liblouis/liblouis/metadata.c - liblouis_for_aas - Git at Google

 /* liblouis Braille Translation and Back-Translation Library

    Copyright (C) 2015 Bert Frees <bertfrees@gmail.com>

    This file is part of liblouis.

    liblouis is free software: you can redistribute it and/or modify it
    under the terms of the GNU Lesser General Public License as published
    by the Free Software Foundation, either version 2.1 of the License, or
    (at your option) any later version.

    liblouis 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
    Lesser General Public License for more details.

    You should have received a copy of the GNU Lesser General Public
    License along with liblouis. If not, see <http://www.gnu.org/licenses/>.
 */

 /**
  * @file
  * @brief Find translation tables
  */

 #include <stdlib.h>
 #include <string.h>
 #ifdef _MSC_VER
 #include <windows.h>
 #else
 #include <dirent.h>
 #endif
 #include <sys/stat.h>
 #include "internal.h"
 #include "config.h"

 /* =============================== LIST =================================== */

 typedef struct List {
 	void *head;
 	void (*free)(void *);
 	struct List *tail;
 } List;

 /**
  * Returns a list with the element `x' added to `list'. Returns a sorted list
  * if `cmp' is not NULL and if `list' is also sorted. New elements replace
  * existing ones if they are equal according to `cmp'. If `cmp' is NULL,
  * elements are simply prepended to the list. The function `dup' is used to
  * duplicate elements before they are added to the list. The `free' function
  * is used to free elements when they are removed from the list. The returned
  * list must be freed by the caller.
  */
 static List *
 list_conj(List *list, void *x, int (*cmp)(void *, void *), void *(*dup)(void *),
 		void (*free)(void *)) {
 	if (!list) {
 		list = malloc(sizeof(List));
 		list->head = dup ? dup(x) : x;
 		list->free = free;
 		list->tail = NULL;
 		return list;
 	} else if (!cmp) {
 		List *l = malloc(sizeof(List));
 		l->head = dup ? dup(x) : x;
 		l->free = free;
 		l->tail = list;
 		return l;
 	} else {
 		List *l1 = list;
 		List *l2 = NULL;
 		while (l1) {
 			int c = cmp(l1->head, x);
 			if (c > 0)
 				break;
 			else if (c < 0) {
 				l2 = l1;
 				l1 = l2->tail;
 			} else {
 				if (x != l1->head && !dup && free) free(x);
 				return list;
 			}
 		}
 		List *l3 = malloc(sizeof(List));
 		l3->head = dup ? dup(x) : x;
 		l3->free = free;
 		l3->tail = l1;
 		if (!l2)
 			list = l3;
 		else
 			l2->tail = l3;
 		return list;
 	}
 }

 /**
  * Free an instance of type List.
  */
 static void
 list_free(List *list) {
 	if (list) {
 		if (list->free) list->free(list->head);
 		list_free(list->tail);
 		free(list);
 	}
 }

 /**
  * Sort a list based on a comparison function.
  */
 static List *
 list_sort(List *list, int (*cmp)(void *, void *)) {
 	List *newList = NULL;
 	List *l;
 	for (l = list; l; l = l->tail) {
 		newList = list_conj(newList, l->head, cmp, NULL, l->free);
 		l->free = NULL;
 	}
 	list_free(list);
 	return newList;
 }

 /**
  * Get the size of a list.
  */
 static int
 list_size(List *list) {
 	int len = 0;
 	List *l;
 	for (l = list; l; l = l->tail) len++;
 	return len;
 }

 /**
  * Convert a list into a NULL terminated array.
  */
 static void **
 list_toArray(List *list, void *(*dup)(void *)) {
 	void **array;
 	List *l;
 	int i;
 	array = malloc((1 + list_size(list)) * sizeof(void *));
 	i = 0;
 	for (l = list; l; l = l->tail) array[i++] = dup ? dup(l->head) : l->head;
 	array[i] = NULL;
 	return array;
 }

 /* ============================== FEATURE ================================= */

 typedef struct {
 	char *key;
 	char *val;
 } Feature;

 typedef struct {
 	Feature feature;
 	int importance;
 } FeatureWithImportance;

 typedef struct {
 	char *name;
 	List *features;
 } TableMeta;

 /**
  * Create an instance of type Feature.
  * The `key' and `val' strings are duplicated. Leaving out the `val'
  * argument results in a value of "yes".
  */
 static Feature
 feature_new(const char *key, const char *val) {
 	static char *YES = "yes";
 	Feature f;
 	f.key = strdup(key);
 	f.val = strdup(val ? val : YES);
 	return f;
 }

 /**
  * Free an instance of type Feature
  */
 static void
 feature_free(Feature *f) {
 	if (f) {
 		free(f->key);
 		free(f->val);
 		free(f);
 	}
 }

