api/3.4/quantizedmeshgeometry_8cpp_source.html

 /***************************************************************************
     quantizedmeshgeometry.cpp
     ---------------------
     begin                : July 2017
     copyright            : (C) 2017 by Martin Dobias
     email                : wonder dot sk at gmail dot com
  ***************************************************************************
  *                                                                         *
  *   This program is free software; you can redistribute it and/or modify  *
  *   it under the terms of the GNU General Public License as published by  *
  *   the Free Software Foundation; either version 2 of the License, or     *
  *   (at your option) any later version.                                   *
  *                                                                         *
  ***************************************************************************/
 #include "quantizedmeshgeometry.h"

 #include <zlib.h>

 #include <QFile>
 #include <QByteArray>


 // gzip decompression snipped from https://stackoverflow.com/questions/2690328/qt-quncompress-gzip-data

 #define GZIP_WINDOWS_BIT 15 + 16
 #define GZIP_CHUNK_SIZE 32 * 1024

 bool gzipDecompress( QByteArray input, QByteArray &output )
 {
   // Prepare output
   output.clear();

   // Is there something to do?
   if ( input.isEmpty() )
     return true;

   // Prepare inflater status
   z_stream strm;
   strm.zalloc = Z_NULL;
   strm.zfree = Z_NULL;
   strm.opaque = Z_NULL;
   strm.avail_in = 0;
   strm.next_in = Z_NULL;

   // Initialize inflater
   int ret = inflateInit2( &strm, GZIP_WINDOWS_BIT );

   if ( ret != Z_OK )
     return false;

   // Extract pointer to input data
   const char *input_data = input.constData();
   int input_data_left = input.length();

   // Decompress data until available
   do
   {
     // Determine current chunk size
     int chunk_size = std::min( GZIP_CHUNK_SIZE, input_data_left );

     // Check for termination
     if ( chunk_size <= 0 )
       break;

     // Set inflater references
     strm.next_in = ( unsigned char * )input_data;
     strm.avail_in = chunk_size;

     // Update interval variables
     input_data += chunk_size;
     input_data_left -= chunk_size;

     // Inflate chunk and cumulate output
     do
     {

       // Declare vars
       char out[GZIP_CHUNK_SIZE];

       // Set inflater references
       strm.next_out = ( unsigned char * )out;
       strm.avail_out = GZIP_CHUNK_SIZE;

       // Try to inflate chunk
       ret = inflate( &strm, Z_NO_FLUSH );

       switch ( ret )
       {
         case Z_NEED_DICT:
           ret = Z_DATA_ERROR;
         case Z_DATA_ERROR:
         case Z_MEM_ERROR:
         case Z_STREAM_ERROR:
           // Clean-up
           inflateEnd( &strm );

           // Return
           return ( false );
       }

       // Determine decompressed size
       int have = ( GZIP_CHUNK_SIZE - strm.avail_out );

       // Cumulate result
       if ( have > 0 )
         output.append( ( char * )out, have );

     }
     while ( strm.avail_out == 0 );

   }
   while ( ret != Z_STREAM_END );

   // Clean-up
   inflateEnd( &strm );

   // Return
   return ( ret == Z_STREAM_END );
 }


 const char *read_zigzag_encoded_int16_array( const char *dataPtr, int count, qint16 *out )
 {
   for ( int i = 0; i < count; ++i )
   {
     quint16 encoded = *( quint16 * ) dataPtr;
     dataPtr += 2;
     qint16 decoded = ( encoded >> 1 ) ^ ( -( encoded & 1 ) );
     *out++ = decoded;
   }
   return dataPtr;
 }


 static QString _tileFilename( int tx, int ty, int tz )
 {
   return QString( "/tmp/terrain-%1-%2-%3" ).arg( tz ).arg( tx ).arg( ty );
 }

 QuantizedMeshTile *QuantizedMeshGeometry::readTile( int tx, int ty, int tz, const QgsRectangle &extent )
 {
   QString filename = _tileFilename( tx, ty, tz );
   QFile f( filename );
   if ( !f.open( QIODevice::ReadOnly ) )
     return nullptr;

   QByteArray data;
   if ( !gzipDecompress( f.readAll(), data ) )
     return nullptr;

   if ( data.isEmpty() )
     return nullptr;

   QuantizedMeshTile *t = new QuantizedMeshTile;
   t->extent = extent;

   const char *dataPtr = data.constData();
   memcpy( &t->header, dataPtr, sizeof( QuantizedMeshHeader ) );
   dataPtr += sizeof( QuantizedMeshHeader );

