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GPXSee/src/map/qctmap.cpp

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2021-11-14 15:08:33 +01:00
#include <cstring>
#include <QDataStream>
#include <QPixmapCache>
#include <QPainter>
#include "common/color.h"
#include "qctmap.h"
#define TILE_SIZE 64
#define TILE_PIXELS (TILE_SIZE * TILE_SIZE)
#define MAGIC 0x1423D5FF
static quint8 bpp(quint8 colours)
{
if (colours <= 2)
return 1;
if (colours <= 4)
return 2;
if (colours <= 8)
return 3;
if (colours <= 16)
return 4;
if (colours <= 32)
return 5;
if (colours <= 64)
return 6;
if (colours <= 128)
return 7;
return 8;
}
static bool validateTable(const QVector<quint8> &table)
{
int delta;
for (int i = 0; i < table.size(); i++) {
if (table.at(i) == 128) {
if (i + 2 >= table.size())
return false;
delta = 65537 - (256 * table.at(i+2) + table.at(i+1)) + 2;
if (i + delta >= table.size())
return false;
i += 2;
} else if (table.at(i) > 128) {
delta = 257 - table.at(i);
if (i + delta >= table.size())
return false;
}
}
return true;
}
static bool createTable(QDataStream &stream, QVector<quint8> &table)
{
int idx = 0;
int colours = 0;
int branches = 0;
table.reserve(256);
while (stream.status() == QDataStream::Ok && colours <= branches) {
table.resize(table.size() + 1);
stream >> table[idx];
if (table[idx] == 128) {
table.resize(table.size() + 2);
stream >> table[++idx];
stream >> table[++idx];
branches++;
} else if (table[idx] > 128)
branches++;
else
colours++;
idx++;
}
return (stream.status() == QDataStream::Ok);
}
static bool huffman(QDataStream &stream, quint8 tileData[TILE_PIXELS])
{
QVector<quint8> table;
if (!createTable(stream, table))
return false;
if (table.size() == 1) {
memset(tileData, table[0], TILE_PIXELS);
} else {
if (!validateTable(table))
return false;
const quint8 *tp = table.constData();
int bitsLeft = 8;
int bitVal;
quint8 val;
stream >> val;
for (int pixelnum = 0; pixelnum < TILE_PIXELS; ) {
if (*tp < 128) {
tileData[pixelnum++] = *tp;
tp = table.constData();
} else {
bitVal = (val & 1);
val >>= 1;
bitsLeft--;
if (bitsLeft == 0) {
stream >> val;
bitsLeft = 8;
}
if (bitVal == 0) {
if (*tp == 128)
tp += 2;
tp++;
} else {
if (*tp > 128)
tp += 257 - (*tp);
else if (*tp == 128)
tp += 65537 - (256 * tp[2] + tp[1]) + 2;
}
}
}
}
return (stream.status() == QDataStream::Ok);
}
static bool pixelPacking(QDataStream &stream, quint8 tileData[TILE_PIXELS],
quint8 colours)
{
quint8 shift = bpp(colours);
quint32 mask = (1 << shift) - 1;
int wordSize = 32 / shift;
quint8 paletteIndex[256];
for (quint8 i = 0; i < colours; i++)
stream >> paletteIndex[i];
for (int pixelnum = 0; pixelnum < TILE_PIXELS; ) {
quint32 colour, val;
stream >> val;
for (int runs = 0; runs < wordSize; runs++) {
colour = val & mask;
val = val >> shift;
tileData[pixelnum++] = paletteIndex[colour];
}
}
return (stream.status() == QDataStream::Ok);
}
static bool rle(QDataStream &stream, quint8 tileData[TILE_PIXELS],
quint8 colours)
{
quint8 bits = bpp(colours);
quint8 paletteMask = (1 << bits) - 1;
quint8 paletteIndex[256];
quint8 val;
for (quint8 i = 0; i < colours; i++)
stream >> paletteIndex[i];
for (int pixelnum = 0; pixelnum < TILE_PIXELS; ) {