 /* ======================================================================== */

 /**
  * Sort features based on their keys.
  */
 static int
 cmpKeys(Feature *f1, Feature *f2) {
 	return strcmp(f1->key, f2->key);
 }

 /**
  * Compute the match quotient of the features in a query against the features in a table's
  * metadata.
  *
  * The features are assumed to be sorted and to have no duplicate
  * keys. The query's features must be of type FeatureWithImportance.
  * How a feature contributes to the match quotient depends on its
  * importance, on whether the feature is undefined, defined with the
  * same value (positive match), or defined with a different value
  * (negative match), and on the `fuzzy' argument. If the `fuzzy'
  * argument evaluates to true, negative matches and undefined features
  * get a lower penalty.
  */
 static int
 matchFeatureLists(const List *query, const List *tableFeatures, int fuzzy) {
 	static int POS_MATCH = 10;
 	static int NEG_MATCH = -100;
 	static int UNDEFINED = -20;
 	static int EXTRA = -1;
 	static int POS_MATCH_FUZZY = 10;
 	static int NEG_MATCH_FUZZY = -25;
 	static int UNDEFINED_FUZZY = -5;
 	static int EXTRA_FUZZY = -1;
 	int posMatch, negMatch, undefined, extra;
 	if (!fuzzy) {
 		posMatch = POS_MATCH;
 		negMatch = NEG_MATCH;
 		undefined = UNDEFINED;
 		extra = EXTRA;
 	} else {
 		posMatch = POS_MATCH_FUZZY;
 		negMatch = NEG_MATCH_FUZZY;
 		undefined = UNDEFINED_FUZZY;
 		extra = EXTRA_FUZZY;
 	}
 	int quotient = 0;
 	const List *l1 = query;
 	const List *l2 = tableFeatures;
 	while (1) {
 		if (!l1) {
 			if (!l2) break;
 			quotient += extra;
 			l2 = l2->tail;
 		} else if (!l2) {
 			quotient += undefined;
 			l1 = l1->tail;
 		} else {
 			int cmp = cmpKeys(l1->head, l2->head);
 			if (cmp < 0) {
 				quotient += undefined;
 				l1 = l1->tail;
 			} else if (cmp > 0) {
 				quotient += extra;
 				l2 = l2->tail;
 			} else {
 				if (strcmp(((Feature *)l1->head)->val, ((Feature *)l2->head)->val) == 0)
 					quotient += posMatch;
 				else
 					quotient += negMatch;
 				l1 = l1->tail;
 				l2 = l2->tail;
 			}
 		}
 	}
 	return quotient;
 }

 /**
  * Return true if a character matches [0-9A-Za-z_-]
  */
 static int
 isIdentChar(char c) {
 	return (c >= '0' && c <= '9') || (c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') ||
 			c == '-' || c == '_';
 }

 /**
  * Return true if a character matches [\s\t]
  */
 static int
 isSpace(char c) {
 	return c == ' ' || c == '\t';
 }

 /**
  * Parse a table query into a list of features. Features defined first get a
  * higher importance.
  */
 static List *
 parseQuery(const char *query) {
 	List *features = NULL;
 	const char *key = NULL;
 	const char *val = NULL;
 	size_t keySize = 0;
 	size_t valSize = 0;
 	const char *c;
 	int pos = 0;
 	while (1) {
 		c = &query[pos++];
 		if (isSpace(*c) || (*c == '\n') | (*c == '\0')) {
 			if (key) {
 				char *k = malloc(keySize + 1);
 				k[keySize] = '\0';
 				memcpy(k, key, keySize);
 				char *v = NULL;
 				if (val) {
 					v = malloc(valSize + 1);
 					v[valSize] = '\0';
 					memcpy(v, val, valSize);
 				}
 				FeatureWithImportance f = { feature_new(k, v), 0 };
 				_lou_logMessage(LOG_DEBUG, "Query has feature '%s:%s'", f.feature.key,
 						f.feature.val);
 				features = list_conj(features, memcpy(malloc(sizeof(f)), &f, sizeof(f)),
 						NULL, NULL, (void (*)(void *))feature_free);
 				free(k);
 				free(v);
 				key = val = NULL;
 				keySize = valSize = 0;
 			}
 			if (*c == '\0') break;
 		} else if (*c == ':') {
 			if (!key || val)
 				goto compile_error;
 			else {
 				c = &query[pos++];
 				if (isIdentChar(*c)) {
 					val = c;
 					valSize = 1;
 				} else
 					goto compile_error;
 			}
 		} else if (isIdentChar(*c)) {
 			if (val)
 				valSize++;
 			else if (key)
 				keySize++;
 			else {
 				key = c;
 				keySize = 1;
 			}
 		} else
 			goto compile_error;
 	}
 	int k = 1;
 	List *l;
 	for (l = features; l; l = l->tail) {
 		FeatureWithImportance *f = l->head;
 		f->importance = k++;
 	}
 	return list_sort(features, (int (*)(void *, void *))cmpKeys);
 compile_error:
 	_lou_logMessage(LOG_ERROR, "Unexpected character '%c' at position %d", c, pos);
 	list_free(features);
 	return NULL;
 }