   // vertex data - immediately after header
   // with zig-zag encoding

   //struct VertexData
   //{
   //    unsigned int vertexCount;
   //    unsigned short u[vertexCount];
   //    unsigned short v[vertexCount];
   //    unsigned short height[vertexCount];
   //};

   quint32 vertexCount = *( quint32 * ) dataPtr;
   dataPtr += 4;
   t->uvh.resize( 3 * vertexCount );
   qint16 *vptr = t->uvh.data();
   dataPtr = read_zigzag_encoded_int16_array( dataPtr, vertexCount * 3, vptr );
   // the individual values are just deltas of previous values!
   qint16 u = 0, v = 0, h = 0;
   for ( uint i = 0; i < vertexCount; ++i )
   {
     qint16 du = vptr[i], dv = vptr[vertexCount + i], dh = vptr[vertexCount * 2 + i];
     u += du;
     v += dv;
     h += dh;
     vptr[i] = u;
     vptr[vertexCount + i] = v;
     vptr[vertexCount * 2 + i] = h;
   }

   Q_ASSERT( vertexCount < 65537 ); // supporting currently only 2-byte vertex indices

   // index data - if less than 65537 vertices (otherwise indices would be 4-byte)
   // with "high watermark" encoding

   //struct IndexData16
   //{
   //  unsigned int triangleCount;
   //  unsigned short indices[triangleCount * 3];
   //}

   quint32 triangleCount = *( quint32 * ) dataPtr;
   dataPtr += 4;
   t->indices.resize( 3 * triangleCount );
   quint16 *indicesPtr = t->indices.data();
   quint16 *srcIdxPtr = ( quint16 * )dataPtr;
   int highest = 0;
   for ( uint i = 0; i < triangleCount * 3; ++i )
   {
     quint16 code = *srcIdxPtr++;
     *indicesPtr++ = highest - code;
     if ( code == 0 )
       ++highest;
   }

   // TODO: edge indices

   // TODO: extensions

   //qDebug() << hdr.CenterX << " " << hdr.CenterY << " " << hdr.CenterZ;
   //qDebug() << "VC " << vertexCount;
   //qDebug() << "TC " << triangleCount;

   return t;
 }


 #include <QGuiApplication>
 #include <QNetworkRequest>
 #include <QNetworkReply>
 #include "qgsnetworkaccessmanager.h"

 void QuantizedMeshGeometry::downloadTileIfMissing( int tx, int ty, int tz )
 {
   // i am not proud of this bit of code... quick&dirty!

   QString tileFilename = _tileFilename( tx, ty, tz );
   if ( !QFile::exists( tileFilename ) )
   {
     qDebug() << "downloading tile " << tx << " " << ty << " " << tz;
     bool downloaded = false;
     QString url = QString( "http://assets.agi.com/stk-terrain/tilesets/world/tiles/%1/%2/%3.terrain" ).arg( tz ).arg( tx ).arg( ty );
     QNetworkRequest request( url );
     request.setRawHeader( QByteArray( "Accept-Encoding" ), QByteArray( "gzip" ) );
     request.setRawHeader( QByteArray( "Accept" ), QByteArray( "application/vnd.quantized-mesh,application/octet-stream;q=0.9" ) );
     request.setRawHeader( QByteArray( "User-Agent" ), QByteArray( "Mozilla/5.0 (X11; Linux x86_64) AppleWebKit/537.36 (KHTML, like Gecko) Ubuntu Chromium/58.0.3029.110 Chrome/58.0.3029.110 Safari/537.36" ) );
     QNetworkReply *reply = QgsNetworkAccessManager::instance()->get( request );
     connect( reply, &QNetworkReply::finished, [reply, tileFilename, &downloaded]
     {
       QFile fOut( tileFilename );
       fOut.open( QIODevice::WriteOnly );
       fOut.write( reply->readAll() );
       fOut.close();
       reply->deleteLater();
       downloaded = true;
     } );

     while ( !downloaded )
     {
       qApp->processEvents();
     }
   }
 }

 // --------------

 #include "qgscoordinatetransform.h"
 #include "qgsmaptopixel.h"
 #include "map3d.h"

 QuantizedMeshGeometry::QuantizedMeshGeometry( QuantizedMeshTile *t, const Map3D &map, const QgsMapToPixel &mapToPixel, const QgsCoordinateTransform &terrainToMap, QNode *parent )
   : QGeometry( parent )
 {
   int vertexCount = t->uvh.count() / 3;
   int indexCount = t->indices.count();

   int vertexEntrySize = sizeof( float ) * ( 3 + 2 );

   double xMinWgs = t->extent.xMinimum();
   double yMinWgs = t->extent.yMinimum();
   double widthWgs = t->extent.width();
   double heightWgs = t->extent.height();
   QgsPointXY ptMinProjected = QgsPointXY( map.originX, map.originY );