stream >> val;
quint8 colour = val & paletteMask;
quint8 runs = val >> bits;
while (runs-- > 0)
tileData[pixelnum++] = paletteIndex[colour];
}
return (stream.status() == QDataStream::Ok);
}
static bool readString(QDataStream &stream, quint32 offset, QString &str)
{
char c;
QByteArray ba;
if (!stream.device()->seek(offset))
return false;
while (stream.readRawData(&c, 1) == 1) {
if (c)
ba.append(c);
else {
str = QString::fromUtf8(ba);
return true;
}
}
return false;
}
bool QCTMap::readHeader(QDataStream &stream)
{
quint32 version, title, ext, shift;
stream >> version >> _cols >> _rows >> title;
if (stream.status() != QDataStream::Ok)
return false;
if (!readString(stream, title, _name))
return false;
if (!stream.device()->seek(0x54))
return false;
stream >> ext;
if (stream.status() != QDataStream::Ok)
return false;
if (!stream.device()->seek(ext + 4))
return false;
stream >> shift;
if (stream.status() != QDataStream::Ok)
return false;
if (!stream.device()->seek(shift))
return false;
stream >> _shiftN >> _shiftE;
return (stream.status() == QDataStream::Ok);
}
bool QCTMap::readGeoRef(QDataStream &stream)
{
if (!stream.device()->seek(0x60))
return false;
stream >> _eas >> _easY >> _easX >> _easYY >> _easXY >> _easXX >> _easYYY
>> _easYYX >> _easXXY >> _easXXX >> _nor >> _norY >> _norX >> _norYY
>> _norXY >> _norXX >> _norYYY >> _norYYX >> _norXXY >> _norXXX;
stream >> _lat >> _latX >> _latY >> _latXX >> _latXY >> _latYY >> _latXXX
>> _latXXY >> _latXYY >> _latYYY >> _lon >> _lonX >> _lonY >> _lonXX
>> _lonXY >> _lonYY >> _lonXXX >> _lonXXY >> _lonXYY >> _lonYYY;
return (stream.status() == QDataStream::Ok);
}
bool QCTMap::readPalette(QDataStream &stream)
{
if (!stream.device()->seek(0x01A0))
return false;
_palette.resize(256);
quint32 bgr;
for (int i = 0; i < _palette.size(); i++) {
stream >> bgr;
_palette[i] = Color::bgr2rgb(bgr);
}
return (stream.status() == QDataStream::Ok);
}
bool QCTMap::readIndex(QDataStream &stream)
{
if (!stream.device()->seek(0x45A0))
return false;
_index.resize(_cols * _rows);
for (int i = 0; i < _cols * _rows; i++)
stream >> _index[i];
return (stream.status() == QDataStream::Ok);
}
QCTMap::QCTMap(const QString &fileName, QObject *parent)
: Map(fileName, parent), _file(fileName), _mapRatio(1.0), _valid(false)
{
if (!_file.open(QIODevice::ReadOnly)) {
_errorString = fileName + ": " + _file.errorString();
return;
}
QDataStream stream(&_file);
stream.setByteOrder(QDataStream::LittleEndian);
quint32 magic;
stream >> magic;
if (magic != MAGIC) {
_errorString = "Not a QCT map";
return;
}
if (!readHeader(stream)) {
_errorString = "Error reading QCT header";
return;
}
if (!readGeoRef(stream)) {
_errorString = "Error reading georeference info";
return;
}
if (!readPalette(stream)) {
_errorString = "Error reading colour palette";
return;
}
if (!readIndex(stream)) {
_errorString = "Error reading tile index";
return;
}
_file.close();
_valid = true;
}
void QCTMap::load()
{
_file.open(QIODevice::ReadOnly);
}
void QCTMap::unload()
{
_file.close();
}
QRectF QCTMap::bounds()
{
return QRectF(QPointF(0, 0), QSizeF(_cols * TILE_SIZE, _rows * TILE_SIZE)
/ _mapRatio);