 /**
  * Convert a widechar string to a normal string.
  */
 static char *
 widestrToStr(const widechar *str, size_t n) {
 	char *result = malloc((1 + n) * sizeof(char));
 	size_t k;
 	for (k = 0; k < n; k++) result[k] = (char)str[k];
 	result[k] = '\0';
 	return result;
 }

 /**
  * Extract a list of features from a table.
  */
 static List *
 analyzeTable(const char *table, int activeOnly) {
 	static char fileName[MAXSTRING];
 	char **resolved;
 	List *features = NULL;
 	FileInfo info;
 	int k;
 	resolved = _lou_resolveTable(table, NULL);
 	if (resolved == NULL) {
 		_lou_logMessage(LOG_ERROR, "Cannot resolve table '%s'", table);
 		return NULL;
 	}
 	sprintf(fileName, "%s", *resolved);
 	k = 0;
 	for (k = 0; resolved[k]; k++) free(resolved[k]);
 	free(resolved);
 	if (k > 1) {
 		_lou_logMessage(LOG_ERROR, "Table '%s' resolves to more than one file", table);
 		return NULL;
 	}
 	info.fileName = fileName;
 	info.encoding = noEncoding;
 	info.status = 0;
 	info.lineNumber = 0;
 	if ((info.in = fopen(info.fileName, "rb"))) {
 		while (_lou_getALine(&info)) {
 			if (info.linelen == 0)
 				;
 			else if (info.line[0] == '#') {
 				if (info.linelen >= 2 &&
 						(info.line[1] == '+' || (!activeOnly && info.line[1] == '-'))) {
 					int active = (info.line[1] == '+');
 					widechar *key = NULL;
 					widechar *val = NULL;
 					size_t keySize = 0;
 					size_t valSize = 0;
 					info.linepos = 2;
 					if (info.linepos < info.linelen &&
 							isIdentChar((char)info.line[info.linepos])) {
 						key = &info.line[info.linepos];
 						keySize = 1;
 						info.linepos++;
 						while (info.linepos < info.linelen &&
 								isIdentChar((char)info.line[info.linepos])) {
 							keySize++;
 							info.linepos++;
 						}
 						if (info.linepos < info.linelen &&
 								info.line[info.linepos] == ':') {
 							info.linepos++;
 							while (info.linepos < info.linelen &&
 									isSpace((char)info.line[info.linepos]))
 								info.linepos++;
 							if (info.linepos < info.linelen &&
 									(!active ||
 											isIdentChar((char)info.line[info.linepos]))) {
 								val = &info.line[info.linepos];
 								valSize = 1;
 								info.linepos++;
 								while (info.linepos < info.linelen &&
 										(!active ||
 												isIdentChar(
 														(char)info.line[info.linepos]))) {
 									valSize++;
 									info.linepos++;
 								}
 							} else
 								goto compile_error;
 						}
 						if (info.linepos == info.linelen) {
 							char *k = widestrToStr(key, keySize);
 							char *v = val ? widestrToStr(val, valSize) : NULL;
 							if (!active) {
 								// normalize space
 								int i = 0;
 								int j = 0;
 								int space = 1;
 								while (v[i]) {
 									if (isSpace(v[i])) {
 										if (!space) {
 											v[j++] = ' ';
 											space = 1;
 										}
 									} else {
 										v[j++] = v[i];
 										space = 0;
 									}
 									i++;
 								}
 								if (j > 0 && v[j - 1] == ' ') j--;
 								v[j] = '\0';
 							}
 							Feature f = feature_new(k, v);
 							_lou_logMessage(
 									LOG_DEBUG, "Table has feature '%s:%s'", f.key, f.val);
 							features = list_conj(features,
 									memcpy(malloc(sizeof(f)), &f, sizeof(f)), NULL, NULL,
 									(void (*)(void *))feature_free);
 							free(k);
 							free(v);
 						} else
 							goto compile_error;
 					} else
 						goto compile_error;
 				}
 			} else
 				break;
 		}
 		fclose(info.in);
 	} else
 		_lou_logMessage(LOG_ERROR, "Cannot open table '%s'", info.fileName);
 	return list_sort(features, (int (*)(void *, void *))cmpKeys);
 compile_error:
 	if (info.linepos < info.linelen)
 		_lou_logMessage(LOG_ERROR, "Unexpected character '%c' on line %d, column %d",
 				info.line[info.linepos], info.lineNumber, info.linepos);
 	else
 		_lou_logMessage(LOG_ERROR, "Unexpected newline on line %d", info.lineNumber);
 	list_free(features);
 	return NULL;
 }

 static List *tableIndex = NULL;

 void EXPORT_CALL
 lou_indexTables(const char **tables) {
 	const char **table;
 	list_free(tableIndex);
 	tableIndex = NULL;
 	for (table = tables; *table; table++) {
 		_lou_logMessage(LOG_DEBUG, "Analyzing table %s", *table);
 		List *features = analyzeTable(*table, 1);
 		if (features) {
 			TableMeta m = { strdup(*table), features };
 			tableIndex = list_conj(tableIndex, memcpy(malloc(sizeof(m)), &m, sizeof(m)),
 					NULL, NULL, free);
 		}
 	}
 	if (!tableIndex) _lou_logMessage(LOG_WARN, "No tables were indexed");
 }

