kicad/pcbnew/exporters/export_vrml.cpp

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2009-2013 Lorenzo Mercantonio
* Copyright (C) 2014 Cirilo Bernado
* Copyright (C) 2013 Jean-Pierre Charras jp.charras at wanadoo.fr
2015-04-10 07:30:21 +00:00
* Copyright (C) 2004-2015 KiCad Developers, see change_log.txt for contributors.
*
* 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, you may find one here:
* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
* or you may search the http://www.gnu.org website for the version 2 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
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#include <fctsys.h>
#include <kicad_string.h>
#include <wxPcbStruct.h>
#include <drawtxt.h>
#include <trigo.h>
* KIWAY Milestone A): Make major modules into DLL/DSOs. ! The initial testing of this commit should be done using a Debug build so that all the wxASSERT()s are enabled. Also, be sure and keep enabled the USE_KIWAY_DLLs option. The tree won't likely build without it. Turning it off is senseless anyways. If you want stable code, go back to a prior version, the one tagged with "stable". * Relocate all functionality out of the wxApp derivative into more finely targeted purposes: a) DLL/DSO specific b) PROJECT specific c) EXE or process specific d) configuration file specific data e) configuration file manipulations functions. All of this functionality was blended into an extremely large wxApp derivative and that was incompatible with the desire to support multiple concurrently loaded DLL/DSO's ("KIFACE")s and multiple concurrently open projects. An amazing amount of organization come from simply sorting each bit of functionality into the proper box. * Switch to wxConfigBase from wxConfig everywhere except instantiation. * Add classes KIWAY, KIFACE, KIFACE_I, SEARCH_STACK, PGM_BASE, PGM_KICAD, PGM_SINGLE_TOP, * Remove "Return" prefix on many function names. * Remove obvious comments from CMakeLists.txt files, and from else() and endif()s. * Fix building boost for use in a DSO on linux. * Remove some of the assumptions in the CMakeLists.txt files that windows had to be the host platform when building windows binaries. * Reduce the number of wxStrings being constructed at program load time via static construction. * Pass wxConfigBase* to all SaveSettings() and LoadSettings() functions so that these functions are useful even when the wxConfigBase comes from another source, as is the case in the KICAD_MANAGER_FRAME. * Move the setting of the KIPRJMOD environment variable into class PROJECT, so that it can be moved into a project variable soon, and out of FP_LIB_TABLE. * Add the KIWAY_PLAYER which is associated with a particular PROJECT, and all its child wxFrames and wxDialogs now have a Kiway() member function which returns a KIWAY& that that window tree branch is in support of. This is like wxWindows DNA in that child windows get this member with proper value at time of construction. * Anticipate some of the needs for milestones B) and C) and make code adjustments now in an effort to reduce work in those milestones. * No testing has been done for python scripting, since milestone C) has that being largely reworked and re-thought-out.
2014-03-20 00:42:08 +00:00
#include <pgm_base.h>
#include <3d_struct.h>
#include <macros.h>
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#include <exception>
#include <fstream>
#include <iomanip>
#include <pcbnew.h>
#include <class_board.h>
