Google Git
Sign in
skia / external / github.com / unicode-org / icu / refs/tags/icu-release-2-1-d02 / . / source / tools / gentz / gentz.cpp
blob: a985e6129aab626296e219bac43d2f15273e3cd9 [file] [log] [blame]
/*
**********************************************************************
* Copyright (C) 1999-2001, International Business Machines
* Corporation and others. All Rights Reserved.
**********************************************************************
* Date Name Description
* 11/24/99 aliu Creation.
* 09/26/00 aliu Support for equivalency groups added.
* 01/31/01 aliu Support for ISO 3166 country codes added.
**********************************************************************
*/
/* This program reads a text file full of parsed time zone data and
* outputs a binary file, tz.dat, which then goes on to become part of
* the memory-mapped (or dll) ICU data file.
*
* The data file read by this program is generated by a perl script,
* tz.pl. The input to tz.pl is standard unix time zone data from
* ftp://elsie.nci.nih.gov.
*
* As a matter of policy, the perl script tz.pl wants to do as much of
* the parsing, data processing, and error checking as possible, and
* this program wants to just do the binary translation step.
*
* See tz.pl for the file format that is READ by this program.
*/
#include <stdio.h>
#include <stdlib.h>
#include "unicode/utypes.h"
#include "unicode/putil.h"
#include "cmemory.h"
#include "cstring.h"
#include "filestrm.h"
#include "unewdata.h"
#include "uoptions.h"
#include "tzdat.h"
#define INPUT_FILE "tz.txt"
#define OUTPUT_FILE "tz.dat"
/* UDataInfo cf. udata.h */
static UDataInfo dataInfo = {
sizeof(UDataInfo),
0,
U_IS_BIG_ENDIAN,
U_CHARSET_FAMILY,
sizeof(UChar),
0,
{TZ_SIG_0, TZ_SIG_1, TZ_SIG_2, TZ_SIG_3},
{TZ_FORMAT_VERSION, 0, 0, 0}, /* formatVersion */
{0, 0, 0, 0} /* dataVersion - will be filled in with year.suffix */
};
class gentz {
// These must match SimpleTimeZone!!!
enum { WALL_TIME = 0,
STANDARD_TIME,
UTC_TIME
};
// The largest number of zones we accept as sensible. Anything
// larger is considered an error. Adjust as needed.
enum { MAX_ZONES = 1000 };
// The maximum sensible GMT offset, in seconds
static const int32_t MAX_GMT_OFFSET;
static const char COMMENT;
static const char CR;
static const char LF;
static const char MINUS;
static const char SPACE;
static const char TAB;
static const char ZERO;
static const char STANDARD_MARK;
static const char DST_MARK;
static const char SEP;
static const char NUL;
static const char* END_KEYWORD;
enum { BUFLEN = 1024 };
char buffer[BUFLEN];
int32_t lineNumber;
// Binary data that we construct from tz.txt and write out as tz.dat
TZHeader header;
TZEquivalencyGroup* equivTable;
OffsetIndex* offsetIndex;
CountryIndex* countryIndex;
uint32_t* nameToEquiv;
char* nameTable;
uint32_t equivTableSize; // Total bytes in equivalency group table
uint32_t offsetIndexSize; // Total bytes in offset index table
uint32_t countryIndexSize; // Total bytes in country index table
uint32_t nameToEquivSize; // Total bytes in nameToEquiv
uint32_t nameTableSize; // Total bytes in name table
uint32_t maxPerOffset; // Maximum number of zones per offset
uint32_t maxPerEquiv; // Maximum number of zones per equivalency group
uint32_t equivCount; // Number of equivalency groups
UBool useCopyright;
UBool verbose;
public:
int MMain(int argc, char *argv[]);
private:
int32_t writeTzDatFile(const char *destdir);
void parseTzTextFile(FileStream* in);
// High level parsing
void parseHeader(FileStream* in);
TZEquivalencyGroup* parseEquivTable(FileStream* in);
void fixupNameToEquiv();
void parseDSTRule(char*& p, TZRule& rule);
OffsetIndex* parseOffsetIndexTable(FileStream* in);
CountryIndex* parseCountryIndexTable(FileStream* in);
char* parseNameTable(FileStream* in);
// Low level parsing and reading
void readEndMarker(FileStream* in);
int32_t readIntegerLine(FileStream* in, int32_t min, int32_t max);
int32_t _parseInteger(char*& p);
int32_t parseInteger(char*& p, char nextExpectedChar, int32_t, int32_t);
int32_t readLine(FileStream* in);
// Error handling
void die(const char* msg);
};
int main(int argc, char *argv[]) {
gentz x;
U_MAIN_INIT_ARGS(argc, argv);
return x.MMain(argc, argv);
}
const int32_t gentz::MAX_GMT_OFFSET = (int32_t)24*60*60; // seconds
const char gentz::COMMENT = '#';
const char gentz::CR = '\r';
const char gentz::LF = '\n';
const char gentz::MINUS = '-';
const char gentz::SPACE = ' ';
const char gentz::TAB = '\t';
const char gentz::ZERO = '0';
const char gentz::SEP = ',';
const char gentz::STANDARD_MARK = 's';
const char gentz::DST_MARK = 'd';
const char gentz::NUL = '\0';
const char* gentz::END_KEYWORD = "end";
static UOption options[]={
UOPTION_HELP_H,
UOPTION_HELP_QUESTION_MARK,
UOPTION_COPYRIGHT,
UOPTION_DESTDIR,
UOPTION_VERBOSE
};
int gentz::MMain(int argc, char* argv[]) {
/* preset then read command line options */
options[3].value=u_getDataDirectory();
argc=u_parseArgs(argc, argv, sizeof(options)/sizeof(options[0]), options);
/* error handling, printing usage message */
if(argc<0) {
fprintf(stderr,
"error in command line argument \"%s\"\n",
argv[-argc]);
} else if(argc<2) {
argc=-1;
}
if(argc<0 || options[0].doesOccur || options[1].doesOccur) {
fprintf(stderr,
"usage: %s [-options] timezone-file\n"
"\tread the timezone file produced by tz.pl and create " TZ_DATA_NAME "." TZ_DATA_TYPE "\n"
"options:\n"
"\t-h or -? or --help this usage text\n"
"\t-v or --verbose turn on verbose output\n"
"\t-c or --copyright include a copyright notice\n"
"\t-d or --destdir destination directory, followed by the path\n",
argv[0]);
return argc<0 ? U_ILLEGAL_ARGUMENT_ERROR : U_ZERO_ERROR;
}
/* get the options values */
useCopyright=options[2].doesOccur;
verbose = options[4].doesOccur;
////////////////////////////////////////////////////////////
// Read the input file
////////////////////////////////////////////////////////////
*buffer = NUL;
lineNumber = 0;
if (verbose) {
fprintf(stdout, "Input file: %s\n", argv[1]);
}
FileStream* in = T_FileStream_open(argv[1], "r");
if (in == 0) {
die("Cannot open input file");
}
parseTzTextFile(in);
T_FileStream_close(in);
*buffer = NUL;
////////////////////////////////////////////////////////////
// Write the output file
////////////////////////////////////////////////////////////
int32_t wlen = writeTzDatFile(options[3].value);
if (verbose) {
fprintf(stdout, "Output file: %s.%s, %ld bytes\n",
TZ_DATA_NAME, TZ_DATA_TYPE, (long)wlen);
}
return 0; // success
}
int32_t gentz::writeTzDatFile(const char *destdir) {
UNewDataMemory *pdata;
UErrorCode status = U_ZERO_ERROR;
// Careful: The order in which the tables are written must match the offsets.