 /**
  * Returns the list of files found in a single directory.
  */
 #ifdef _MSC_VER
 static List *
 listDir(List *list, char *dirName) {
 	static char glob[MAXSTRING];
 	static char fileName[MAXSTRING];
 	WIN32_FIND_DATA ffd;
 	HANDLE hFind;
 	sprintf(glob, "%s%c%c", dirName, DIR_SEP, '*');
 	hFind = FindFirstFileA(glob, &ffd);
 	if (hFind == INVALID_HANDLE_VALUE) {
 		_lou_logMessage(LOG_WARN, "%s is not a directory", dirName);
 	} else {
 		do {
 			if (ffd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) {
 				sprintf(fileName, "%s%c%s", dirName, DIR_SEP, ffd.cFileName);
 				list = list_conj(list, strdup(fileName), NULL, NULL, free);
 			}
 		} while (FindNextFileA(hFind, &ffd));
 		FindClose(hFind);
 	}
 	return list;
 }
 #else  /* !_MSC_VER */
 static List *
 listDir(List *list, char *dirName) {
 	static char fileName[MAXSTRING];
 	struct stat info;
 	DIR *dir;
 	struct dirent *file;
 	if ((dir = opendir(dirName))) {
 		while ((file = readdir(dir))) {
 			sprintf(fileName, "%s%c%s", dirName, DIR_SEP, file->d_name);
 			if (stat(fileName, &info) == 0 && !(info.st_mode & S_IFDIR)) {
 				list = list_conj(list, strdup(fileName), NULL, NULL, free);
 			}
 		}
 		closedir(dir);
 	} else {
 		_lou_logMessage(LOG_WARN, "%s is not a directory", dirName);
 	}
 	return list;
 }
 #endif /* !_MSC_VER */

 /**
  * Returns the list of files found on searchPath, where searchPath is a
  * comma-separated list of directories.
  */
 static List *
 listFiles(char *searchPath) {
 	List *list = NULL;
 	char *dirName;
 	int pos = 0;
 	int n;
 	while (1) {
 		for (n = 0; searchPath[pos + n] != '\0' && searchPath[pos + n] != ','; n++)
 			;
 		dirName = malloc(n + 1);
 		dirName[n] = '\0';
 		memcpy(dirName, &searchPath[pos], n);
 		list = listDir(list, dirName);
 		free(dirName);
 		pos += n;
 		if (searchPath[pos] == '\0')
 			break;
 		else
 			pos++;
 	}
 	return list;
 }

 static void
 indexTablePath() {
 	char *searchPath;
 	List *tables;
 	const char **tablesArray;
 	_lou_logMessage(
 			LOG_WARN, "Tables have not been indexed yet. Indexing LOUIS_TABLEPATH.");
 	searchPath = _lou_getTablePath();
 	tables = listFiles(searchPath);
 	tablesArray = (const char **)list_toArray(tables, NULL);
 	lou_indexTables(tablesArray);
 	free(searchPath);
 	list_free(tables);
 	free((char **)tablesArray);
 }

 char *EXPORT_CALL
 lou_findTable(const char *query) {
 	if (!tableIndex) indexTablePath();
 	List *queryFeatures = parseQuery(query);
 	int bestQuotient = 0;
 	char *bestMatch = NULL;
 	List *l;
 	for (l = tableIndex; l; l = l->tail) {
 		TableMeta *table = l->head;
 		int q = matchFeatureLists(queryFeatures, table->features, 0);
 		if (q > bestQuotient) {
 			bestQuotient = q;
 			bestMatch = strdup(table->name);
 		}
 	}
 	if (bestMatch) {
 		_lou_logMessage(LOG_INFO, "Best match: %s (%d)", bestMatch, bestQuotient);
 		return bestMatch;
 	} else {
 		_lou_logMessage(LOG_INFO, "No table could be found for query '%s'", query);
 		return NULL;
 	}
 }

 const char *EXPORT_CALL
 lou_getTableInfo(const char *table, const char *key) {
 	const char *value = NULL;
 	List *features = analyzeTable(table, 0);
 	List *l;
 	for (l = features; l; l = l->tail) {
 		Feature *f = l->head;
 		if (strcmp(f->key, key) == 0) {
 			value = strdup(f->val);
 			list_free(features);
 			break;
 		}
 	}
 	return value;
 }

 const char **EXPORT_CALL
 lou_listTables() {
 	const char **tablesArray;
 	List *tables = NULL;
 	List *l;
 	if (!tableIndex) indexTablePath();
 	for (l = tableIndex; l; l = l->tail) {
 		TableMeta *table = l->head;
 		tables = list_conj(
 				tables, strdup(table->name), (int (*)(void *, void *))strcmp, NULL, NULL);
 	}
 	tablesArray = (const char **)list_toArray(tables, NULL);
 	list_free(tables);
 	return tablesArray;
 }
	/* liblouis Braille Translation and Back-Translation Library