#include <class_module.h>
#include <class_track.h>
#include <class_zone.h>
#include <class_edge_mod.h>
#include <class_pcb_text.h>
#include <convert_from_iu.h>
#include "../3d-viewer/modelparsers.h"
#include <vector>
#include <cmath>
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#include <vrml_layer.h>
// minimum width (mm) of a VRML line
#define MIN_VRML_LINEWIDTH 0.12
// offset for art layers, mm (silk, paste, etc)
#define ART_OFFSET 0.025
struct VRML_COLOR
{
float diffuse_red;
float diffuse_grn;
float diffuse_blu;
float spec_red;
float spec_grn;
float spec_blu;
float emit_red;
float emit_grn;
float emit_blu;
float ambient;
float transp;
float shiny;
VRML_COLOR()
{
// default green
diffuse_red = 0.13;
diffuse_grn = 0.81;
diffuse_blu = 0.22;
spec_red = 0.13;
spec_grn = 0.81;
spec_blu = 0.22;
emit_red = 0.0;
emit_grn = 0.0;
emit_blu = 0.0;
ambient = 1.0;
transp = 0;
shiny = 0.2;
}
VRML_COLOR( float dr, float dg, float db,
float sr, float sg, float sb,
float er, float eg, float eb,
float am, float tr, float sh )
{
diffuse_red = dr;
diffuse_grn = dg;
diffuse_blu = db;
spec_red = sr;
spec_grn = sg;
spec_blu = sb;
emit_red = er;
emit_grn = eg;
emit_blu = eb;
ambient = am;
transp = tr;
shiny = sh;
}
};
enum VRML_COLOR_INDEX
{
VRML_COLOR_PCB = 0,
VRML_COLOR_TRACK,
VRML_COLOR_SILK,
VRML_COLOR_TIN,
VRML_COLOR_LAST
};
class MODEL_VRML
{
private:
double layer_z[LAYER_ID_COUNT];
VRML_COLOR colors[VRML_COLOR_LAST];
int iMaxSeg; // max. sides to a small circle
double arcMinLen, arcMaxLen; // min and max lengths of an arc chord
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public:
VRML_LAYER holes;
VRML_LAYER board;
VRML_LAYER top_copper;
VRML_LAYER bot_copper;
VRML_LAYER top_silk;
VRML_LAYER bot_silk;
VRML_LAYER top_tin;
VRML_LAYER bot_tin;
VRML_LAYER plated_holes;
bool plainPCB;
double scale; // board internal units to output scaling
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double minLineWidth; // minimum width of a VRML line segment
int precision; // precision of output units
double tx; // global translation along X
double ty; // global translation along Y
double board_thickness; // depth of the PCB
LAYER_NUM s_text_layer;
int s_text_width;
MODEL_VRML()
{
for( unsigned i = 0; i < DIM( layer_z ); ++i )
layer_z[i] = 0;
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holes.GetArcParams( iMaxSeg, arcMinLen, arcMaxLen );
// this default only makes sense if the output is in mm
board_thickness = 1.6;
// pcb green
colors[ VRML_COLOR_PCB ] = VRML_COLOR( .07, .3, .12, .07, .3, .12,
0, 0, 0, 1, 0, 0.2 );
// track green
colors[ VRML_COLOR_TRACK ] = VRML_COLOR( .08, .5, .1, .08, .5, .1,
0, 0, 0, 1, 0, 0.2 );
// silkscreen white
colors[ VRML_COLOR_SILK ] = VRML_COLOR( .9, .9, .9, .9, .9, .9,
0, 0, 0, 1, 0, 0.2 );
// pad silver
colors[ VRML_COLOR_TIN ] = VRML_COLOR( .749, .756, .761, .749, .756, .761,
0, 0, 0, 0.8, 0, 0.8 );
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plainPCB = false;
SetScale( 1.0 );
SetOffset( 0.0, 0.0 );
s_text_layer = F_Cu;
s_text_width = 1;
}
VRML_COLOR& GetColor( VRML_COLOR_INDEX aIndex )
{
return colors[aIndex];
}
void SetOffset( double aXoff, double aYoff )
{
tx = aXoff;
ty = -aYoff;
holes.SetVertexOffsets( aXoff, aYoff );
board.SetVertexOffsets( aXoff, aYoff );
top_copper.SetVertexOffsets( aXoff, aYoff );
bot_copper.SetVertexOffsets( aXoff, aYoff );
top_silk.SetVertexOffsets( aXoff, aYoff );
bot_silk.SetVertexOffsets( aXoff, aYoff );
top_tin.SetVertexOffsets( aXoff, aYoff );