// Our order is:
// - equiv table
// - offset index
// - country index
// - name index (name to equiv map)
// - name table (must be last!)
header.equivTableDelta = sizeof(header);
header.offsetIndexDelta = header.equivTableDelta + equivTableSize;
header.countryIndexDelta = header.offsetIndexDelta + offsetIndexSize;
header.nameIndexDelta = header.countryIndexDelta + countryIndexSize;
// Must be last:
header.nameTableDelta = header.nameIndexDelta + nameToEquivSize;
/* // Don't need to check for negative values on unsigned numbers.
if (header.equivTableDelta < 0 ||
header.offsetIndexDelta < 0 ||
header.countryIndexDelta < 0 ||
header.nameIndexDelta < 0 ||
header.nameTableDelta < 0) {
die("Table too big -- negative delta");
}
*/
// Convert equivalency table indices to offsets. This can only
// be done after the header offsets have been set up.
fixupNameToEquiv();
// Fill in dataInfo with year.suffix
*(uint16_t*)&(dataInfo.dataVersion[0]) = header.versionYear;
*(uint16_t*)&(dataInfo.dataVersion[2]) = header.versionSuffix;
pdata = udata_create(destdir, TZ_DATA_TYPE, TZ_DATA_NAME, &dataInfo,
useCopyright ? U_COPYRIGHT_STRING : 0, &status);
if (U_FAILURE(status)) {
die("Unable to create data memory");
}
udata_writeBlock(pdata, &header, sizeof(header));
udata_writeBlock(pdata, equivTable, equivTableSize);
udata_writeBlock(pdata, offsetIndex, offsetIndexSize);
udata_writeBlock(pdata, countryIndex, countryIndexSize);
udata_writeBlock(pdata, nameToEquiv, nameToEquivSize);
udata_writeBlock(pdata, nameTable, nameTableSize);
uint32_t dataLength = udata_finish(pdata, &status);
if (U_FAILURE(status)) {
die("Error writing output file");
}
if (dataLength != (sizeof(header) + equivTableSize +
offsetIndexSize + countryIndexSize +
nameTableSize + nameToEquivSize
)) {
die("Written file doesn't match expected size");
}
return dataLength;
}
void gentz::parseTzTextFile(FileStream* in) {
parseHeader(in);
// Read name table, create it, also create nameToEquiv index table
// as a side effect.
nameTable = parseNameTable(in);
// Parse the equivalency groups
equivTable = parseEquivTable(in);
// Parse the GMT offset index table
offsetIndex = parseOffsetIndexTable(in);
// Parse the ISO 3166 country index table
countryIndex = parseCountryIndexTable(in);
}
/**
* Convert equivalency table indices to offsets. The equivalency
* table offset (in the header) must be set already.
*/
void gentz::fixupNameToEquiv() {
uint32_t i;
// First make a list that maps indices to offsets
uint32_t *offsets = (uint32_t*) uprv_malloc(sizeof(uint32_t) * equivCount);
offsets[0] = header.equivTableDelta;
if (offsets[0] % 4 != 0) {
die("Header size is not 4-aligned");
}
TZEquivalencyGroup *eg = equivTable;
for (i=1; i<equivCount; ++i) {
offsets[i] = offsets[i-1] + eg->nextEntryDelta;
if (offsets[i] % 4 != 0) {
die("Equivalency group table is not 4-aligned");
}
eg = (TZEquivalencyGroup*) (eg->nextEntryDelta + (int8_t*)eg);
}
// Now remap index values to offsets
for (i=0; i<header.count; ++i) {
uint32_t x = nameToEquiv[i];
if (x >= equivCount) {
die("Equiv index out of range");
}
nameToEquiv[i] = offsets[x];
}
uprv_free(offsets);
}
TZEquivalencyGroup* gentz::parseEquivTable(FileStream* in) {
uint32_t n = readIntegerLine(in, 1, MAX_ZONES);
if (n != equivCount) {
die("Equivalency table count mismatch");
}
// We don't know how big the whole thing will be yet, but we can use
// the maxPerEquiv number to compute an upper limit.
