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Additional progress.

This commit is contained in:
curt 1999-02-23 01:29:03 +00:00
parent d4950f5e70
commit 1a7c97601d
6 changed files with 659 additions and 96 deletions

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@ -1,6 +1,6 @@
bin_PROGRAMS = shape-decode bin_PROGRAMS = shape-decode
shape_decode_SOURCES = main.cxx shape_decode_SOURCES = names.cxx names.hxx main.cxx shape.cxx shape.hxx
shape_decode_LDADD = $(top_builddir)/Lib/Debug/libDebug.a \ shape_decode_LDADD = $(top_builddir)/Lib/Debug/libDebug.a \
$(top_builddir)/Lib/Bucket/libBucket.a \ $(top_builddir)/Lib/Bucket/libBucket.a \

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@ -30,11 +30,9 @@
#if defined ( linux ) #if defined ( linux )
# define _LINUX_ # define _LINUX_
#endif #endif
#include <gfc/gadt_polygon.h> #include <gfc/gadt_polygon.h>
#include <gfc/gdbf.h> #include <gfc/gdbf.h>
#include <gfc/gshapefile.h> #include <gfc/gshapefile.h>
#undef E #undef E
#undef DEG_TO_RAD #undef DEG_TO_RAD
#undef RAD_TO_DEG #undef RAD_TO_DEG
@ -44,68 +42,42 @@ extern "C" {
#include <gpc.h> #include <gpc.h>
} }
#include <Bucket/newbucket.hxx> #include <Include/compiler.h>
#include STL_STRING
#include <Debug/logstream.hxx> #include <Debug/logstream.hxx>
#include "names.hxx"
class point2d { #include "shape.hxx"
public:
double x, y;
};
static void clip_and_write_poly( FGBucket b, int n_vertices, double *coords ) {
point2d c, min, max;
c.x = b.get_center_lon();
c.y = b.get_center_lat();
double span = bucket_span(c.y);
// calculate bucket dimensions
if ( (c.y >= -89.0) && (c.y < 89.0) ) {
min.x = c.x - span / 2.0;
max.x = c.x + span / 2.0;
min.y = c.y - FG_HALF_BUCKET_SPAN;
max.y = c.y + FG_HALF_BUCKET_SPAN;
} else if ( c.y < -89.0) {
min.x = -90.0;
max.x = -89.0;
min.y = -180.0;
max.y = 180.0;
} else if ( c.y >= 89.0) {
min.x = 89.0;
max.x = 90.0;
min.y = -180.0;
max.y = 180.0;
} else {
FG_LOG ( FG_GENERAL, FG_ALERT,
"Out of range latitude in clip_and_write_poly() = " << c.y );
}
}
int main( int argc, char **argv ) { int main( int argc, char **argv ) {
point2d min, max; gpc_polygon gpc_shape;
int i, j;
fglog().setLogLevels( FG_ALL, FG_DEBUG ); fglog().setLogLevels( FG_ALL, FG_DEBUG );
if ( argc != 2 ) { if ( argc != 3 ) {
FG_LOG( FG_GENERAL, FG_ALERT, "Usage: " << argv[0] << " <shapefile>" ); FG_LOG( FG_GENERAL, FG_ALERT, "Usage: " << argv[0]
<< " <shapefile> <workdir>" );
exit(-1); exit(-1);
} }
FG_LOG( FG_GENERAL, FG_DEBUG, "Opening " << argv[1] << " for reading." ); FG_LOG( FG_GENERAL, FG_DEBUG, "Opening " << argv[1] << " for reading." );
// initialize structure for building gpc polygons
shape_utils_init();
GShapeFile * sf = new GShapeFile( argv[1] ); GShapeFile * sf = new GShapeFile( argv[1] );
GDBFile *names = new GDBFile( argv[1] ); GDBFile *dbf = new GDBFile( argv[1] );
string path = argv[2];
GPolygon shape; GPolygon shape;
double *coords; // in decimal degrees double *coords; // in decimal degrees
int n_vertices; int n_vertices;
double lon, lat;
FG_LOG( FG_GENERAL, FG_INFO, sf->numRecords() ); FG_LOG( FG_GENERAL, FG_INFO, "shape file records = " << sf->numRecords() );
GShapeFile::ShapeType t = sf->shapeType(); GShapeFile::ShapeType t = sf->shapeType();
if ( t != GShapeFile::av_Polygon ) { if ( t != GShapeFile::av_Polygon ) {
@ -113,78 +85,178 @@ int main( int argc, char **argv ) {
