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parseconfig.cfa@ 45729a8

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ADT ast-experimental enum forall-pointer-decay jacob/cs343-translation pthread-emulation qualifiedEnum

Last change on this file since 45729a8 was 45729a8, checked in by Jacob Prud'homme <jafprudhomme@…>, 4 years ago
Just realized this isn't bash-style config!
Property mode set to `100644`
File size: 4.7 KB

Line
1	#include <fstream.hfa>
2	#include <parseargs.hfa>
3	#include <stdlib.hfa>
4	#include <string.h>
5	#include "parseconfig.hfa"
6
7
8	// ********************************* exceptions *********************************
9
10
11	EHM_VIRTUAL_TABLE(Validation_Failure, Validation_Failure_main_table);
12	void ?{}( Validation_Failure & this, config_entry & entry ) with ( entry ) {
13	this.virtual_table = &Validation_Failure_main_table;
14	this.key = key;
15	this.variable = variable;
16	}
17	void throwValidation_Failure( config_entry & entry ) {
18	Validation_Failure exc = { entry };
19	}
20
21
22	// ********************************* main code *********************************
23
24
25	struct KVPairs {
26	int size, max_size;
27	* [ char , char ] data;
28	};
29	void ?{}( KVPairs & kvp ) with ( kvp ) { // default constructor
30	size = 0; max_size = 0; data = 0p;
31	}
32	void ?{}( KVPairs & kvp, int size ) { // initialization
33	kvp.[ size, max_size ] = [ 0, size ];
34	kvp.data = alloc( size );
35	}
36	/*
37	void ?{}( KVPairs & kvp, KVPairs val ) with( val ) { // copy, deep
38	kvp.[ size, max_size ] = [ size, max_size ];
39	kvp.data = alloc( size, data );
40	}
41	*/
42	void ^?{}( KVPairs & kvp ) with ( kvp ) { // destructor
43	free( data );
44	size = 0; max_size = 0; data = 0p;
45	}
46
47	void add_kv_pair( KVPairs & kv_pairs, char * k, char * v ) with ( kv_pairs ) {
48	if ( size == max_size ) {
49	max_size *= 2;
50	data = resize( data, max_size );
51	}
52
53	data[size] = [ k, v ];
54	++size;
55	}
56
57
58	struct StringBuilder {
59	int size, max_size;
60	* char string;
61	};
62	void ?{}( StringBuilder & sb ) with ( sb ) { // default constructor
63	size = 1; max_size = 1; string = alloc( 1 );
64	string[0] = '\0';
65	}
66	void ?{}( StringBuilder & sb, int size ) { // initialization
67	sb.[ size, max_size ] = [ 1, size+1 ];
68	sb.string = alloc( size );
69	sb.string[0] = '\0';
70	}
71	void ^?{}( StringBuilder & sb ) with ( sb ) { // destructor
72	free( string );
73	size = 0; max_size = 0; string = 0p;
74	}
75
76	void add_char( StringBuilder & sb, char c ) with ( sb ) {
77	if ( size == max_size ) {
78	max_size *= 2;
79	string = resize( string, max_size );
80	}
81
82	string[size-1] = c;
83	string[size] = '\0';
84	++size;
85	}
86
87
88	bool comments( ifstream & in, char * name ) {
89	StringBuilder sb;
90
91	char c;
92	while () {
93	in \| c;
94	add_char( sb, c );
95
96	if ( fail( in ) ) {
97	name = alloc( sb.size );
98	strcpy( name, sb.string );
99
100	return true;
101	}
102	if ( c != '#' ) break;
103	in \| nl; // ignore remainder of line
104	} // for
105
106	name = alloc( sb.size );
107	strcpy( name, sb.string );
108
109	return false;
110	} // comments
111
112	// Parse configuration from a file formatted in shell style
113	KVPairs & parse_tabular_config_format( const char * config_file, size_t num_entries ) {
114	// * KVPairs kv_pairs;
115	KVPairs kv_pairs = { num_entries };
116
117	ifstream in;
118	try {
119	open( in, config_file ); // open the configuration file for input
120
121	while () {
122	char * key = 0p;
123	char * value = 0p;
124	if ( comments( in, key ) ) break; // eof ?
125	// Should we just overwrite duplicate config entries? Having a hash map would make this much easier
126	in \| value;
127
128	add_kv_pair( kv_pairs, key, value );
129
130	if ( fail( in ) ) break;
131	in \| nl; // ignore remainder of line
132	} // for
133	} catch( Open_Failure * ex; ex->istream == &in ) {
134	^kv_pairs{};
135	exit \| "Error: could not open input file \"" \| config_file \| "\"";
136	} // try
137	close( in );
138
139	return kv_pairs;
140	}
141
142	// Parse configuration values from intermediate format
143	void parse_config( const char * config_file, config_entry entries[], size_t num_entries ) {
144	KVPairs kv_pairs = parse_tabular_config_format( config_file, num_entries );
145
146	int entries_so_far = 0;
147	for ( i; kv_pairs.size ) {
148	if ( entries_so_far == num_entries ) break;
149
150	char * src_key, * src_value;
151	[ src_key, src_value ] = kv_pairs.data[i];
152
153	for ( j; num_entries ) {
154	if ( strcmp( src_key, entries[j].key ) != 0 ) continue;
155	if ( entries[j].parse( src_value, entries[j].variable ) ) {
156	++entries_so_far;
157
158	// Validate the parsed data, if necessary
159	if ( entries[j].validate != (bool ()(void ))0p ) {
160	if ( !entries[j].validate( entries[j].variable ) ) throwValidation_Failure( entries[j] );
161	}
162
163	break;
164	}
165
166	serr \| "Value '" \| src_value \| "' for key '" \| src_key \| "' could not be parsed";
167	}
168	}
169	} // processConfigFile
170
171
172	// ********************************* validation *********************************
173
174
175	forall(T \| Relational( T ))
176	bool is_nonnegative( T & value ) {
177	T zero_val = 0;
178	return value >= zero_val;
179	}
180
181	forall(T \| Relational( T ))
182	bool is_positive( T & value ) {
183	T zero_val = 0;
184	return value > zero_val;
185	}
186
187	forall(T \| Relational( T ))
188	bool is_nonpositive( T & value ) {
189	T zero_val = 0;
190	return value <= zero_val;
191	}
192
193	forall(T \| Relational( T ))
194	bool is_negative( T & value ) {
195	T zero_val = 0;
196	return value < zero_val;
197	}
198
199
200	// Local Variables: //
201	// tab-width: 4 //
202	// compile-command: "cfa parseconfig.cfa" //
203	// End: //

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