//
// The gmtOffset field within each struct must be
// 4-aligned for some architectures. To ensure this, we do two
// things: 1. The entire struct is 4-aligned. 2. The gmtOffset is
// placed at a 4-aligned position within the struct. 3. The size
// of the whole structure is padded out to 4n bytes. We achieve
// this last condition by adding two bytes of padding after the
// last entry, if necessary. We adjust
// the nextEntryDelta and add 2 bytes of padding if necessary.
uint32_t maxPossibleSize = sizeof(TZEquivalencyGroup) +
(maxPerEquiv-1) * sizeof(uint16_t);
// Pad this out
if ((maxPossibleSize % 4) != 0) {
maxPossibleSize += 2;
}
if ((maxPossibleSize % 4) != 0) {
die("Bug in 4-align code for equiv table");
}
maxPossibleSize *= n; // Get size of entire set of structs.
int8_t *result = (int8_t*) uprv_malloc(sizeof(int8_t) * maxPossibleSize);
if (result == 0) {
die("Out of memory");
}
// Read each line and construct the corresponding entry
TZEquivalencyGroup* eg = (TZEquivalencyGroup*)result;
for (uint32_t i=0; i<n; ++i) {
char *p;
readLine(in);
// Each line starts with 's,' or 'd,' to specify the zone type
char flavor = buffer[0];
if (buffer[1] != SEP) {
die("Syntax error in equiv table");
}
p = buffer + 2;
// This pointer will be adjusted to point to the start of the
// list of zones in this group.
uint16_t* pList = 0;
switch (flavor) {
case STANDARD_MARK:
eg->isDST = 0;
eg->u.s.zone.gmtOffset = 1000 * // Convert s -> ms
parseInteger(p, SEP, -MAX_GMT_OFFSET, MAX_GMT_OFFSET);
pList = &(eg->u.s.count);
break;
case DST_MARK:
eg->isDST = 1;
eg->u.d.zone.gmtOffset = 1000 * // Convert s -> ms
parseInteger(p, SEP, -MAX_GMT_OFFSET, MAX_GMT_OFFSET);
parseDSTRule(p, eg->u.d.zone.onsetRule);
parseDSTRule(p, eg->u.d.zone.ceaseRule);
eg->u.d.zone.dstSavings = (uint16_t) parseInteger(p, SEP, 0, 12*60);
pList = &(eg->u.d.count);
break;
default:
die("Invalid equiv table type marker (not s or d)");
}
// Now parse the list of zones in this group
uint16_t egCount = (uint16_t) parseInteger(p, SEP, 1, maxPerEquiv);
*pList++ = egCount;
for (uint16_t j=0; j<egCount; ++j) {
*pList++ = (uint16_t) parseInteger(p, (j==(egCount-1)) ? NUL : SEP,
0, header.count-1);
}
// At this point pList points to the byte after the last byte of this
// equiv group struct. Time to 4-align it.
uint16_t structSize = (uint16_t) (((int8_t*)pList) - ((int8_t*)eg));
if ((structSize % 4) != 0) {
// assert(structSize % 4 == 2);
*pList++ = 0xFFFF; // Pad with invalid zone index
structSize += 2;
}
// Set up next entry delta
eg->nextEntryDelta = (i==(n-1)) ? (uint16_t) 0 : structSize;
eg->reserved = 0; // ignored
eg = (TZEquivalencyGroup*) (structSize + (int8_t*)eg);
}
equivTableSize = (int8_t*)eg - (int8_t*)result;
readEndMarker(in);
if (verbose) {
fprintf(stdout, " Read %lu equivalency table entries, in-memory size %ld bytes\n",
(unsigned long)equivCount, (long)equivTableSize);
}
return (TZEquivalencyGroup*)result;
}
OffsetIndex* gentz::parseOffsetIndexTable(FileStream* in) {
uint32_t n = readIntegerLine(in, 1, MAX_ZONES);
// We don't know how big the whole thing will be yet, but we can use
// the maxPerOffset number to compute an upper limit.