bot_tin.SetVertexOffsets( aXoff, aYoff );
plated_holes.SetVertexOffsets( aXoff, aYoff );
}
double GetLayerZ( LAYER_NUM aLayer )
{
if( unsigned( aLayer ) >= DIM( layer_z ) )
return 0;
return layer_z[ aLayer ];
}
void SetLayerZ( LAYER_NUM aLayer, double aValue )
{
layer_z[aLayer] = aValue;
}
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// set the scaling of the VRML world
bool SetScale( double aWorldScale )
{
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if( aWorldScale < 0.001 || aWorldScale > 10.0 )
throw( std::runtime_error( "WorldScale out of range (valid range is 0.001 to 10.0)" ) );
scale = aWorldScale * MM_PER_IU;
minLineWidth = aWorldScale * MIN_VRML_LINEWIDTH;
// set the precision of the VRML coordinates
if( aWorldScale < 0.01 )
precision = 8;
else if( aWorldScale < 0.1 )
precision = 7;
else if( aWorldScale< 1.0 )
precision = 6;
else if( aWorldScale < 10.0 )
precision = 5;
else
precision = 4;
double smin = arcMinLen * aWorldScale;
double smax = arcMaxLen * aWorldScale;
holes.SetArcParams( iMaxSeg, smin, smax );
board.SetArcParams( iMaxSeg, smin, smax );
top_copper.SetArcParams( iMaxSeg, smin, smax);
bot_copper.SetArcParams( iMaxSeg, smin, smax);
top_silk.SetArcParams( iMaxSeg, smin, smax );
bot_silk.SetArcParams( iMaxSeg, smin, smax );
top_tin.SetArcParams( iMaxSeg, smin, smax );
bot_tin.SetArcParams( iMaxSeg, smin, smax );
plated_holes.SetArcParams( iMaxSeg, smin, smax );
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return true;
}
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};
// static var. for dealing with text
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static MODEL_VRML* model_vrml;
// select the VRML layer object to draw on; return true if
// a layer has been selected.
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static bool GetLayer( MODEL_VRML& aModel, LAYER_NUM layer, VRML_LAYER** vlayer )
{
switch( layer )
{
case B_Cu:
*vlayer = &aModel.bot_copper;
break;
case F_Cu:
*vlayer = &aModel.top_copper;
break;
case B_SilkS:
*vlayer = &aModel.bot_silk;
break;
case F_SilkS:
*vlayer = &aModel.top_silk;
break;
default:
return false;
}
return true;
}
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static void write_triangle_bag( std::ofstream& output_file, VRML_COLOR& color,
VRML_LAYER* layer, bool plane, bool top,
double top_z, double bottom_z, int aPrecision )
{
/* A lot of nodes are not required, but blender sometimes chokes
* without them */
static const char* shape_boiler[] =
{
"Transform {\n",
" children [\n",
" Group {\n",
" children [\n",
" Shape {\n",
" appearance Appearance {\n",
" material Material {\n",
0, // Material marker
" }\n",
" }\n",
" geometry IndexedFaceSet {\n",
" solid TRUE\n",
" coord Coordinate {\n",
" point [\n",
0, // Coordinates marker
" ]\n",
" }\n",
" coordIndex [\n",
0, // Index marker
" ]\n",
" }\n",
" }\n",
" ]\n",
" }\n",
" ]\n",
"}\n",
0 // End marker
};
int marker_found = 0, lineno = 0;
while( marker_found < 4 )
{
if( shape_boiler[lineno] )
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output_file << shape_boiler[lineno];
else
{
marker_found++;
switch( marker_found )
{
case 1: // Material marker
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output_file << " diffuseColor " << std::setprecision(3);
output_file << color.diffuse_red << " ";
output_file << color.diffuse_grn << " ";
output_file << color.diffuse_blu << "\n";
output_file << " specularColor ";
output_file << color.spec_red << " ";