	Copyright (C) 2015 Bert Frees <bertfrees@gmail.com>

	This file is part of liblouis.

	liblouis is free software: you can redistribute it and/or modify it
	under the terms of the GNU Lesser General Public License as published
	by the Free Software Foundation, either version 2.1 of the License, or
	(at your option) any later version.

	liblouis 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
	Lesser General Public License for more details.

	You should have received a copy of the GNU Lesser General Public
	License along with liblouis. If not, see <http://www.gnu.org/licenses/>.
	*/

	/**
	* @file
	* @brief Find translation tables
	*/

	#include <stdlib.h>
	#include <string.h>
	#ifdef _MSC_VER
	#include <windows.h>
	#else
	#include <dirent.h>
	#endif
	#include <sys/stat.h>
	#include "internal.h"
	#include "config.h"

	/* =============================== LIST =================================== */

	typedef struct List {
	void *head;
	void (free)(void );
	struct List *tail;
	} List;

	/**
	* Returns a list with the element `x' added to `list'. Returns a sorted list
	* if `cmp' is not NULL and if `list' is also sorted. New elements replace
	* existing ones if they are equal according to `cmp'. If `cmp' is NULL,
	* elements are simply prepended to the list. The function `dup' is used to
	* duplicate elements before they are added to the list. The `free' function
	* is used to free elements when they are removed from the list. The returned
	* list must be freed by the caller.
	*/
	static List *
	list_conj(List list, void x, int (cmp)(void , void ), void (dup)(void ),
	void (free)(void )) {
	if (!list) {
	list = malloc(sizeof(List));
	list->head = dup ? dup(x) : x;
	list->free = free;
	list->tail = NULL;
	return list;
	} else if (!cmp) {
	List *l = malloc(sizeof(List));
	l->head = dup ? dup(x) : x;
	l->free = free;
	l->tail = list;
	return l;
	} else {
	List *l1 = list;
	List *l2 = NULL;
	while (l1) {
	int c = cmp(l1->head, x);
	if (c > 0)
	break;
	else if (c < 0) {
	l2 = l1;
	l1 = l2->tail;
	} else {
	if (x != l1->head && !dup && free) free(x);
	return list;
	}
	}
	List *l3 = malloc(sizeof(List));
	l3->head = dup ? dup(x) : x;
	l3->free = free;
	l3->tail = l1;
	if (!l2)
	list = l3;
	else
	l2->tail = l3;
	return list;
	}
	}

	/**
	* Free an instance of type List.
	*/
	static void
	list_free(List *list) {
	if (list) {
	if (list->free) list->free(list->head);
	list_free(list->tail);
	free(list);
	}
	}

	/**
	* Sort a list based on a comparison function.
	*/
	static List *
	list_sort(List list, int (cmp)(void , void )) {
	List *newList = NULL;
	List *l;
	for (l = list; l; l = l->tail) {
	newList = list_conj(newList, l->head, cmp, NULL, l->free);
	l->free = NULL;
	}
	list_free(list);
	return newList;
	}

	/**
	* Get the size of a list.
	*/
	static int
	list_size(List *list) {
	int len = 0;
	List *l;
	for (l = list; l; l = l->tail) len++;
	return len;
	}

	/**
	* Convert a list into a NULL terminated array.
	*/
	static void **
	list_toArray(List list, void (dup)(void )) {
	void **array;
	List *l;
	int i;
	array = malloc((1 + list_size(list)) * sizeof(void *));
	i = 0;
	for (l = list; l; l = l->tail) array[i++] = dup ? dup(l->head) : l->head;
	array[i] = NULL;
	return array;
	}

	/* ============================== FEATURE ================================= */

	typedef struct {
	char *key;
	char *val;
	} Feature;

	typedef struct {
	Feature feature;
	int importance;
	} FeatureWithImportance;

	typedef struct {
	char *name;
	List *features;
	} TableMeta;

	/**
	* Create an instance of type Feature.
	* The `key' and `val' strings are duplicated. Leaving out the `val'
	* argument results in a value of "yes".
	*/
	static Feature
	feature_new(const char key, const char val) {
	static char *YES = "yes";
	Feature f;
	f.key = strdup(key);
	f.val = strdup(val ? val : YES);
	return f;
	}

