source: libcfa/src/parseconfig.cfa @ 0ac8d07

Last change on this file since 0ac8d07 was b5e725a, checked in by Peter A. Buhr <pabuhr@…>, 15 months ago

move setting the default random-generator size from PRNG.cfa to stdlib.hfa, change to the exception macros

  • Property mode set to 100644
File size: 6.1 KB
Line 
1
2
3#pragma GCC diagnostic push
4//#pragma GCC diagnostic ignored "-Wunused-parameter"
5//#pragma GCC diagnostic ignored "-Wunused-function"
6//#pragma GCC diagnostic ignored "-Wuninitialized"
7//#pragma GCC diagnostic ignored "-Wmaybe-uninitialized"
8
9#include <fstream.hfa>
10#include <parseargs.hfa>
11#include <stdlib.hfa>
12#include <string.h>
13#include "parseconfig.hfa"
14
15
16#pragma GCC visibility push(default)
17
18
19// *********************************** exceptions ***********************************
20
21
22[ void ] ?{}( & Missing_Config_Entries this, unsigned int num_missing ) {
23        this.virtual_table = &Missing_Config_Entries_vt;
24        this.num_missing = num_missing;
25}
26
27// TODO: use string interface when it's ready (and implement exception msg protocol)
28[ void ] msg( * Missing_Config_Entries ex ) {
29        serr | "The config file is missing " | ex->num_missing | "entr" | nosep | (ex->num_missing == 1 ? "y." : "ies.");
30} // msg
31
32
33[ void ] ?{}( & Parse_Failure this, [] char failed_key, [] char failed_value ) {
34        this.virtual_table = &Parse_Failure_vt;
35
36        this.failed_key = alloc( strlen( failed_key ) );
37        this.failed_value = alloc( strlen( failed_value ) );
38        strcpy( this.failed_key, failed_key );
39        strcpy( this.failed_value, failed_value );
40}
41
42[ void ] ^?{}( & Parse_Failure this ) with ( this ) {
43        free( failed_key );
44        free( failed_value );
45}
46
47// TODO: use string interface when it's ready (and implement exception msg protocol)
48[ void ] msg( * Parse_Failure ex ) {
49        serr | "Config entry " | ex->failed_key | " could not be parsed. It has value " | ex->failed_value | ".";
50}
51
52
53[ void ] ?{}( & Validation_Failure this, [] char failed_key, [] char failed_value ) {
54        this.virtual_table = &Validation_Failure_vt;
55
56        this.failed_key = alloc( strlen( failed_key ) );
57        this.failed_value = alloc( strlen( failed_value ) );
58        strcpy( this.failed_key, failed_key );
59        strcpy( this.failed_value, failed_value );
60}
61
62[ void ] ^?{}( & Validation_Failure this ) with ( this ) {
63        free( failed_key );
64        free( failed_value );
65}
66
67// TODO: use string interface when it's ready (and implement exception msg protocol)
68[ void ] msg( * Validation_Failure ex ) {
69        serr | "Config entry " | ex->failed_key | " could not be validated. It has value " | ex->failed_value | ".";
70}
71
72
73// *********************************** main code ***********************************
74
75
76[ void ] ?{}( & KVPairs kvp ) with ( kvp ) {                            // default constructor
77        size = 0; max_size = 0; data = 0p;
78}
79
80[ void ] ?{}( & KVPairs kvp, size_t size ) {                            // initialization
81        kvp.[ size, max_size ] = [ 0, size ];
82        kvp.data = alloc( size );
83}
84
85[ void ] ^?{}( & KVPairs kvp ) with ( kvp ) {                           // destructor
86        for ( i; size ) free( data[i] );
87        free( data );
88        size = 0; max_size = 0; data = 0p;
89}
90
91[ void ] add_kv_pair( & KVPairs kv_pairs, [] char key, [] char value ) with ( kv_pairs ) {
92        if ( max_size == 0 ) {
93                max_size = 1;
94                data = alloc( max_size );
95        } else if ( size == max_size ) {
96                max_size *= 2;
97                data = alloc( max_size, data`realloc );
98        }
99
100        data[size].0 = alloc( strlen( key ) );
101        data[size].1 = alloc( strlen( value ) );
102        strcpy( data[size].0, key );
103        strcpy( data[size].1, value );
104        ++size;
105} // add_kv_pair
106
107
108static [ bool ] comments( & ifstream in, size_t size, [] char name ) {
109        while () {
110                in | wdi( size, name );
111          if ( eof( in ) ) return true;
112          if ( name[0] != '#' ) return false;
113                in | nl;                                                                        // ignore remainder of line