output_file << color.spec_grn << " ";
output_file << color.spec_blu << "\n";
output_file << " emissiveColor ";
output_file << color.emit_red << " ";
output_file << color.emit_grn << " ";
output_file << color.emit_blu << "\n";
output_file << " ambientIntensity " << color.ambient << "\n";
output_file << " transparency " << color.transp << "\n";
output_file << " shininess " << color.shiny << "\n";
break;
case 2:
if( plane )
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layer->WriteVertices( top_z, output_file, aPrecision );
else
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layer->Write3DVertices( top_z, bottom_z, output_file, aPrecision );
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output_file << "\n";
break;
case 3:
if( plane )
layer->WriteIndices( top, output_file );
else
layer->Write3DIndices( output_file );
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output_file << "\n";
break;
default:
break;
}
}
lineno++;
}
}
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static void write_layers( MODEL_VRML& aModel, std::ofstream& output_file, BOARD* aPcb )
{
// VRML_LAYER board;
aModel.board.Tesselate( &aModel.holes );
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double brdz = aModel.board_thickness / 2.0
- ( Millimeter2iu( ART_OFFSET / 2.0 ) ) * aModel.scale;
write_triangle_bag( output_file, aModel.GetColor( VRML_COLOR_PCB ),
&aModel.board, false, false, brdz, -brdz, aModel.precision );
if( aModel.plainPCB )
return;
// VRML_LAYER top_copper;
aModel.top_copper.Tesselate( &aModel.holes );
write_triangle_bag( output_file, aModel.GetColor( VRML_COLOR_TRACK ),
&aModel.top_copper, true, true,
aModel.GetLayerZ( F_Cu ), 0, aModel.precision );
// VRML_LAYER top_tin;
aModel.top_tin.Tesselate( &aModel.holes );
write_triangle_bag( output_file, aModel.GetColor( VRML_COLOR_TIN ),
&aModel.top_tin, true, true,
aModel.GetLayerZ( F_Cu ) + Millimeter2iu( ART_OFFSET / 2.0 ) * aModel.scale,
0, aModel.precision );
// VRML_LAYER bot_copper;
aModel.bot_copper.Tesselate( &aModel.holes );
write_triangle_bag( output_file, aModel.GetColor( VRML_COLOR_TRACK ),
&aModel.bot_copper, true, false,
aModel.GetLayerZ( B_Cu ), 0, aModel.precision );
// VRML_LAYER bot_tin;
aModel.bot_tin.Tesselate( &aModel.holes );
write_triangle_bag( output_file, aModel.GetColor( VRML_COLOR_TIN ),
&aModel.bot_tin, true, false,
aModel.GetLayerZ( B_Cu )
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- Millimeter2iu( ART_OFFSET / 2.0 ) * aModel.scale,
0, aModel.precision );
// VRML_LAYER PTH;
aModel.plated_holes.Tesselate( NULL, true );
write_triangle_bag( output_file, aModel.GetColor( VRML_COLOR_TIN ),
&aModel.plated_holes, false, false,
aModel.GetLayerZ( F_Cu ) + Millimeter2iu( ART_OFFSET / 2.0 ) * aModel.scale,
aModel.GetLayerZ( B_Cu ) - Millimeter2iu( ART_OFFSET / 2.0 ) * aModel.scale,
aModel.precision );
// VRML_LAYER top_silk;
aModel.top_silk.Tesselate( &aModel.holes );
write_triangle_bag( output_file, aModel.GetColor( VRML_COLOR_SILK ), &aModel.top_silk,
true, true, aModel.GetLayerZ( F_SilkS ), 0, aModel.precision );
// VRML_LAYER bot_silk;
aModel.bot_silk.Tesselate( &aModel.holes );
write_triangle_bag( output_file, aModel.GetColor( VRML_COLOR_SILK ), &aModel.bot_silk,
true, false, aModel.GetLayerZ( B_SilkS ), 0, aModel.precision );
}
static void compute_layer_Zs( MODEL_VRML& aModel, BOARD* pcb )
{
int copper_layers = pcb->GetCopperLayerCount();
// We call it 'layer' thickness, but it's the whole board thickness!