//
// The gmtOffset field within each OffsetIndex struct must be
// 4-aligned for some architectures. To ensure this, we do two
// things: 1. The entire struct is 4-aligned. 2. The gmtOffset is
// placed at a 4-aligned position within the struct. 3. The size
// of the whole structure is padded out to 4n bytes. We achieve
// this last condition by adding two bytes of padding after the
// last zoneNumber, if count is _even_. That is, the struct size
// is 10+2count+padding, where padding is (count%2==0 ? 2:0).
//
// Note that we don't change the count itself, but rather adjust
// the nextEntryDelta and add 2 bytes of padding if necessary.
//
// Don't try to compute the exact size in advance
// (unless we want to avoid the use of sizeof(), which may
// introduce padding that we won't actually employ).
uint32_t maxPossibleSize = n * (sizeof(OffsetIndex) +
(maxPerOffset-1) * sizeof(uint16_t));
int8_t *result = (int8_t*) uprv_malloc(sizeof(int8_t) * maxPossibleSize);
if (result == 0) {
die("Out of memory");
}
// Read each line and construct the corresponding entry
OffsetIndex* index = (OffsetIndex*)result;
for (uint32_t i=0; i<n; ++i) {
uint16_t alignedCount;
readLine(in);
char* p = buffer;
index->gmtOffset = 1000 * // Convert s -> ms
parseInteger(p, SEP, -MAX_GMT_OFFSET, MAX_GMT_OFFSET);
index->defaultZone = (uint16_t)parseInteger(p, SEP, 0, header.count-1);
index->count = (uint16_t)parseInteger(p, SEP, 1, maxPerOffset);
uint16_t* zoneNumberArray = &(index->zoneNumber);
UBool sawOffset = FALSE; // Sanity check - make sure offset is in zone list
for (uint16_t j=0; j<index->count; ++j) {
zoneNumberArray[j] = (uint16_t)
parseInteger(p, (j==(index->count-1))?NUL:SEP,
0, header.count-1);
if (zoneNumberArray[j] == index->defaultZone) {
sawOffset = TRUE;
}
}
if (!sawOffset) {
die("Error: bad offset index entry; default not in zone list");
}
alignedCount = index->count;
if((alignedCount%2)==0) /* force count to be ODD - see above */
{
// Use invalid zoneNumber for 2 bytes of padding
zoneNumberArray[alignedCount++] = (uint16_t)0xFFFF;
}
int8_t* nextIndex = (int8_t*)&(zoneNumberArray[alignedCount]);
index->nextEntryDelta = (uint16_t) ((i==(n-1)) ? 0 : (nextIndex - (int8_t*)index));
index = (OffsetIndex*)nextIndex;
}
offsetIndexSize = (int8_t*)index - (int8_t*)result;
if (offsetIndexSize > maxPossibleSize) {
die("Yikes! Interal error while constructing offset index table");
}
readEndMarker(in);
if (verbose) {
fprintf(stdout, " Read %lu offset index table entries, in-memory size %ld bytes\n",
(unsigned long)n, (long)offsetIndexSize);
}
return (OffsetIndex*)result;
}
CountryIndex* gentz::parseCountryIndexTable(FileStream* in) {
uint32_t n = readIntegerLine(in, 1, MAX_ZONES);
// We know how big the whole thing will be: Each zone occupies an
// int, and each country adds 3 ints (one for the intcode, one for
// next entry offset, one for the zone count). Each int is 16
// bits.
//
// Everything is 16-bits, so we don't 4-align the entries.
// However, we do pad at the end of the table to make the whole
// thing of size 4n, if necessary.
uint32_t expectedSize = n*(sizeof(CountryIndex)-sizeof(uint16_t)) +
header.count * sizeof(uint16_t);
uint32_t pad = (4 - (expectedSize % 4)) % 4; // This will be 0 or 2
int8_t *result = (int8_t*) uprv_malloc(sizeof(int8_t) * (expectedSize + pad));
if (result == 0) {
die("Out of memory");
}
// Read each line and construct the corresponding entry.
// Along the way, make sure we don't write past 'limit'.