exit(-1); exit(-1);
} }
for ( int i = 0; i < sf->numRecords(); i++ ) { for ( i = 16473; i < sf->numRecords(); i++ ) {
//fetch i-th record (shape) //fetch i-th record (shape)
FG_LOG( FG_GENERAL, FG_DEBUG, names->getRecord( i ) );
sf->getShapeRec(i, &shape); sf->getShapeRec(i, &shape);
FG_LOG( FG_GENERAL, FG_DEBUG, "Record = " << i << " rings = " FG_LOG( FG_GENERAL, FG_DEBUG, "Record = " << i << " rings = "
<< shape.numRings() ); << shape.numRings() );
for ( int j = 0; j < shape.numRings(); j++ ) { AreaType area = get_area_type(dbf, i);
//return j-th branch's coords, # of vertices FG_LOG( FG_GENERAL, FG_DEBUG, "area type = " << (int)area );
FG_LOG( FG_GENERAL, FG_INFO, " record = " << i
<< " ring = " << 0 );
if ( area == MarshArea ) {
// interior of polygon is marsh, holes are water
// do main outline first
init_shape(&gpc_shape);
n_vertices = shape.getRing(0, coords);
add_to_shape(n_vertices, coords, &gpc_shape);
process_shape(path, area, &gpc_shape);
free_shape(&gpc_shape);
// do lakes (individually) next
for ( j = 1; j < shape.numRings(); j++ ) {
FG_LOG( FG_GENERAL, FG_INFO, " record = " << i
<< " ring = " << j );
init_shape(&gpc_shape);
n_vertices = shape.getRing(j, coords); n_vertices = shape.getRing(j, coords);
add_to_shape(n_vertices, coords, &gpc_shape);
FG_LOG( FG_GENERAL, FG_DEBUG, " ring " << j << " = " ); process_shape(path, LakeArea, &gpc_shape);
FG_LOG( FG_GENERAL, FG_INFO, n_vertices ); free_shape(&gpc_shape);
// find min/max of this polygon
min.x = min.y = 200.0;
max.x = max.y = -200.0;
for ( int k = 0; k < n_vertices; k++ ) {
if ( coords[k*2+0] < min.x ) { min.x = coords[k*2+0]; }
if ( coords[k*2+1] < min.y ) { min.y = coords[k*2+1]; }
if ( coords[k*2+0] > max.x ) { max.x = coords[k*2+0]; }
if ( coords[k*2+1] > max.y ) { max.y = coords[k*2+1]; }
} }
FG_LOG( FG_GENERAL, FG_INFO, "min = " << min.x << "," << min.y } else if ( area == OceanArea ) {
<< " max = " << max.x << "," << max.y ); // interior of polygon is ocean, holes are islands
// find buckets for min, and max points of convex hull. init_shape(&gpc_shape);
// note to self: self, you should think about checking for for ( j = 0; j < shape.numRings(); j++ ) {
// polygons that span the date line n_vertices = shape.getRing(j, coords);
FGBucket b_min(min.x, min.y); add_to_shape(n_vertices, coords, &gpc_shape);
FGBucket b_max(max.x, max.y); }
cout << "Bucket min = " << b_min << endl; process_shape(path, area, &gpc_shape);
cout << "Bucket max = " << b_max << endl; free_shape(&gpc_shape);
} else if ( area == LakeArea ) {
// interior of polygon is lake, holes are islands
if ( b_min == b_max ) { init_shape(&gpc_shape);
clip_and_write_poly( b_min, n_vertices, coords ); for ( j = 0; j < shape.numRings(); j++ ) {
n_vertices = shape.getRing(j, coords);
add_to_shape(n_vertices, coords, &gpc_shape);
}
process_shape(path, area, &gpc_shape);
free_shape(&gpc_shape);
} else if ( area == DryLakeArea ) {
// interior of polygon is dry lake, holes are islands
init_shape(&gpc_shape);
for ( j = 0; j < shape.numRings(); j++ ) {
n_vertices = shape.getRing(j, coords);
add_to_shape(n_vertices, coords, &gpc_shape);
}
process_shape(path, area, &gpc_shape);
free_shape(&gpc_shape);
} else if ( area == IntLakeArea ) {
// interior of polygon is intermittent lake, holes are islands
init_shape(&gpc_shape);
for ( j = 0; j < shape.numRings(); j++ ) {
n_vertices = shape.getRing(j, coords);
