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/*
* BRLTTY - A background process providing access to the console screen (when in
* text mode) for a blind person using a refreshable braille display.
*
* Copyright (C) 1995-2025 by The BRLTTY Developers.
*
* BRLTTY comes with ABSOLUTELY NO WARRANTY.
*
* This is free software, placed 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. Please see the file LICENSE-LGPL for details.
*
* Web Page: http://brltty.app/
*
* This software is maintained by Dave Mielke <dave@mielke.cc>.
*/
#include "prologue.h"
#include <stdio.h>
#include <string.h>
#include "program.h"
#include "cmdline.h"
#include "options.h"
#include "log.h"
#include "file.h"
#include "parse.h"
#include "dynld.h"
#include "ktb.h"
#include "ktb_keyboard.h"
#include "brl.h"
char *opt_brailleDriver;
static int opt_audit;
static int opt_listKeyNames;
static int opt_listHelpScreen;
static int opt_listRestructuredText;
char *opt_tablesDirectory;
char *opt_driversDirectory;
BEGIN_OPTION_TABLE(programOptions)
{ .word = "braille-driver",
.letter = 'b',
.argument = strtext("driver"),
.setting.string = &opt_brailleDriver,
.description = strtext("Braille driver code."),
},
{ .word = "audit",
.letter = 'a',
.setting.flag = &opt_audit,
.description = strtext("Report problems with the key table.")
},
{ .word = "keys",
.letter = 'k',
.setting.flag = &opt_listKeyNames,
.description = strtext("List key names.")
},
{ .word = "list",
.letter = 'l',
.setting.flag = &opt_listHelpScreen,
.description = strtext("List key table in help screen format.")
},
{ .word = "reStructuredText",
.letter = 'r',
.setting.flag = &opt_listRestructuredText,
.description = strtext("List key table in reStructuredText format.")
},
{ .word = "tables-directory",
.letter = 'T',
.argument = strtext("directory"),
.setting.string = &opt_tablesDirectory,
.internal.setting = TABLES_DIRECTORY,
.internal.adjust = toAbsoluteInstallPath,
.description = strtext("Path to directory containing tables.")
},
{ .word = "drivers-directory",
.letter = 'D',
.argument = strtext("directory"),
.setting.string = &opt_driversDirectory,
.internal.setting = DRIVERS_DIRECTORY,
.internal.adjust = toAbsoluteInstallPath,
.description = strtext("Path to directory for loading drivers.")
},
END_OPTION_TABLE(programOptions)
static void *driverObject;
typedef struct {
KEY_NAME_TABLES_REFERENCE names;
char *path;
} KeyTableDescriptor;
static int
getKeyTableDescriptor (KeyTableDescriptor *ktd, const char *tableName) {
int ok = 0;
memset(ktd, 0, sizeof(*ktd));
ktd->names = NULL;
ktd->path = NULL;
if (*opt_brailleDriver) {
if (loadBrailleDriver(opt_brailleDriver, &driverObject, opt_driversDirectory)) {
char *keyTablesSymbol;
{
const char *strings[] = {"brl_ktb_", opt_brailleDriver};
keyTablesSymbol = joinStrings(strings, ARRAY_COUNT(strings));
}
if (keyTablesSymbol) {
const KeyTableDefinition *const *keyTableDefinitions;
if (findSharedSymbol(driverObject, keyTablesSymbol, &keyTableDefinitions)) {
const KeyTableDefinition *const *currentDefinition = keyTableDefinitions;
while (*currentDefinition) {
if (strcmp(tableName, (*currentDefinition)->bindings) == 0) {
ktd->names = (*currentDefinition)->names;
if ((ktd->path = makeInputTablePath(opt_tablesDirectory, opt_brailleDriver, tableName))) ok = 1;
break;
}
currentDefinition += 1;
}
if (!ktd->names) {
logMessage(LOG_ERR,
"unknown braille device model: %s-%s",
opt_brailleDriver, tableName
);
}
}
free(keyTablesSymbol);
} else {
logMallocError();
}
}
} else {
ktd->names = KEY_NAME_TABLES(keyboard);
if ((ktd->path = makeKeyboardTablePath(opt_tablesDirectory, tableName))) ok = 1;
}
if (!ok) {
if (ktd->path) free(ktd->path);
memset(ktd, 0, sizeof(*ktd));
}
return ok;
}
static int
writeLine (const wchar_t *line) {
FILE *stream = stdout;
fprintf(stream, "%" PRIws "\n", line);
return !ferror(stream);
}
static int
hlpWriteLine (const wchar_t *line, void *data) {
return writeLine(line);
}
typedef struct {
unsigned int headerLevel;
unsigned int elementLevel;
wchar_t elementBullet;
unsigned blankLine:1;
} RestructuredTextData;
static int
rstAddLine (const wchar_t *line, RestructuredTextData *rst) {
if (*line) {
rst->blankLine = 0;