aModel.board_thickness = pcb->GetDesignSettings().GetBoardThickness() * aModel.scale;
double half_thickness = aModel.board_thickness / 2;
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// Compute each layer's Z value, more or less like the 3d view
for( LSEQ seq = LSET::AllCuMask().Seq(); seq; ++seq )
{
LAYER_ID i = *seq;
if( i < copper_layers )
aModel.SetLayerZ( i, half_thickness - aModel.board_thickness * i / (copper_layers - 1) );
else
aModel.SetLayerZ( i, - half_thickness ); // bottom layer
}
/* To avoid rounding interference, we apply an epsilon to each
* successive layer */
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double epsilon_z = Millimeter2iu( ART_OFFSET ) * aModel.scale;
aModel.SetLayerZ( B_Paste, -half_thickness - epsilon_z * 4 );
aModel.SetLayerZ( B_Adhes, -half_thickness - epsilon_z * 3 );
aModel.SetLayerZ( B_SilkS, -half_thickness - epsilon_z * 2 );
aModel.SetLayerZ( B_Mask, -half_thickness - epsilon_z );
aModel.SetLayerZ( F_Mask, half_thickness + epsilon_z );
aModel.SetLayerZ( F_SilkS, half_thickness + epsilon_z * 2 );
aModel.SetLayerZ( F_Adhes, half_thickness + epsilon_z * 3 );
aModel.SetLayerZ( F_Paste, half_thickness + epsilon_z * 4 );
aModel.SetLayerZ( Dwgs_User, half_thickness + epsilon_z * 5 );
aModel.SetLayerZ( Cmts_User, half_thickness + epsilon_z * 6 );
aModel.SetLayerZ( Eco1_User, half_thickness + epsilon_z * 7 );
aModel.SetLayerZ( Eco2_User, half_thickness + epsilon_z * 8 );
aModel.SetLayerZ( Edge_Cuts, 0 );
}
static void export_vrml_line( MODEL_VRML& aModel, LAYER_NUM layer,
double startx, double starty,
double endx, double endy, double width )
{
VRML_LAYER* vlayer;
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if( !GetLayer( aModel, layer, &vlayer ) )
return;
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if( width < aModel.minLineWidth)
width = aModel.minLineWidth;
starty = -starty;
endy = -endy;
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double angle = atan2( endy - starty, endx - startx ) * 180.0 / M_PI;
double length = Distance( startx, starty, endx, endy ) + width;
double cx = ( startx + endx ) / 2.0;
double cy = ( starty + endy ) / 2.0;
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if( !vlayer->AddSlot( cx, cy, length, width, angle, false ) )
throw( std::runtime_error( vlayer->GetError() ) );
}
static void export_vrml_circle( MODEL_VRML& aModel, LAYER_NUM layer,
double startx, double starty,
double endx, double endy, double width )
{
VRML_LAYER* vlayer;
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if( !GetLayer( aModel, layer, &vlayer ) )
return;
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if( width < aModel.minLineWidth )
width = aModel.minLineWidth;
starty = -starty;
endy = -endy;
double hole, radius;
radius = Distance( startx, starty, endx, endy ) + ( width / 2);
hole = radius - width;
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if( !vlayer->AddCircle( startx, starty, radius, false ) )
throw( std::runtime_error( vlayer->GetError() ) );
if( hole > 0.0001 )
{
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if( !vlayer->AddCircle( startx, starty, hole, true ) )
throw( std::runtime_error( vlayer->GetError() ) );
}
}
static void export_vrml_arc( MODEL_VRML& aModel, LAYER_NUM layer,
double centerx, double centery,
double arc_startx, double arc_starty,
double width, double arc_angle )
{
VRML_LAYER* vlayer;
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if( !GetLayer( aModel, layer, &vlayer ) )
return;
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if( width < aModel.minLineWidth )
width = aModel.minLineWidth;
centery = -centery;
arc_starty = -arc_starty;
if( !vlayer->AddArc( centerx, centery, arc_startx, arc_starty, width, -arc_angle, false ) )