add_to_shape(n_vertices, coords, &gpc_shape);
}
process_shape(path, area, &gpc_shape);
free_shape(&gpc_shape);
} else if ( area == ReservoirArea ) {
// interior of polygon is reservoir, holes are islands
init_shape(&gpc_shape);
for ( j = 0; j < shape.numRings(); j++ ) {
n_vertices = shape.getRing(j, coords);
add_to_shape(n_vertices, coords, &gpc_shape);
}
process_shape(path, area, &gpc_shape);
free_shape(&gpc_shape);
} else if ( area == IntReservoirArea ) {
// interior of polygon is intermittent reservoir, holes are islands
init_shape(&gpc_shape);
for ( j = 0; j < shape.numRings(); j++ ) {
n_vertices = shape.getRing(j, coords);
add_to_shape(n_vertices, coords, &gpc_shape);
}
process_shape(path, area, &gpc_shape);
free_shape(&gpc_shape);
} else if ( area == StreamArea ) {
// interior of polygon is stream, holes are islands
init_shape(&gpc_shape);
for ( j = 0; j < shape.numRings(); j++ ) {
n_vertices = shape.getRing(j, coords);
add_to_shape(n_vertices, coords, &gpc_shape);
}
process_shape(path, area, &gpc_shape);
free_shape(&gpc_shape);
} else if ( area == CanalArea ) {
// interior of polygon is canal, holes are islands
init_shape(&gpc_shape);
for ( j = 0; j < shape.numRings(); j++ ) {
n_vertices = shape.getRing(j, coords);
add_to_shape(n_vertices, coords, &gpc_shape);
}
process_shape(path, area, &gpc_shape);
free_shape(&gpc_shape);
} else if ( area == GlacierArea ) {
// interior of polygon is glacier, holes are dry land
init_shape(&gpc_shape);
for ( j = 0; j < shape.numRings(); j++ ) {
n_vertices = shape.getRing(j, coords);
add_to_shape(n_vertices, coords, &gpc_shape);
}
process_shape(path, area, &gpc_shape);
free_shape(&gpc_shape);
} else if ( area == VoidArea ) {
// interior is ????
// skip for now
FG_LOG( FG_GENERAL, FG_ALERT, "Void area ... SKIPPING!" );
if ( shape.numRings() > 1 ) {
FG_LOG( FG_GENERAL, FG_ALERT, " Void area with holes!" );
// exit(-1);
}
init_shape(&gpc_shape);
for ( j = 0; j < shape.numRings(); j++ ) {
n_vertices = shape.getRing(j, coords);
add_to_shape(n_vertices, coords, &gpc_shape);
}
// process_shape(path, area, &gpc_shape);
free_shape(&gpc_shape);
} else if ( area == NullArea ) {
// interior is ????
// skip for now
FG_LOG( FG_GENERAL, FG_ALERT, "Null area ... SKIPPING!" );
if ( shape.numRings() > 1 ) {
FG_LOG( FG_GENERAL, FG_ALERT, " Null area with holes!" );
// exit(-1);
}
init_shape(&gpc_shape);
for ( j = 0; j < shape.numRings(); j++ ) {
n_vertices = shape.getRing(j, coords);
add_to_shape(n_vertices, coords, &gpc_shape);
}
// process_shape(path, area, &gpc_shape);
free_shape(&gpc_shape);
} else { } else {
FGBucket b_cur; FG_LOG( FG_GENERAL, FG_ALERT, "Uknown area!" );
int dx, dy, i, j;
fgBucketDiff(b_min, b_max, &dx, &dy);
cout << "airport spans tile boundaries" << endl;
cout << " dx = " << dx << " dy = " << dy << endl;
if ( (dx > 1) || (dy > 1) ) {
cout << "somethings really wrong!!!!" << endl;
exit(-1); exit(-1);
} }
for ( j = 0; j <= dy; j++ ) {
for ( i = 0; i <= dx; i++ ) {
b_cur = fgBucketOffset(min.x, min.y, i, j);
clip_and_write_poly( b_cur, n_vertices, coords );
}
}
// string answer; cin >> answer;
}
for ( int k = 0; k < n_vertices; k++ ) {
lon = coords[k*2+0];
lat = coords[k*2+1];
FG_LOG( FG_GENERAL, FG_INFO, lon << " " << lat );
}
}
} }
return 0; return 0;
} }
// $Log$ // $Log$
// Revision 1.3 1999/02/23 01:29:04 curt
// Additional progress.