	/**
	* Free an instance of type Feature
	*/
	static void
	feature_free(Feature *f) {
	if (f) {
	free(f->key);
	free(f->val);
	free(f);
	}
	}

	/* ======================================================================== */

	/**
	* Sort features based on their keys.
	*/
	static int
	cmpKeys(Feature f1, Feature f2) {
	return strcmp(f1->key, f2->key);
	}

	/**
	* Compute the match quotient of the features in a query against the features in a table's
	* metadata.
	*
	* The features are assumed to be sorted and to have no duplicate
	* keys. The query's features must be of type FeatureWithImportance.
	* How a feature contributes to the match quotient depends on its
	* importance, on whether the feature is undefined, defined with the
	* same value (positive match), or defined with a different value
	* (negative match), and on the `fuzzy' argument. If the `fuzzy'
	* argument evaluates to true, negative matches and undefined features
	* get a lower penalty.
	*/
	static int
	matchFeatureLists(const List query, const List tableFeatures, int fuzzy) {
	static int POS_MATCH = 10;
	static int NEG_MATCH = -100;
	static int UNDEFINED = -20;
	static int EXTRA = -1;
	static int POS_MATCH_FUZZY = 10;
	static int NEG_MATCH_FUZZY = -25;
	static int UNDEFINED_FUZZY = -5;
	static int EXTRA_FUZZY = -1;
	int posMatch, negMatch, undefined, extra;
	if (!fuzzy) {
	posMatch = POS_MATCH;
	negMatch = NEG_MATCH;
	undefined = UNDEFINED;
	extra = EXTRA;
	} else {
	posMatch = POS_MATCH_FUZZY;
	negMatch = NEG_MATCH_FUZZY;
	undefined = UNDEFINED_FUZZY;
	extra = EXTRA_FUZZY;
	}
	int quotient = 0;
	const List *l1 = query;
	const List *l2 = tableFeatures;
	while (1) {
	if (!l1) {
	if (!l2) break;
	quotient += extra;
	l2 = l2->tail;
	} else if (!l2) {
	quotient += undefined;
	l1 = l1->tail;
	} else {
	int cmp = cmpKeys(l1->head, l2->head);
	if (cmp < 0) {
	quotient += undefined;
	l1 = l1->tail;
	} else if (cmp > 0) {
	quotient += extra;
	l2 = l2->tail;
	} else {
	if (strcmp(((Feature )l1->head)->val, ((Feature )l2->head)->val) == 0)
	quotient += posMatch;
	else
	quotient += negMatch;
	l1 = l1->tail;
	l2 = l2->tail;
	}
	}
	}
	return quotient;
	}

	/**
	* Return true if a character matches [0-9A-Za-z_-]
	*/
	static int
	isIdentChar(char c) {
	return (c >= '0' && c <= '9') \|\| (c >= 'A' && c <= 'Z') \|\| (c >= 'a' && c <= 'z') \|\|
	c == '-' \|\| c == '_';
	}

	/**
	* Return true if a character matches [\s\t]
	*/
	static int
	isSpace(char c) {
	return c == ' ' \|\| c == '\t';
	}

	/**
	* Parse a table query into a list of features. Features defined first get a
	* higher importance.
	*/
	static List *
	parseQuery(const char *query) {
	List *features = NULL;
	const char *key = NULL;
	const char *val = NULL;
	size_t keySize = 0;
	size_t valSize = 0;
	const char *c;
	int pos = 0;
	while (1) {
	c = &query[pos++];
	if (isSpace(c) \|\| (c == '\n') \| (*c == '\0')) {
	if (key) {
	char *k = malloc(keySize + 1);
	k[keySize] = '\0';
	memcpy(k, key, keySize);
	char *v = NULL;
	if (val) {
	v = malloc(valSize + 1);
	v[valSize] = '\0';
	memcpy(v, val, valSize);
	}
	FeatureWithImportance f = { feature_new(k, v), 0 };
	_lou_logMessage(LOG_DEBUG, "Query has feature '%s:%s'", f.feature.key,
	f.feature.val);
	features = list_conj(features, memcpy(malloc(sizeof(f)), &f, sizeof(f)),
	NULL, NULL, (void ()(void ))feature_free);
	free(k);
	free(v);
	key = val = NULL;
	keySize = valSize = 0;
	}
	if (*c == '\0') break;
	} else if (*c == ':') {
	if (!key \|\| val)
	goto compile_error;
	else {
	c = &query[pos++];
	if (isIdentChar(*c)) {
	val = c;
	valSize = 1;
	} else
	goto compile_error;
	}
	} else if (isIdentChar(*c)) {
	if (val)
	valSize++;
	else if (key)
	keySize++;
	else {
	key = c;
	keySize = 1;
	}
	} else
	goto compile_error;
	}
	int k = 1;
	List *l;
	for (l = features; l; l = l->tail) {
	FeatureWithImportance *f = l->head;
	f->importance = k++;
	}
	return list_sort(features, (int ()(void , void *))cmpKeys);
	compile_error:
	_lou_logMessage(LOG_ERROR, "Unexpected character '%c' at position %d", c, pos);
	list_free(features);
	return NULL;
	}