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throw( std::runtime_error( vlayer->GetError() ) );
}
static void export_vrml_drawsegment( MODEL_VRML& aModel, DRAWSEGMENT* drawseg )
{
LAYER_NUM layer = drawseg->GetLayer();
double w = drawseg->GetWidth() * aModel.scale;
double x = drawseg->GetStart().x * aModel.scale;
double y = drawseg->GetStart().y * aModel.scale;
double xf = drawseg->GetEnd().x * aModel.scale;
double yf = drawseg->GetEnd().y * aModel.scale;
// Items on the edge layer are handled elsewhere; just return
if( layer == Edge_Cuts )
return;
switch( drawseg->GetShape() )
{
case S_ARC:
export_vrml_arc( aModel, layer,
(double) drawseg->GetCenter().x * aModel.scale,
(double) drawseg->GetCenter().y * aModel.scale,
(double) drawseg->GetArcStart().x * aModel.scale,
(double) drawseg->GetArcStart().y * aModel.scale,
w, drawseg->GetAngle() / 10 );
break;
case S_CIRCLE:
export_vrml_circle( aModel, layer, x, y, xf, yf, w );
break;
default:
export_vrml_line( aModel, layer, x, y, xf, yf, w );
break;
}
}
/* C++ doesn't have closures and neither continuation forms... this is
* for coupling the vrml_text_callback with the common parameters */
static void vrml_text_callback( int x0, int y0, int xf, int yf )
{
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LAYER_NUM s_text_layer = model_vrml->s_text_layer;
int s_text_width = model_vrml->s_text_width;
double scale = model_vrml->scale;
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export_vrml_line( *model_vrml, s_text_layer,
x0 * scale, y0 * scale,
xf * scale, yf * scale,
s_text_width * scale );
}
static void export_vrml_pcbtext( MODEL_VRML& aModel, TEXTE_PCB* text )
{
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model_vrml->s_text_layer = text->GetLayer();
model_vrml->s_text_width = text->GetThickness();
wxSize size = text->GetSize();
if( text->IsMirrored() )
size.x = -size.x;
EDA_COLOR_T color = BLACK; // not actually used, but needed by DrawGraphicText
if( text->IsMultilineAllowed() )
{
wxArrayString strings_list;
wxStringSplit( text->GetShownText(), strings_list, '\n' );
std::vector<wxPoint> positions;
positions.reserve( strings_list.Count() );
text->GetPositionsOfLinesOfMultilineText( positions, strings_list.Count() );
for( unsigned ii = 0; ii < strings_list.Count(); ii++ )
{
wxString& txt = strings_list.Item( ii );
DrawGraphicText( NULL, NULL, positions[ii], color,
txt, text->GetOrientation(), size,
text->GetHorizJustify(), text->GetVertJustify(),
text->GetThickness(), text->IsItalic(),
true,
vrml_text_callback );
}
}
else
{
DrawGraphicText( NULL, NULL, text->GetTextPosition(), color,
text->GetShownText(), text->GetOrientation(), size,
text->GetHorizJustify(), text->GetVertJustify(),
text->GetThickness(), text->IsItalic(),
true,
vrml_text_callback );
}
}
static void export_vrml_drawings( MODEL_VRML& aModel, BOARD* pcb )
{
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// draw graphic items
for( EDA_ITEM* drawing = pcb->m_Drawings; drawing != 0; drawing = drawing->Next() )
{
LAYER_ID layer = ( (DRAWSEGMENT*) drawing )->GetLayer();
if( layer != F_Cu && layer != B_Cu && layer != B_SilkS && layer != F_SilkS )
continue;
switch( drawing->Type() )
{
case PCB_LINE_T:
export_vrml_drawsegment( aModel, (DRAWSEGMENT*) drawing );
break;
case PCB_TEXT_T:
export_vrml_pcbtext( aModel, (TEXTE_PCB*) drawing );
break;
default:
break;
}
}
}
// board edges and cutouts
static void export_vrml_board( MODEL_VRML& aModel, BOARD* pcb )
{
CPOLYGONS_LIST bufferPcbOutlines; // stores the board main outlines
CPOLYGONS_LIST allLayerHoles; // Contains through holes, calculated only once
allLayerHoles.reserve( 20000 );
// Build a polygon from edge cut items
wxString msg;
if( !pcb->GetBoardPolygonOutlines( bufferPcbOutlines, allLayerHoles, &msg ) )
{
msg << wxT( "\n\n" ) <<
_( "Unable to calculate the board outlines;\n"