//
// Revision 1.2 1999/02/19 19:05:18 curt // Revision 1.2 1999/02/19 19:05:18 curt
// Working on clipping shapes and distributing into buckets. // Working on clipping shapes and distributing into buckets.
// //

104
ShapeFile/names.cxx Normal file
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@ -0,0 +1,104 @@
// names.cxx -- process shapefiles names
//
// Written by Curtis Olson, started February 1999.
//
// Copyright (C) 1999 Curtis L. Olson - curt@flightgear.org
//
// 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.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
//
// $Id$
// (Log is kept at end of this file)
#include <Include/compiler.h>
#include STL_STRING
#include "names.hxx"
// return the type of the shapefile record
AreaType get_area_type(GDBFile *dbf, int rec) {
GDBFieldDesc *fdesc[128]; // 128 is an arbitrary number here
GDBFValue *fields; //an array of field values
char* dbf_rec; //a record containing all the fields
// grab the meta-information for all the fields
// this applies to all the records in the DBF file.
// for ( int i = 0; i < dbf->numFields(); i++ ) {
// fdesc[i] = dbf->getFieldDesc(i);
// cout << i << ") " << fdesc[i]->name << endl;
// }
// this is the whole name record
dbf_rec = dbf->getRecord( rec );
// parse it into individual fields
if ( dbf_rec ) {
fields = dbf->recordDeform( dbf_rec );
}
string area = fields[4].str_v;
// strip leading spaces
while ( area[0] == ' ' ) {
area = area.substr(1, area.length() - 1);
}
// strip trailing spaces
while ( area[area.length() - 1] == ' ' ) {
area = area.substr(0, area.length() - 1);
}
// strip other junk encountered
while ( (int)area[area.length() - 1] == 9 ) {
area = area.substr(0, area.length() - 1);
}
if ( area == "Swamp or Marsh" ) {
return MarshArea;
} else if ( area == "Bay Estuary or Ocean" ) {
return OceanArea;
} else if ( area == "Lake" ) {
return LakeArea;
} else if ( area == "Lake Dry" ) {
return DryLakeArea;
} else if ( area == "Lake Intermittent" ) {
return IntLakeArea;
} else if ( area == "Reservoir" ) {
return ReservoirArea;
} else if ( area == "Reservoir Intermittent" ) {
return IntReservoirArea;
} else if ( area == "Stream" ) {
return StreamArea;
} else if ( area == "Canal" ) {
return CanalArea;
} else if ( area == "Glacier" ) {
return GlacierArea;
} else if ( area == "Void Area" ) {
return VoidArea;
} else if ( area == "Null" ) {
return NullArea;
} else {
cout << "unknown area = '" << area << "'" << endl;
// cout << "area = " << area << endl;
for ( int i = 0; i < area.length(); i++ ) {
cout << i << ") " << (int)area[i] << endl;
}
return UnknownArea;
}
}
// $Log$
// Revision 1.1 1999/02/23 01:29:05 curt
// Additional progress.
//

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// names.hxx -- process shapefiles names
//
// Written by Curtis Olson, started February 1999.
//
// Copyright (C) 1999 Curtis L. Olson - curt@flightgear.org
//
// 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.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
//
// $Id$
// (Log is kept at end of this file)
#ifndef _NAMES_HXX
#define _NAMES_HXX
// libgfc.a includes need this bit o' strangeness
#if defined ( linux )
# define _LINUX_
#endif
#include <gfc/gadt_polygon.h>
#include <gfc/gdbf.h>
#undef E
#undef DEG_TO_RAD
#undef RAD_TO_DEG
// Posible shape file types
enum AreaType {
MarshArea = 0,
OceanArea = 1,
LakeArea = 2,
DryLakeArea = 3,
IntLakeArea = 4,
ReservoirArea = 5,
IntReservoirArea = 6,
StreamArea = 7,
CanalArea = 8,
GlacierArea = 9,
VoidArea = 9997,
NullArea = 9998,
UnknownArea = 9999
};
// return the type of the shapefile record
AreaType get_area_type(GDBFile *dbf, int rec);
#endif // _NAMES_HXX
// $Log$
// Revision 1.1 1999/02/23 01:29:05 curt
// Additional progress.