	/**
	* Convert a widechar string to a normal string.
	*/
	static char *
	widestrToStr(const widechar *str, size_t n) {
	char result = malloc((1 + n) sizeof(char));
	size_t k;
	for (k = 0; k < n; k++) result[k] = (char)str[k];
	result[k] = '\0';
	return result;
	}

	/**
	* Extract a list of features from a table.
	*/
	static List *
	analyzeTable(const char *table, int activeOnly) {
	static char fileName[MAXSTRING];
	char **resolved;
	List *features = NULL;
	FileInfo info;
	int k;
	resolved = _lou_resolveTable(table, NULL);
	if (resolved == NULL) {
	_lou_logMessage(LOG_ERROR, "Cannot resolve table '%s'", table);
	return NULL;
	}
	sprintf(fileName, "%s", *resolved);
	k = 0;
	for (k = 0; resolved[k]; k++) free(resolved[k]);
	free(resolved);
	if (k > 1) {
	_lou_logMessage(LOG_ERROR, "Table '%s' resolves to more than one file", table);
	return NULL;
	}
	info.fileName = fileName;
	info.encoding = noEncoding;
	info.status = 0;
	info.lineNumber = 0;
	if ((info.in = fopen(info.fileName, "rb"))) {
	while (_lou_getALine(&info)) {
	if (info.linelen == 0)
	;
	else if (info.line[0] == '#') {
	if (info.linelen >= 2 &&
	(info.line[1] == '+' \|\| (!activeOnly && info.line[1] == '-'))) {
	int active = (info.line[1] == '+');
	widechar *key = NULL;
	widechar *val = NULL;
	size_t keySize = 0;
	size_t valSize = 0;
	info.linepos = 2;
	if (info.linepos < info.linelen &&
	isIdentChar((char)info.line[info.linepos])) {
	key = &info.line[info.linepos];
	keySize = 1;
	info.linepos++;
	while (info.linepos < info.linelen &&
	isIdentChar((char)info.line[info.linepos])) {
	keySize++;
	info.linepos++;
	}
	if (info.linepos < info.linelen &&
	info.line[info.linepos] == ':') {
	info.linepos++;
	while (info.linepos < info.linelen &&
	isSpace((char)info.line[info.linepos]))
	info.linepos++;
	if (info.linepos < info.linelen &&
	(!active \|\|
	isIdentChar((char)info.line[info.linepos]))) {
	val = &info.line[info.linepos];
	valSize = 1;
	info.linepos++;
	while (info.linepos < info.linelen &&
	(!active \|\|
	isIdentChar(
	(char)info.line[info.linepos]))) {
	valSize++;
	info.linepos++;
	}
	} else
	goto compile_error;
	}
	if (info.linepos == info.linelen) {
	char *k = widestrToStr(key, keySize);
	char *v = val ? widestrToStr(val, valSize) : NULL;
	if (!active) {
	// normalize space
	int i = 0;
	int j = 0;
	int space = 1;
	while (v[i]) {
	if (isSpace(v[i])) {
	if (!space) {
	v[j++] = ' ';
	space = 1;
	}
	} else {
	v[j++] = v[i];
	space = 0;
	}
	i++;
	}
	if (j > 0 && v[j - 1] == ' ') j--;
	v[j] = '\0';
	}
	Feature f = feature_new(k, v);
	_lou_logMessage(
	LOG_DEBUG, "Table has feature '%s:%s'", f.key, f.val);
	features = list_conj(features,
	memcpy(malloc(sizeof(f)), &f, sizeof(f)), NULL, NULL,
	(void ()(void ))feature_free);
	free(k);
	free(v);
	} else
	goto compile_error;
	} else
	goto compile_error;
	}
	} else
	break;
	}
	fclose(info.in);
	} else
	_lou_logMessage(LOG_ERROR, "Cannot open table '%s'", info.fileName);
	return list_sort(features, (int ()(void , void *))cmpKeys);
	compile_error:
	if (info.linepos < info.linelen)
	_lou_logMessage(LOG_ERROR, "Unexpected character '%c' on line %d, column %d",
	info.line[info.linepos], info.lineNumber, info.linepos);
	else
	_lou_logMessage(LOG_ERROR, "Unexpected newline on line %d", info.lineNumber);
	list_free(features);
	return NULL;
	}

	static List *tableIndex = NULL;

	void EXPORT_CALL
	lou_indexTables(const char **tables) {
	const char **table;
	list_free(tableIndex);
	tableIndex = NULL;
	for (table = tables; *table; table++) {
	_lou_logMessage(LOG_DEBUG, "Analyzing table %s", *table);
	List features = analyzeTable(table, 1);
	if (features) {
	TableMeta m = { strdup(*table), features };
	tableIndex = list_conj(tableIndex, memcpy(malloc(sizeof(m)), &m, sizeof(m)),
	NULL, NULL, free);
	}
	}
	if (!tableIndex) _lou_logMessage(LOG_WARN, "No tables were indexed");
	}