114        } // while
115} // comments
116
117// Parse configuration from a file formatted in tabular (CS 343) style
118[ * KVPairs ] parse_tabular_config_format( [] const char config_file, size_t num_entries ) {
119        // TODO: Change this to a unique_ptr when we fully support returning them (move semantics)
120        * KVPairs kv_pairs = new( num_entries );
121
122        ifstream in;
123        try {
124                open( in, config_file );                                        // open the configuration file for input
125
126                [64] char key;
127                [256] char value;
128
129                while () {                                                                      // parameter names can appear in any order
130                        // NOTE: Must add check to see if already read in value for this key,
131                        // once we switch to using hash table as intermediate storage
132                        if ( comments( in, 64, key ) ) break;   // eof ?
133                        in | wdi( 256, value );
134
135                        add_kv_pair( *kv_pairs, key, value );
136
137                  if ( eof( in ) ) break;
138                        in | nl;                                                                // ignore remainder of line
139                } // for
140        } catch( open_failure * ex; ex->istream == &in ) {
141                delete( kv_pairs );
142                throw *ex;
143        } // try
144        close( in );
145
146        return kv_pairs;
147} // parse_tabular_config_format
148
149// Parse configuration values from intermediate format
150[ void ] parse_config(
151                [] const char config_file,
152                [] config_entry entries,
153                size_t num_entries,
154                KVPairs * (*parser)(const char [], size_t)
155) {
156        * KVPairs kv_pairs = parser( config_file, num_entries );
157
158        int entries_so_far = 0;
159        for ( i; kv_pairs->size ) {
160          if ( entries_so_far == num_entries ) break;
161
162                char * src_key, * src_value;
163                [ src_key, src_value ] = kv_pairs->data[i];
164
165                for ( j; num_entries ) {
166                  if ( strcmp( src_key, entries[j].key ) != 0 ) continue;
167                        // Parse the data
168                        if ( !entries[j].parse( src_value, entries[j].variable ) ) {
169                                * Parse_Failure ex = new( src_key, src_value );
170                                delete( kv_pairs );
171                                throw *ex;
172                        }
173
174                        // Validate the data
175                        if ( !entries[j].validate( entries[j].variable ) ) {
176                                * Validation_Failure ex = new( src_key, src_value );
177                                delete( kv_pairs );
178                                throw *ex;
179                        }
180
181                        ++entries_so_far;
182
183                        break;
184                }
185        }
186        // TODO: Once we get vector2+hash_table, we can more easily add the missing config keys to this error
187        if ( entries_so_far < num_entries ) {
188                delete( kv_pairs );
189                throw (Missing_Config_Entries){ num_entries - entries_so_far };
190        }
191
192        delete( kv_pairs );
193} // parse_config
194
195
196// *********************************** validation ***********************************
197
198
199forall(T | relational( T ))
200[ bool ] is_nonnegative( & T value ) {
201        T zero_val = 0;
202        return value >= zero_val;
203}
204
205forall(T | relational( T ))
206[ bool ] is_positive( & T value ) {
207        T zero_val = 0;
208        return value > zero_val;
209}
210
211forall(T | relational( T ))
212[ bool ] is_nonpositive( & T value ) {
213        T zero_val = 0;
214        return value <= zero_val;
215}
216
217forall(T | relational( T ))
218[ bool ] is_negative( & T value ) {
219        T zero_val = 0;
220        return value < zero_val;
221}
222#pragma GCC diagnostic pop
223
224
225// Local Variables: //
226// tab-width: 4 //
227// compile-command: "cfa parseconfig.cfa" //
228// End: //
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