//

258
ShapeFile/shape.cxx Normal file
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// shape.cxx -- shape/gpc utils
//
// Written by Curtis Olson, started February 1999.
//
// Copyright (C) 1999 Curtis L. Olson - curt@flightgear.org
//
// 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.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
//
// $Id$
// (Log is kept at end of this file)
#include <Include/compiler.h>
#include STL_STRING
#include <Bucket/newbucket.hxx>
#include <Debug/logstream.hxx>
#include "names.hxx"
#include "shape.hxx"
#define FG_MAX_VERTICES 100000
static gpc_vertex_list v_list;
class point2d {
public:
double x, y;
};
static void clip_and_write_poly( string root, AreaType area,
FGBucket b, gpc_polygon *shape ) {
point2d c, min, max;
c.x = b.get_center_lon();
c.y = b.get_center_lat();
double span = bucket_span(c.y);
gpc_polygon base, result;
char tmp[256];
// calculate bucket dimensions
if ( (c.y >= -89.0) && (c.y < 89.0) ) {
min.x = c.x - span / 2.0;
max.x = c.x + span / 2.0;
min.y = c.y - FG_HALF_BUCKET_SPAN;
max.y = c.y + FG_HALF_BUCKET_SPAN;
} else if ( c.y < -89.0) {
min.x = -90.0;
max.x = -89.0;
min.y = -180.0;
max.y = 180.0;
} else if ( c.y >= 89.0) {
min.x = 89.0;
max.x = 90.0;
min.y = -180.0;
max.y = 180.0;
} else {
FG_LOG ( FG_GENERAL, FG_ALERT,
"Out of range latitude in clip_and_write_poly() = " << c.y );
}
FG_LOG( FG_GENERAL, FG_INFO, " (" << min.x << "," << min.y << ") ("
<< max.x << "," << max.y << ")" );
// set up clipping tile
v_list.vertex[0].x = min.x;
v_list.vertex[0].y = min.y;
v_list.vertex[1].x = max.x;
v_list.vertex[1].y = min.y;
v_list.vertex[2].x = max.x;
v_list.vertex[2].y = max.y;
v_list.vertex[3].x = min.x;
v_list.vertex[3].y = max.y;
v_list.num_vertices = 4;
base.num_contours = 0;
base.contour = NULL;
gpc_add_contour( &base, &v_list );
// FG_LOG( FG_GENERAL, FG_DEBUG, "base = 4 vertices" );
/*
FILE *bfp= fopen("base", "w");
gpc_write_polygon(bfp, &base);
fclose(bfp);
*/
gpc_polygon_clip(GPC_INT, &base, shape, &result);
if ( result.num_contours > 0 ) {
long int index = b.gen_index();
string path = root + "/Scenery/" + b.gen_base_path();
string command = "mkdir -p " + path;
system( command.c_str() );
sprintf(tmp, "%ld", index);
string polyfile = path + "/" + tmp;
if ( area == MarshArea ) {
polyfile += ".marsh";
} else if ( area == OceanArea ) {
polyfile += ".ocean";
} else if ( area == LakeArea ) {
polyfile += ".lake";
} else if ( area == DryLakeArea ) {
polyfile += ".drylake";
} else if ( area == IntLakeArea ) {
polyfile += ".intlake";
} else if ( area == ReservoirArea ) {
polyfile += ".reservoir";
} else if ( area == IntReservoirArea ) {
polyfile += ".intreservoir";
} else if ( area == StreamArea ) {
polyfile += ".stream";
} else if ( area == CanalArea ) {
polyfile += ".canal";
} else if ( area == GlacierArea ) {
polyfile += ".glacier";
} else {
cout << "unknown area type in clip_and_write_poly()!" << endl;
exit(-1);
}
FILE *rfp= fopen(polyfile.c_str(), "w");
gpc_write_polygon(rfp, &result);
fclose(rfp);
}
gpc_free_polygon(&base);
gpc_free_polygon(&result);
}
// Initialize structure we use to create polygons for the gpc library
bool shape_utils_init() {
v_list.num_vertices = 0;
v_list.vertex = new gpc_vertex[FG_MAX_VERTICES];;
return true;
}
// initialize a gpc_polygon
