/* * 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) 1995-2018 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.com/ * * This software is maintained by Dave Mielke . */ #include "prologue.h" #include #include #include "log.h" #include "ctb_translate.h" #include "brl_dots.h" #include "file.h" #include "parse.h" #include "charset.h" static int putExternalRequests (BrailleContractionData *bcd) { typedef enum { REQ_TEXT, REQ_NUMBER } ExternalRequestType; typedef struct { const char *name; ExternalRequestType type; union { struct { const wchar_t *start; size_t count; } text; unsigned int number; } value; } ExternalRequestEntry; const ExternalRequestEntry externalRequestTable[] = { { .name = "cursor-position", .type = REQ_NUMBER, .value.number = bcd->input.cursor? bcd->input.cursor-bcd->input.begin+1: 0 }, { .name = "expand-current-word", .type = REQ_NUMBER, .value.number = prefs.expandCurrentWord }, { .name = "capitalization-mode", .type = REQ_NUMBER, .value.number = prefs.capitalizationMode }, { .name = "maximum-length", .type = REQ_NUMBER, .value.number = getOutputCount(bcd) }, { .name = "text", .type = REQ_TEXT, .value.text = { .start = bcd->input.begin, .count = getInputCount(bcd) } }, { .name = NULL } }; FILE *stream = bcd->table->data.external.standardInput; const ExternalRequestEntry *req = externalRequestTable; while (req->name) { if (fputs(req->name, stream) == EOF) goto outputError; if (fputc('=', stream) == EOF) goto outputError; switch (req->type) { case REQ_TEXT: { const wchar_t *character = req->value.text.start; const wchar_t *end = character + req->value.text.count; while (character < end) { Utf8Buffer utf8; size_t utfs = convertWcharToUtf8(*character++, utf8); if (!utfs) return 0; if (fputs(utf8, stream) == EOF) goto outputError; } break; } case REQ_NUMBER: if (fprintf(stream, "%u", req->value.number) == EOF) goto outputError; break; default: logMessage(LOG_WARNING, "unimplemented external contraction request property type: %s: %u (%s)", bcd->table->data.external.command, req->type, req->name); return 0; } if (fputc('\n', stream) == EOF) goto outputError; req += 1; } if (fflush(stream) == EOF) goto outputError; return 1; outputError: logMessage(LOG_WARNING, "external contraction output error: %s: %s", bcd->table->data.external.command, strerror(errno)); return 0; } static const unsigned char brfTable[0X40] = { /* 0X20 */ 0, /* 0X21 ! */ BRL_DOT_2 | BRL_DOT_3 | BRL_DOT_4 | BRL_DOT_6, /* 0X22 " */ BRL_DOT_5, /* 0X23 # */ BRL_DOT_3 | BRL_DOT_4 | BRL_DOT_5 | BRL_DOT_6, /* 0X24 $ */ BRL_DOT_1 | BRL_DOT_2 | BRL_DOT_4 | BRL_DOT_6, /* 0X25 % */ BRL_DOT_1 | BRL_DOT_4 | BRL_DOT_6, /* 0X26 & */ BRL_DOT_1 | BRL_DOT_2 | BRL_DOT_3 | BRL_DOT_4 | BRL_DOT_6, /* 0X27 ' */ BRL_DOT_3, /* 0X28 ( */ BRL_DOT_1 | BRL_DOT_2 | BRL_DOT_3 | BRL_DOT_5 | BRL_DOT_6, /* 0X29 ) */ BRL_DOT_2 | BRL_DOT_3 | BRL_DOT_4 | BRL_DOT_5 | BRL_DOT_6, /* 0X2A * */ BRL_DOT_1 | BRL_DOT_6, /* 0X2B + */ BRL_DOT_3 | BRL_DOT_4 | BRL_DOT_6, /* 0X2C , */ BRL_DOT_6, /* 0X2D - */ BRL_DOT_3 | BRL_DOT_6, /* 0X2E . */ BRL_DOT_4 | BRL_DOT_6, /* 0X2F / */ BRL_DOT_3 | BRL_DOT_4, /* 0X30 0 */ BRL_DOT_3 | BRL_DOT_5 | BRL_DOT_6, /* 0X31 1 */ BRL_DOT_2, /* 0X32 2 */ BRL_DOT_2 | BRL_DOT_3, /* 0X33 3 */ BRL_DOT_2 | BRL_DOT_5, /* 0X34 4 */ BRL_DOT_2 | BRL_DOT_5 | BRL_DOT_6, /* 0X35 5 */ BRL_DOT_2 | BRL_DOT_6, /* 0X36 6 */ BRL_DOT_2 | BRL_DOT_3 | BRL_DOT_5, /* 0X37 7 */ BRL_DOT_2 | BRL_DOT_3 | BRL_DOT_5 | BRL_DOT_6, /* 0X38 8 */ BRL_DOT_2 | BRL_DOT_3 | BRL_DOT_6, /* 0X39 9 */ BRL_DOT_3 | BRL_DOT_5, /* 0X3A : */ BRL_DOT_1 | BRL_DOT_5 | BRL_DOT_6, /* 0X3B ; */ BRL_DOT_5 | BRL_DOT_6, /* 0X3C < */ BRL_DOT_1 | BRL_DOT_2 | BRL_DOT_6, /* 0X3D = */ BRL_DOT_1 | BRL_DOT_2 | BRL_DOT_3 | BRL_DOT_4 | BRL_DOT_5 | BRL_DOT_6, /* 0X3E > */ BRL_DOT_3 | BRL_DOT_4 | BRL_DOT_5, /* 0X3F ? */ BRL_DOT_1 | BRL_DOT_4 | BRL_DOT_5 | BRL_DOT_6, /* 0X40 @ */ BRL_DOT_4, /* 0X41 A */ BRL_DOT_1, /* 0X42 B */ BRL_DOT_1 | BRL_DOT_2, /* 0X43 C */ BRL_DOT_1 | BRL_DOT_4, /* 0X44 D */ BRL_DOT_1 | BRL_DOT_4 | BRL_DOT_5, /* 0X45 E */ BRL_DOT_1 | BRL_DOT_5, /* 0X46 F */ BRL_DOT_1 | BRL_DOT_2 | BRL_DOT_4, /* 0X47 G */ BRL_DOT_1 | BRL_DOT_2 | BRL_DOT_4 | BRL_DOT_5, /* 0X48 H */ BRL_DOT_1 | BRL_DOT_2 | BRL_DOT_5, /* 0X49 I */ BRL_DOT_2 | BRL_DOT_4, /* 0X4A J */ BRL_DOT_2 | BRL_DOT_4 | BRL_DOT_5, /* 0X4B K */ BRL_DOT_1 | BRL_DOT_3, /* 0X4C L */ BRL_DOT_1 | BRL_DOT_2 | BRL_DOT_3, /* 0X4D M */ BRL_DOT_1 | BRL_DOT_3 | BRL_DOT_4, /* 0X4E N */ BRL_DOT_1 | BRL_DOT_3 | BRL_DOT_4 | BRL_DOT_5, /* 0X4F O */ BRL_DOT_1 | BRL_DOT_3 | BRL_DOT_5, /* 0X50 P */ BRL_DOT_1 | BRL_DOT_2 | BRL_DOT_3 | BRL_DOT_4, /* 0X51 Q */ BRL_DOT_1 | BRL_DOT_2 | BRL_DOT_3 | BRL_DOT_4 | BRL_DOT_5, /* 0X52 R */ BRL_DOT_1 | BRL_DOT_2 | BRL_DOT_3 | BRL_DOT_5, /* 0X53 S */ BRL_DOT_2 | BRL_DOT_3 | BRL_DOT_4, /* 0X54 T */ BRL_DOT_2 | BRL_DOT_3 | BRL_DOT_4 | BRL_DOT_5, /* 0X55 U */ BRL_DOT_1 | BRL_DOT_3 | BRL_DOT_6, /* 0X56 V */ BRL_DOT_1 | BRL_DOT_2 | BRL_DOT_3 | BRL_DOT_6, /* 0X57 W */ BRL_DOT_2 | BRL_DOT_4 | BRL_DOT_5 | BRL_DOT_6, /* 0X58 X */ BRL_DOT_1 | BRL_DOT_3 | BRL_DOT_4 | BRL_DOT_6, /* 0X59 Y */ BRL_DOT_1 | BRL_DOT_3 | BRL_DOT_4 | BRL_DOT_5 | BRL_DOT_6, /* 0X5A Z */ BRL_DOT_1 | BRL_DOT_3 | BRL_DOT_5 | BRL_DOT_6, /* 0X5B [ */ BRL_DOT_2 | BRL_DOT_4 | BRL_DOT_6, /* 0X5C \ */ BRL_DOT_1 | BRL_DOT_2 | BRL_DOT_5 | BRL_DOT_6, /* 0X5D ] */ BRL_DOT_1 | BRL_DOT_2 | BRL_DOT_4 | BRL_DOT_5 | BRL_DOT_6, /* 0X5E ^ */ BRL_DOT_4 | BRL_DOT_5, /* 0X5F _ */ BRL_DOT_4 | BRL_DOT_5 | BRL_DOT_6 }; static int handleExternalResponse_brf (BrailleContractionData *bcd, const char *value) { int useDot7 = prefs.capitalizationMode == CTB_CAP_DOT7; while (*value && (bcd->output.current < bcd->output.end)) { unsigned char brf = *value++ & 0XFF; unsigned char dots = 0; unsigned char superimpose = 0; if ((brf >= 0X60) && (brf <= 0X7F)) { brf -= 0X20; } else if ((brf >= 0X41) && (brf <= 0X5A)) { if (useDot7) superimpose |= BRL_DOT_7; } if ((brf >= 0X20) && (brf <= 0X5F)) dots = brfTable[brf - 0X20] | superimpose; *bcd->output.current++ = dots; } return 1; } static int handleExternalResponse_consumedLength (BrailleContractionData *bcd, const char *value) { int length; if (!isInteger(&length, value)) return 