	/**
	* Returns the list of files found in a single directory.
	*/
	#ifdef _MSC_VER
	static List *
	listDir(List list, char dirName) {
	static char glob[MAXSTRING];
	static char fileName[MAXSTRING];
	WIN32_FIND_DATA ffd;
	HANDLE hFind;
	sprintf(glob, "%s%c%c", dirName, DIR_SEP, '*');
	hFind = FindFirstFileA(glob, &ffd);
	if (hFind == INVALID_HANDLE_VALUE) {
	_lou_logMessage(LOG_WARN, "%s is not a directory", dirName);
	} else {
	do {
	if (ffd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) {
	sprintf(fileName, "%s%c%s", dirName, DIR_SEP, ffd.cFileName);
	list = list_conj(list, strdup(fileName), NULL, NULL, free);
	}
	} while (FindNextFileA(hFind, &ffd));
	FindClose(hFind);
	}
	return list;
	}
	#else /* !_MSC_VER */
	static List *
	listDir(List list, char dirName) {
	static char fileName[MAXSTRING];
	struct stat info;
	DIR *dir;
	struct dirent *file;
	if ((dir = opendir(dirName))) {
	while ((file = readdir(dir))) {
	sprintf(fileName, "%s%c%s", dirName, DIR_SEP, file->d_name);
	if (stat(fileName, &info) == 0 && !(info.st_mode & S_IFDIR)) {
	list = list_conj(list, strdup(fileName), NULL, NULL, free);
	}
	}
	closedir(dir);
	} else {
	_lou_logMessage(LOG_WARN, "%s is not a directory", dirName);
	}
	return list;
	}
	#endif /* !_MSC_VER */

	/**
	* Returns the list of files found on searchPath, where searchPath is a
	* comma-separated list of directories.
	*/
	static List *
	listFiles(char *searchPath) {
	List *list = NULL;
	char *dirName;
	int pos = 0;
	int n;
	while (1) {
	for (n = 0; searchPath[pos + n] != '\0' && searchPath[pos + n] != ','; n++)
	;
	dirName = malloc(n + 1);
	dirName[n] = '\0';
	memcpy(dirName, &searchPath[pos], n);
	list = listDir(list, dirName);
	free(dirName);
	pos += n;
	if (searchPath[pos] == '\0')
	break;
	else
	pos++;
	}
	return list;
	}

	static void
	indexTablePath() {
	char *searchPath;
	List *tables;
	const char **tablesArray;
	_lou_logMessage(
	LOG_WARN, "Tables have not been indexed yet. Indexing LOUIS_TABLEPATH.");
	searchPath = _lou_getTablePath();
	tables = listFiles(searchPath);
	tablesArray = (const char **)list_toArray(tables, NULL);
	lou_indexTables(tablesArray);
	free(searchPath);
	list_free(tables);
	free((char **)tablesArray);
	}

	char *EXPORT_CALL
	lou_findTable(const char *query) {
	if (!tableIndex) indexTablePath();
	List *queryFeatures = parseQuery(query);
	int bestQuotient = 0;
	char *bestMatch = NULL;
	List *l;
	for (l = tableIndex; l; l = l->tail) {
	TableMeta *table = l->head;
	int q = matchFeatureLists(queryFeatures, table->features, 0);
	if (q > bestQuotient) {
	bestQuotient = q;
	bestMatch = strdup(table->name);
	}
	}
	if (bestMatch) {
	_lou_logMessage(LOG_INFO, "Best match: %s (%d)", bestMatch, bestQuotient);
	return bestMatch;
	} else {
	_lou_logMessage(LOG_INFO, "No table could be found for query '%s'", query);
	return NULL;
	}
	}

	const char *EXPORT_CALL
	lou_getTableInfo(const char table, const char key) {
	const char *value = NULL;
	List *features = analyzeTable(table, 0);
	List *l;
	for (l = features; l; l = l->tail) {
	Feature *f = l->head;
	if (strcmp(f->key, key) == 0) {
	value = strdup(f->val);
	list_free(features);
	break;
	}
	}
	return value;
	}

	const char **EXPORT_CALL
	lou_listTables() {
	const char **tablesArray;
	List *tables = NULL;
	List *l;
	if (!tableIndex) indexTablePath();
	for (l = tableIndex; l; l = l->tail) {
	TableMeta *table = l->head;
	tables = list_conj(
	tables, strdup(table->name), (int ()(void , void *))strcmp, NULL, NULL);
	}
	tablesArray = (const char **)list_toArray(tables, NULL);
	list_free(tables);
	return tablesArray;
	}