void init_shape(gpc_polygon *shape) {
shape->num_contours = 0;
shape->contour = NULL;
}
// make a gpc_polygon
void add_to_shape(int count, double *coords, gpc_polygon *shape) {
for ( int i = 0; i < count; i++ ) {
v_list.vertex[i].x = coords[i*2+0];
v_list.vertex[i].y = coords[i*2+1];
}
v_list.num_vertices = count;
gpc_add_contour( shape, &v_list );
}
// process shape (write polygon to all intersecting tiles)
void process_shape(string path, AreaType area, gpc_polygon *gpc_shape) {
point2d min, max;
int i, j;
min.x = min.y = 200.0;
max.x = max.y = -200.0;
// find min/max of polygon
for ( i = 0; i < gpc_shape->num_contours; i++ ) {
for ( j = 0; j < gpc_shape->contour[i].num_vertices; j++ ) {
double x = gpc_shape->contour[i].vertex[j].x;
double y = gpc_shape->contour[i].vertex[j].y;
if ( x < min.x ) { min.x = x; }
if ( y < min.y ) { min.y = y; }
if ( x > max.x ) { max.x = x; }
if ( y > max.y ) { max.y = y; }
}
}
/*
FILE *sfp= fopen("shape", "w");
gpc_write_polygon(sfp, gpc_shape);
fclose(sfp);
exit(-1);
*/
FG_LOG( FG_GENERAL, FG_INFO, " min = " << min.x << "," << min.y
<< " max = " << max.x << "," << max.y );
// find buckets for min, and max points of convex hull.
// note to self: self, you should think about checking for
// polygons that span the date line
FGBucket b_min(min.x, min.y);
FGBucket b_max(max.x, max.y);
FG_LOG( FG_GENERAL, FG_INFO, " Bucket min = " << b_min );
FG_LOG( FG_GENERAL, FG_INFO, " Bucket max = " << b_max );
if ( b_min == b_max ) {
clip_and_write_poly( path, area, b_min, gpc_shape );
} else {
FGBucket b_cur;
int dx, dy, i, j;
fgBucketDiff(b_min, b_max, &dx, &dy);
FG_LOG( FG_GENERAL, FG_INFO,
" polygon spans tile boundaries" );
FG_LOG( FG_GENERAL, FG_INFO, " dx = " << dx
<< " dy = " << dy );
if ( (dx > 100) || (dy > 100) ) {
FG_LOG( FG_GENERAL, FG_ALERT,
"somethings really wrong!!!!" );
exit(-1);
}
for ( j = 0; j <= dy; j++ ) {
for ( i = 0; i <= dx; i++ ) {
b_cur = fgBucketOffset(min.x, min.y, i, j);
clip_and_write_poly( path, area, b_cur, gpc_shape );
}
}
// string answer; cin >> answer;
}
}
// free a gpc_polygon
void free_shape(gpc_polygon *shape) {
gpc_free_polygon(shape);
}
// $Log$
// Revision 1.1 1999/02/23 01:29:06 curt
// Additional progress.
//

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// shape.hxx -- shape/gpc utils
//
// Written by Curtis Olson, started February 1999.
//
// Copyright (C) 1999 Curtis L. Olson - curt@flightgear.org
//
// 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.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
//
// $Id$
// (Log is kept at end of this file)
#ifndef _SHAPE_HXX
#define _SHAPE_HXX
// include Generic Polygon Clipping Library
extern "C" {
#include <gpc.h>
}
#include "names.hxx"
// Initialize structure we use to create polygons for the gpc library
// this must be called once from main for any program that uses this library
bool shape_utils_init();
// initialize a gpc_polygon
void init_shape(gpc_polygon *shape);
// make a gpc_polygon
void add_to_shape(int count, double *coords, gpc_polygon *shape);
// process shape (write polygon to all intersecting tiles)
void process_shape(string path, AreaType area, gpc_polygon *gpc_shape);
// free a gpc_polygon
void free_shape(gpc_polygon *shape);
#endif // _SHAPE_HXX
// $Log$
// Revision 1.1 1999/02/23 01:29:06 curt
// Additional progress.
//