CountryIndex* index = (CountryIndex*)result;
int8_t* limit = ((int8_t*)result) + expectedSize; // Don't include pad
uint32_t i;
for (i=0; i<n && (int8_t*)(&index->zoneNumber) < limit; ++i) {
readLine(in);
char* p = buffer;
index->intcode = (uint16_t)parseInteger(p, SEP, 0, 25*32+25 /*ZZ*/);
index->count = (uint16_t)parseInteger(p, SEP, 0, header.count-1);
uint16_t* zoneNumberArray = &(index->zoneNumber);
if ((int8_t*)(&index->zoneNumber + index->count - 1) >= limit) {
// Oops -- out of space
break;
}
for (uint16_t j=0; j<index->count; ++j) {
zoneNumberArray[j] = (uint16_t)
parseInteger(p, (j==(index->count-1))?NUL:SEP,
0, header.count-1);
}
int8_t* nextIndex = (int8_t*)&(zoneNumberArray[index->count]);
index->nextEntryDelta = (uint16_t) ((i==(n-1)) ? 0 : (nextIndex - (int8_t*)index));
index = (CountryIndex*)nextIndex;
}
readEndMarker(in);
// Make sure size matches expected value, and pad the total size
countryIndexSize = (int8_t*)index - (int8_t*)result + pad;
if (i != n || countryIndexSize != expectedSize) {
die("Yikes! Interal error while constructing offset index table");
}
if (pad != 0) {
countryIndexSize += pad;
*(uint16_t*)index = 0; // Clear pad bits
}
if (verbose) {
fprintf(stdout, " Read %lu country index table entries, in-memory size %ld bytes\n", (unsigned long)n, (long)countryIndexSize);
}
return (CountryIndex*)result;
}
void gentz::parseHeader(FileStream* in) {
int32_t version = readIntegerLine(in, 0, 0xFFFF);
if (version != TZ_FORMAT_VERSION) {
die("Version mismatch between gentz and input file");
}
// Version string, e.g., "1999j" -> (1999<<16) | 10
header.versionYear = (uint16_t) readIntegerLine(in, 1990, 0xFFFF);
header.versionSuffix = (uint16_t) readIntegerLine(in, 0, 0xFFFF);
header.count = readIntegerLine(in, 1, MAX_ZONES);
equivCount = readIntegerLine(in, 1, header.count);
maxPerOffset = readIntegerLine(in, 1, header.count);
maxPerEquiv = readIntegerLine(in, 1, equivCount);
// Size of name table in bytes
// (0x00FFFFFF is an arbitrary upper limit; adjust as needed.)
nameTableSize = readIntegerLine(in, 1, 0x00FFFFFF);
readEndMarker(in);
if (verbose) {
fprintf(stdout, " Read header, data version %u(%u), in-memory size %ld bytes\n",
header.versionYear, header.versionSuffix,
(unsigned long)sizeof(header));
}
}
void gentz::parseDSTRule(char*& p, TZRule& rule) {
rule.month = (uint8_t) parseInteger(p, SEP, 0, 11);
rule.dowim = (int8_t) parseInteger(p, SEP, -31, 31);
rule.dow = (int8_t) parseInteger(p, SEP, -7, 7);
rule.time = (uint16_t) parseInteger(p, SEP, 0, 24*60);
rule.mode = *p++;
if (*p++ != SEP) {
die("Separator missing");
}
switch ((char)rule.mode) {
case 'w':
rule.mode = WALL_TIME;
break;
case 's':
rule.mode = STANDARD_TIME;
break;
case 'u':
rule.mode = UTC_TIME;
break;
default:
die("Invalid rule time mode");
break;
}
}
/**
* Parse the name table.
* Each entry of the name table looks like this:
* |36,Africa/Djibouti
* The integer is an equivalency table index. We build up a name
* table, that just contains the names, and we return it. We also
* build up the name index, which indexes names to equivalency table
* entries. This is stored in the member variable nameToEquiv.