}
QPointF QCTMap::ll2xy(const Coordinates &c)
{
double lon = c.lon() - _shiftE;
double lon2 = lon * lon;
double lon3 = lon2 * lon;
double lat = c.lat() - _shiftN;
double lat2 = lat * lat;
double lat3 = lat2 * lat;
double x = _easXXX*lon3 + _easXX*lon2 + _easX*lon + _easYYY*lat3
+ _easYY*lat2 + _easY*lat + _easXXY*lon2*lat
+ _easYYX*lat2*lon + _easXY*lon*lat + _eas;
double y = _norXXX*lon3 + _norXX*lon2 + _norX*lon + _norYYY*lat3
+ _norYY*lat2 + _norY*lat + _norXXY*lon2*lat
+ _norYYX*lat2*lon + _norXY*lon*lat + _nor;
return QPointF(x - _shiftE, y - _shiftN) / _mapRatio;
}
Coordinates QCTMap::xy2ll(const QPointF &p)
{
qreal x = p.x() * _mapRatio;
qreal x2 = x * x;
qreal x3 = x2 * x;
qreal y = p.y() * _mapRatio;
qreal y2 = y * y;
qreal y3 = y2 * y;
double lon = _lon + _lonX*x + _lonY*y + _lonXX*x2
+ _lonXY*x*y + _lonYY*y2 + _lonXXX*x3 + _lonXXY*x2*y
+ _lonXYY*x*y2 + _lonYYY*y3;
double lat = _lat + _latX*x + _latY*y + _latXX*x2
+ _latXY*x*y + _latYY*y2 + _latXXX*x3 + _latXXY*x2 * y
+ _latXYY*x*y2 + _latYYY*y3;
return Coordinates(lon + _shiftE, lat + _shiftN);
}
QPixmap QCTMap::tile(int x, int y)
{
static quint8 rowSeq[] = {
0, 32, 16, 48, 8, 40, 24, 56, 4, 36, 20, 52, 12, 44, 28, 60,
2, 34, 18, 50, 10, 42, 26, 58, 6, 38, 22, 54, 14, 46, 30, 62,
1, 33, 17, 49, 9, 41, 25, 57, 5, 37, 21, 53, 13, 45, 29, 61,
3, 35, 19, 51, 11, 43, 27, 59, 7, 39, 23, 55, 15, 47, 31, 63
};
quint8 tileData[TILE_PIXELS], imgData[TILE_PIXELS];
quint8 packing;
bool ret;
if (!_file.seek(_index.at(y * _cols + x)))
return QPixmap();
QDataStream stream(&_file);
stream.setByteOrder(QDataStream::LittleEndian);
stream >> packing;
if (stream.status() != QDataStream::Ok)
return QPixmap();
if (packing == 0 || packing == 255)
ret = huffman(stream, tileData);
else if (packing > 127)
ret = pixelPacking(stream, tileData, 256 - packing);
else
ret = rle(stream, tileData, packing);
if (!ret)
return QPixmap();
for (int i = 0; i < TILE_SIZE; i++)
memcpy(imgData + i * TILE_SIZE, tileData + rowSeq[i] * TILE_SIZE,
TILE_SIZE);
QImage img(imgData, TILE_SIZE, TILE_SIZE, TILE_SIZE,
QImage::Format_Indexed8);
img.setColorTable(_palette);
return QPixmap::fromImage(img);
}
void QCTMap::draw(QPainter *painter, const QRectF &rect, Flags flags)
{
Q_UNUSED(flags);
QSizeF ts(TILE_SIZE / _mapRatio, TILE_SIZE / _mapRatio);
QPointF tl(floor(rect.left() / ts.width()) * ts.width(),
floor(rect.top() / ts.height()) * ts.height());
QSizeF s(rect.right() - tl.x(), rect.bottom() - tl.y());
for (int i = 0; i < ceil(s.width() / ts.width()); i++) {
for (int j = 0; j < ceil(s.height() / ts.height()); j++) {
int x = round(tl.x() * _mapRatio + i * TILE_SIZE) / TILE_SIZE;
int y = round(tl.y() * _mapRatio + j * TILE_SIZE) / TILE_SIZE;
QPixmap pixmap;
QString key = path() + "/" + QString::number(x) + "_"
+ QString::number(y);
if (!QPixmapCache::find(key, &pixmap)) {
pixmap = tile(x, y);
if (!pixmap.isNull())
QPixmapCache::insert(key, pixmap);
}
if (pixmap.isNull())
qWarning("%s: error loading tile image", qPrintable(key));
else {
pixmap.setDevicePixelRatio(_mapRatio);
QPointF tp(tl.x() + i * ts.width(), tl.y() + j * ts.height());
painter->drawPixmap(tp, pixmap);
}
}
}
}