerr; } bool set_variable(const char *variable, const char* value) { INT_VARIABLE_C_IT int_it = &INT_VARIABLE::head; BOOL_VARIABLE_C_IT BOOL_it = &BOOL_VARIABLE::head; STRING_VARIABLE_C_IT STRING_it = &STRING_VARIABLE::head; double_VARIABLE_C_IT double_it = &double_VARIABLE::head; bool foundit = false; // find name for (STRING_it.mark_cycle_pt(); !STRING_it.cycled_list() && strcmp(variable, STRING_it.data()->name); STRING_it.forward()); if (!STRING_it.cycled_list()) { foundit = true; // found the varaible STRING_it.data()->set_value(value); // set its value } if (*value) { // find name for (int_it.mark_cycle_pt(); !int_it.cycled_list() && strcmp(variable, int_it.data()->name); int_it.forward()); int intval; if (!int_it.cycled_list() && sscanf(value, INT32FORMAT, &intval) == 1) { foundit = true; // found the varaible int_it.data()->set_value(intval); // set its value. } for (BOOL_it.mark_cycle_pt(); !BOOL_it.cycled_list() && strcmp(variable, BOOL_it.data()->name); BOOL_it.forward()); if (!BOOL_it.cycled_list()) { if (*value == 'T' || *value == 't' || *value == 'Y' || *value == 'y' || *value == '1') { foundit = true; BOOL_it.data()->set_value(TRUE); } else if (*value == 'F' || *value == 'f' || *value == 'N' || *value == 'n' || *value == '0') { foundit = true; BOOL_it.data()->set_value(FALSE); } } for (double_it.mark_cycle_pt(); !double_it.cycled_list() && strcmp(variable, double_it.data ()->name); double_it.forward()); double doubleval; #ifdef EMBEDDED if (!double_it.cycled_list ()) { doubleval = strtofloat(value); #else if (!double_it.cycled_list() && sscanf(value, "%lf", &doubleval) == 1) { #endif foundit = true; // found the variable double_it.data()->set_value(doubleval); } } return foundit; } /********************************************************************** * print_variables * * Print all variable types to the given file **********************************************************************/ DLLSYM void print_variables( //print all vars FILE *fp //file to print on ) { INT_VARIABLE::print(fp); //print INTs BOOL_VARIABLE::print(fp); //print BOOLs STRING_VARIABLE::print(fp); //print STRINGs double_VARIABLE::print(fp); //print doubles }