} else if (rst->blankLine) {
return 1;
} else {
rst->blankLine = 1;
}
return writeLine(line);
}
static int
rstAddBlankLine (RestructuredTextData *rst) {
return rstAddLine(WS_C(""), rst);
}
static int
rstWriteLine (const wchar_t *line, void *data) {
RestructuredTextData *rst = data;
const unsigned int indent = 2;
const unsigned int count = indent * rst->elementLevel;
size_t length = wcslen(line);
wchar_t buffer[count + length + 1];
if (rst->elementLevel > 0) {
wmemset(buffer, WC_C(' '), count);
buffer[count - indent] = rst->elementBullet;
rst->elementBullet = WC_C(' ');
wmemcpy(&buffer[count], line, (length + 1));
line = buffer;
}
return rstAddLine(line, rst);
}
static int
rstWriteHeader (const wchar_t *text, unsigned int level, void *data) {
RestructuredTextData *rst = data;
if (level > (rst->headerLevel + 1)) {
level = rst->headerLevel + 1;
} else {
rst->headerLevel = level;
}
static const wchar_t characters[] = {
WC_C('='), WC_C('-'), WC_C('~')
};
size_t length = wcslen(text);
wchar_t underline[length + 1];
wmemset(underline, characters[level], length);
underline[length] = 0;
if (!rstAddLine(text, rst)) return 0;
if (!rstAddLine(underline, rst)) return 0;
if (!rstAddBlankLine(rst)) return 0;
if (level == 0) {
if (!rstAddLine(WS_C(".. contents::"), rst)) return 0;
if (!rstAddBlankLine(rst)) return 0;
}
return 1;
}
static int
rstBeginElement (unsigned int level, void *data) {
RestructuredTextData *rst = data;
static const wchar_t bullets[] = {
WC_C('*'), WC_C('+'), WC_C('o')
};
rst->elementLevel = level;
rst->elementBullet = bullets[level - 1];
if (!rstAddBlankLine(rst)) return 0;
return 1;
}
static int
rstEndList (void *data) {
RestructuredTextData *rst = data;
rst->elementLevel = 0;
if (!rstAddBlankLine(rst)) return 0;
return 1;
}
static const KeyTableListMethods rstMethods = {
.writeHeader = rstWriteHeader,
.beginElement = rstBeginElement,
.endList = rstEndList
};
int
main (int argc, char *argv[]) {
ProgramExitStatus exitStatus = PROG_EXIT_SUCCESS;
{
const CommandLineDescriptor descriptor = {
.options = &programOptions,
.applicationName = "brltty-ktb",
.usage = {
.purpose = strtext("check a key table, list the key naems it can use, or write the key bindings it defines in useful formats."),
.parameters = "table-name",
}
};
PROCESS_OPTIONS(descriptor, argc, argv);
}
driverObject = NULL;
if (argc) {
const char *tableName = (argc--, *argv++);
KeyTableDescriptor ktd;
int gotKeyTableDescriptor;
{
const char *file = locatePathName(tableName);
const char *delimiter = strrchr(file, '.');
size_t length = delimiter? (delimiter - file): strlen(file);
char name[length + 1];
memcpy(name, file, length);
name[length] = 0;
gotKeyTableDescriptor = getKeyTableDescriptor(&ktd, name);
}
if (gotKeyTableDescriptor) {
if (opt_listKeyNames) {
if (!listKeyNames(ktd.names, hlpWriteLine, NULL)) {
exitStatus = PROG_EXIT_FATAL;
}
}
if (exitStatus == PROG_EXIT_SUCCESS) {
KeyTable *keyTable = compileKeyTable(ktd.path, ktd.names);
if (keyTable) {
if (opt_audit) {
if (!auditKeyTable(keyTable, ktd.path)) {
exitStatus = PROG_EXIT_FATAL;
}
}
if (opt_listHelpScreen) {
if (!listKeyTable(keyTable, NULL, hlpWriteLine, NULL)) {
exitStatus = PROG_EXIT_FATAL;
}
}
if (opt_listRestructuredText) {
RestructuredTextData rst = {
.headerLevel = 0,
.elementLevel = 0,
.elementBullet = WC_C(' '),
.blankLine = 0
};
if (!listKeyTable(keyTable, &rstMethods, rstWriteLine, &rst)) {
exitStatus = PROG_EXIT_FATAL;
}
}
destroyKeyTable(keyTable);
} else {
exitStatus = PROG_EXIT_FATAL;
}
}
free(ktd.path);
} else {
exitStatus = PROG_EXIT_FATAL;
}
} else {
logMessage(LOG_ERR, "missing key table name");
exitStatus = PROG_EXIT_SYNTAX;
}
if (driverObject) unloadSharedObject(driverObject);
return exitStatus;
}
#include "scr.h"
KeyTableCommandContext
getScreenCommandContext (void) {
return KTB_CTX_DEFAULT;
}
int
currentVirtualTerminal (void) {
return 0;
}
#include "alert.h"
void
alert (AlertIdentifier identifier) {
}
void
speakAlertText (const wchar_t *text) {
}
#include "api_control.h"
const ApiMethods api;
#include "message.h"
int
message (const char *mode, const char *text, MessageOptions options) {
return 1;
}
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