0; if (length < 1) return 0; if (length > getInputCount(bcd)) return 0; bcd->input.current = bcd->input.begin + length; return 1; } static int handleExternalResponse_outputOffsets (BrailleContractionData *bcd, const char *value) { if (bcd->input.offsets) { int previous = CTB_NO_OFFSET; unsigned int count = getInputCount(bcd); unsigned int index = 0; while (*value && (index < count)) { int offset; { char *delimiter = strchr(value, ','); if (delimiter) { int ok; { char oldDelimiter = *delimiter; *delimiter = 0; ok = isInteger(&offset, value); *delimiter = oldDelimiter; } if (!ok) return 0; value = delimiter + 1; } else if (isInteger(&offset, value)) { value += strlen(value); } else { return 0; } } if (offset < ((index == 0)? 0: previous)) return 0; if (offset >= getOutputCount(bcd)) return 0; bcd->input.offsets[index++] = (offset == previous)? CTB_NO_OFFSET: offset; previous = offset; } } return 1; } typedef struct { const char *name; int (*handler) (BrailleContractionData *bcd, const char *value); unsigned stop:1; } ExternalResponseEntry; static const ExternalResponseEntry externalResponseTable[] = { { .name = "brf", .stop = 1, .handler = handleExternalResponse_brf }, { .name = "consumed-length", .handler = handleExternalResponse_consumedLength }, { .name = "output-offsets", .handler = handleExternalResponse_outputOffsets }, { .name = NULL } }; static int getExternalResponses (BrailleContractionData *bcd) { FILE *stream = bcd->table->data.external.standardOutput; while (readLine(stream, &bcd->table->data.external.input.buffer, &bcd->table->data.external.input.size)) { int ok = 0; int stop = 0; char *delimiter = strchr(bcd->table->data.external.input.buffer, '='); if (delimiter) { const char *value = delimiter + 1; const ExternalResponseEntry *rsp = externalResponseTable; char oldDelimiter = *delimiter; *delimiter = 0; while (rsp->name) { if (strcmp(bcd->table->data.external.input.buffer, rsp->name) == 0) { if (rsp->handler(bcd, value)) ok = 1; if (rsp->stop) stop = 1; break; } rsp += 1; } *delimiter = oldDelimiter; } if (!ok) logMessage(LOG_WARNING, "unexpected external contraction response: %s: %s", bcd->table->data.external.command, bcd->table->data.external.input.buffer); if (stop) return 1; } logMessage(LOG_WARNING, "incomplete external contraction response: %s", bcd->table->data.external.command); return 0; } static int contractText_external (BrailleContractionData *bcd) { setOffset(bcd); while (++bcd->input.current < bcd->input.end) clearOffset(bcd); if (startContractionCommand(bcd->table)) { if (putExternalRequests(bcd)) { if (getExternalResponses(bcd)) { return 1; } } } stopContractionCommand(bcd->table); return 0; } static void finishCharacterEntry_external (BrailleContractionData *bcd, CharacterEntry *entry) { } static const ContractionTableTranslationMethods externalTranslationMethods = { .contractText = contractText_external, .finishCharacterEntry = finishCharacterEntry_external }; const ContractionTableTranslationMethods * getContractionTableTranslationMethods_external (void) { return &externalTranslationMethods; }