*/
char* gentz::parseNameTable(FileStream* in) {
int32_t n = readIntegerLine(in, 1, MAX_ZONES);
if (n != (int32_t)header.count) {
die("Zone count doesn't match name table count");
}
char* names = (char*) uprv_malloc(sizeof(char) * nameTableSize);
nameToEquiv = (uint32_t*) uprv_malloc(sizeof(uint32_t) * n);
if (names == 0 || nameToEquiv == 0) {
die("Out of memory");
}
nameToEquivSize = n * sizeof(nameToEquiv[0]);
char* p = names;
char* limit = names + nameTableSize;
for (int32_t i=0; i<n; ++i) {
readLine(in);
char* q = buffer;
// We store an index here for now -- later, in fixNameToEquiv,
// we convert it to an offset.
nameToEquiv[i] = (uint32_t) parseInteger(q, SEP, 0, equivCount-1);
int32_t len = uprv_strlen(q);
if ((p + len) <= limit) {
uprv_memcpy(p, q, len);
p += len;
*p++ = NUL;
} else {
die("Name table longer than declared size");
}
}
if (p != limit) {
die("Name table shorter than declared size");
}
readEndMarker(in);
if (verbose) {
fprintf(stdout, " Read %ld names, in-memory size %ld bytes\n",
(long)n, (long)nameTableSize);
}
return names;
}
/**
* Read the end marker (terminates each list).
*/
void gentz::readEndMarker(FileStream* in) {
readLine(in);
if (uprv_strcmp(buffer, END_KEYWORD) != 0) {
die("Keyword 'end' missing");
}
}
/**
* Read a line from the FileStream and parse it as an
* integer. There should be nothing else on the line.
*/
int32_t gentz::readIntegerLine(FileStream* in, int32_t min, int32_t max) {
readLine(in);
char* p = buffer;
return parseInteger(p, NUL, min, max);
}
/**
* Parse an integer from the given character buffer.
* Advance p past the last parsed character. Return
* the result. The integer must be of the form
* /-?\d+/.
*/
int32_t gentz::_parseInteger(char*& p) {
int32_t n = 0;
int32_t digitCount = 0;
int32_t digit;
UBool negative = FALSE;
if (*p == MINUS) {
++p;
negative = TRUE;
}
for (;;) {
digit = *p - ZERO;
if (digit < 0 || digit > 9) {
break;
}
n = 10*n + digit;
p++;
digitCount++;
}
if (digitCount < 1) {
die("Unable to parse integer");
}
if (negative) {
n = -n;
}
return n;
}
int32_t gentz::parseInteger(char*& p, char nextExpectedChar,
int32_t min, int32_t max) {
int32_t n = _parseInteger(p);
if (*p++ != nextExpectedChar) {
die("Character following integer unexpected");
}
if (n < min || n > max) {
die("Integer field out of range");
}
return n;
}
void gentz::die(const char* msg) {
fprintf(stderr, "ERROR, %s\n", msg);
if (*buffer) {
fprintf(stderr, "Input file line %ld: \"%s\"\n", (long)lineNumber, buffer);
}
exit(1);
}
/**
* Read a line. Trim trailing comment and whitespace. Ignore (skip)
* blank lines, or comment-only lines. Return the number of characters
* on the line remaining. On EOF, die.
*/
int32_t gentz::readLine(FileStream* in) {
++lineNumber;
char* result = T_FileStream_readLine(in, buffer, BUFLEN);
if (result == 0) {
*buffer = 0;
die("Unexpected end of file");
}
// Trim off trailing comment
char* p = uprv_strchr(buffer, COMMENT);
if (p != 0) {
*p = NUL;
}
// Delete trailing whitespace
p = buffer + uprv_strlen(buffer);
while (p > buffer && (p[-1] == CR || p[-1] == LF ||
p[-1] == SPACE || p[-1] == TAB)) {
p--;
}
*p = NUL;
// If line is empty after trimming comments & whitespace,
// then read the next line.
return (*buffer == NUL) ? readLine(in) : uprv_strlen(buffer);
}