   QByteArray vb;
   const qint16 *uvh = t->uvh.constData();
   vb.resize( vertexCount * vertexEntrySize );
   float *vbptr = ( float * ) vb.data();
   for ( int i = 0; i < vertexCount; ++i )
   {
     qint16 u = uvh[i], v = uvh[vertexCount + i], h = uvh[vertexCount * 2 + i];
     float uNorm = u / 32767.f;  // 0...1
     float vNorm = v / 32767.f;  // 0...1
     float hNorm = h / 32767.f;  // 0...1
     float xWgs = xMinWgs + widthWgs * uNorm;
     float yWgs = yMinWgs + heightWgs * vNorm;
     float hWgs = t->header.MinimumHeight + hNorm * ( t->header.MaximumHeight - t->header.MinimumHeight );

     QgsPointXY ptProjected = terrainToMap.transform( xWgs, yWgs );
     QgsPointXY ptFinal( ptProjected.x() - ptMinProjected.x(), ptProjected.y() - ptMinProjected.y() );

     // our plane is (x,-z) with y growing towards camera
     *vbptr++ = ptFinal.x();
     *vbptr++ = hWgs;
     *vbptr++ = -ptFinal.y();

     QgsPointXY uv = mapToPixel.transform( ptProjected ) / map.tileTextureSize;
     // texture coords
     *vbptr++ = uv.x();
     *vbptr++ = uv.y();
   }

   QByteArray ib;
   ib.resize( indexCount * 2 );
   memcpy( ib.data(), t->indices.constData(), ib.count() );
   /*
   quint16* ibptr = (quint16*)ib.data();
   const quint16* srcptr = t->indices.constData();
   // reverse order of indices to triangles
   for (int i = 0; i < indexCount/3; ++i)
   {
     ibptr[i*3] = srcptr[i*3+2];
     ibptr[i*3+1] = srcptr[i*3+1];
     ibptr[i*3+2] = srcptr[i*3];
   }
   */

   m_vertexBuffer = new Qt3DRender::QBuffer( Qt3DRender::QBuffer::VertexBuffer, this );
   m_vertexBuffer->setData( vb );

   m_indexBuffer = new Qt3DRender::QBuffer( Qt3DRender::QBuffer::IndexBuffer, this );
   m_indexBuffer->setData( ib );

   m_positionAttribute = new Qt3DRender::QAttribute( this );
   m_positionAttribute->setName( Qt3DRender::QAttribute::defaultPositionAttributeName() );
 #if QT_VERSION >= 0x050800
   m_positionAttribute->setVertexBaseType( Qt3DRender::QAttribute::Float );
   m_positionAttribute->setVertexSize( 3 );
 #else
   m_positionAttribute->setDataType( Qt3DRender::QAttribute::Float );
   m_positionAttribute->setDataSize( 3 );
 #endif
   m_positionAttribute->setAttributeType( Qt3DRender::QAttribute::VertexAttribute );
   m_positionAttribute->setBuffer( m_vertexBuffer );
   m_positionAttribute->setByteStride( vertexEntrySize );
   m_positionAttribute->setCount( vertexCount );

   m_texCoordAttribute = new Qt3DRender::QAttribute( this );
   m_texCoordAttribute->setName( Qt3DRender::QAttribute::defaultTextureCoordinateAttributeName() );
 #if QT_VERSION >= 0x050800
   m_texCoordAttribute->setVertexBaseType( Qt3DRender::QAttribute::Float );
   m_texCoordAttribute->setVertexSize( 2 );
 #else
   m_texCoordAttribute->setDataType( Qt3DRender::QAttribute::Float );
   m_texCoordAttribute->setDataSize( 2 );
 #endif
   m_texCoordAttribute->setAttributeType( Qt3DRender::QAttribute::VertexAttribute );
   m_texCoordAttribute->setBuffer( m_vertexBuffer );
   m_texCoordAttribute->setByteStride( vertexEntrySize );
   m_texCoordAttribute->setByteOffset( 3 * sizeof( float ) );
   m_texCoordAttribute->setCount( vertexCount );

   m_indexAttribute = new Qt3DRender::QAttribute( this );
   m_indexAttribute->setAttributeType( Qt3DRender::QAttribute::IndexAttribute );
 #if QT_VERSION >= 0x050800
   m_indexAttribute->setVertexBaseType( Qt3DRender::QAttribute::UnsignedShort );
 #else
   m_indexAttribute->setDataType( Qt3DRender::QAttribute::UnsignedShort );
 #endif
   m_indexAttribute->setBuffer( m_indexBuffer );
   m_indexAttribute->setCount( indexCount );

   addAttribute( m_positionAttribute );
   addAttribute( m_texCoordAttribute );
   addAttribute( m_indexAttribute );
 }
QgsRectangle
A rectangle specified with double values.
Definition: qgsrectangle.h:40

QuantizedMeshGeometry::readTile
static QuantizedMeshTile * readTile(int tx, int ty, int tz, const QgsRectangle &extent)
Reads a tile from a file in the local disk cache.
Definition: quantizedmeshgeometry.cpp:146

gzipDecompress
bool gzipDecompress(QByteArray input, QByteArray &output)
Decompresses the given buffer using the standard GZIP algorithm.
Definition: quantizedmeshgeometry.cpp:34

QgsCoordinateTransform::transform
QgsPointXY transform(const QgsPointXY &point, TransformDirection direction=ForwardTransform) const SIP_THROW(QgsCsException)
Transform the point from the source CRS to the destination CRS.
Definition: qgscoordinatetransform.cpp:208

QgsPointXY::y
double y
Definition: qgspointxy.h:48

QgsPointXY
A class to represent a 2D point.
Definition: qgspointxy.h:43

qgsmaptopixel.h

quantizedmeshgeometry.h

QuantizedMeshHeader
Definition: quantizedmeshgeometry.h:26

qgsnetworkaccessmanager.h

QuantizedMeshGeometry::QuantizedMeshGeometry
QuantizedMeshGeometry(QuantizedMeshTile *t, const Map3D &map, const QgsMapToPixel &mapToPixel, const QgsCoordinateTransform &terrainToMap, QNode *parent=nullptr)
Constructs geometry based on the loaded tile data.
Definition: quantizedmeshgeometry.cpp:276

QuantizedMeshHeader::MinimumHeight
float MinimumHeight
Definition: quantizedmeshgeometry.h:38

QgsMapToPixel
Perform transforms between map coordinates and device coordinates.
Definition: qgsmaptopixel.h:36

QgsRectangle::yMinimum
double yMinimum() const
Returns the y minimum value (bottom side of rectangle).
Definition: qgsrectangle.h:176

QuantizedMeshTile
Definition: quantizedmeshgeometry.h:58

QuantizedMeshTile::uvh
QVector< qint16 > uvh
Definition: quantizedmeshgeometry.h:62

GZIP_CHUNK_SIZE
#define GZIP_CHUNK_SIZE
Definition: quantizedmeshgeometry.cpp:26

QuantizedMeshTile::header
QuantizedMeshHeader header
Definition: quantizedmeshgeometry.h:61

QgsPointXY::x
double x
Definition: qgspointxy.h:47

QgsNetworkAccessManager::instance
static QgsNetworkAccessManager * instance(Qt::ConnectionType connectionType=Qt::BlockingQueuedConnection)
Returns a pointer to the active QgsNetworkAccessManager for the current thread.
Definition: qgsnetworkaccessmanager.cpp:106

qgscoordinatetransform.h

QuantizedMeshTile::extent
QgsRectangle extent
Definition: quantizedmeshgeometry.h:60

QuantizedMeshHeader::MaximumHeight
float MaximumHeight
Definition: quantizedmeshgeometry.h:39

QgsCoordinateTransform
Class for doing transforms between two map coordinate systems.
Definition: qgscoordinatetransform.h:52

read_zigzag_encoded_int16_array
const char * read_zigzag_encoded_int16_array(const char *dataPtr, int count, qint16 *out)
Definition: quantizedmeshgeometry.cpp:128

QuantizedMeshTile::indices
QVector< quint16 > indices
Definition: quantizedmeshgeometry.h:63

QgsRectangle::width
double width() const
Returns the width of the rectangle.
Definition: qgsrectangle.h:201

QgsMapToPixel::transform
QgsPointXY transform(const QgsPointXY &p) const
Transform the point from map (world) coordinates to device coordinates.
Definition: qgsmaptopixel.cpp:217

QgsRectangle::xMinimum
double xMinimum() const
Returns the x minimum value (left side of rectangle).
Definition: qgsrectangle.h:166

QuantizedMeshGeometry::downloadTileIfMissing
static void downloadTileIfMissing(int tx, int ty, int tz)
Downloads a tile to to a file in the local disk cache.
Definition: quantizedmeshgeometry.cpp:238

GZIP_WINDOWS_BIT
#define GZIP_WINDOWS_BIT
Definition: quantizedmeshgeometry.cpp:25

QgsRectangle::height
double height() const
Returns the height of the rectangle.
Definition: qgsrectangle.h:208