"fall back to using the board boundary box." );
wxMessageBox( msg );
}
double scale = aModel.scale;
int i = 0;
int seg;
// deal with the solid outlines
int nvert = bufferPcbOutlines.GetCornersCount();
while( i < nvert )
{
seg = aModel.board.NewContour();
if( seg < 0 )
{
msg << wxT( "\n\n" ) <<
_( "VRML Export Failed:\nCould not add outline to contours." );
wxMessageBox( msg );
return;
}
while( i < nvert )
{
if( bufferPcbOutlines[i].end_contour )
break;
aModel.board.AddVertex( seg, bufferPcbOutlines[i].x * scale,
-(bufferPcbOutlines[i].y * scale ) );
2014-06-08 10:35:42 +00:00
++i;
}
aModel.board.EnsureWinding( seg, false );
++i;
}
// deal with the holes
nvert = allLayerHoles.GetCornersCount();
i = 0;
while( i < nvert )
{
seg = aModel.holes.NewContour();
if( seg < 0 )
{
msg << wxT( "\n\n" ) <<
_( "VRML Export Failed:\nCould not add holes to contours." );
wxMessageBox( msg );
return;
}
while( i < nvert )
{
if( allLayerHoles[i].end_contour )
break;
aModel.holes.AddVertex( seg, allLayerHoles[i].x * scale,
-( allLayerHoles[i].y * scale ) );
2014-06-08 10:35:42 +00:00
++i;
}
aModel.holes.EnsureWinding( seg, true );
++i;
}
}
static void export_round_padstack( MODEL_VRML& aModel, BOARD* pcb,
double x, double y, double r,
LAYER_NUM bottom_layer, LAYER_NUM top_layer,
double hole )
{
LAYER_NUM layer = top_layer;
bool thru = true;
// if not a thru hole do not put a hole in the board
if( top_layer != F_Cu || bottom_layer != B_Cu )
thru = false;
2014-06-08 10:35:42 +00:00
if( thru && hole > 0 )
aModel.holes.AddCircle( x, -y, hole, true );
if( aModel.plainPCB )
return;
while( 1 )
{
if( layer == B_Cu )
{
2014-06-08 10:35:42 +00:00
aModel.bot_copper.AddCircle( x, -y, r );
if( hole > 0 && !thru )
aModel.bot_copper.AddCircle( x, -y, hole, true );
}
else if( layer == F_Cu )
{
2014-06-08 10:35:42 +00:00
aModel.top_copper.AddCircle( x, -y, r );
if( hole > 0 && !thru )
aModel.top_copper.AddCircle( x, -y, hole, true );
}
if( layer == bottom_layer )
break;
layer = bottom_layer;
}
}
static void export_vrml_via( MODEL_VRML& aModel, BOARD* pcb, const VIA* via )
{
double x, y, r, hole;
LAYER_ID top_layer, bottom_layer;
hole = via->GetDrillValue() * aModel.scale / 2.0;
r = via->GetWidth() * aModel.scale / 2.0;
x = via->GetStart().x * aModel.scale;
y = via->GetStart().y * aModel.scale;
* KIWAY Milestone A): Make major modules into DLL/DSOs. ! The initial testing of this commit should be done using a Debug build so that all the wxASSERT()s are enabled. Also, be sure and keep enabled the USE_KIWAY_DLLs option. The tree won't likely build without it. Turning it off is senseless anyways. If you want stable code, go back to a prior version, the one tagged with "stable". * Relocate all functionality out of the wxApp derivative into more finely targeted purposes: a) DLL/DSO specific b) PROJECT specific c) EXE or process specific d) configuration file specific data e) configuration file manipulations functions. All of this functionality was blended into an extremely large wxApp derivative and that was incompatible with the desire to support multiple concurrently loaded DLL/DSO's ("KIFACE")s and multiple concurrently open projects. An amazing amount of organization come from simply sorting each bit of functionality into the proper box. * Switch to wxConfigBase from wxConfig everywhere except instantiation. * Add classes KIWAY, KIFACE, KIFACE_I, SEARCH_STACK, PGM_BASE, PGM_KICAD, PGM_SINGLE_TOP, * Remove "Return" prefix on many function names. * Remove obvious comments from CMakeLists.txt files, and from else() and endif()s. * Fix building boost for use in a DSO on linux. * Remove some of the assumptions in the CMakeLists.txt files that windows had to be the host platform when building windows binaries. * Reduce the number of wxStrings being constructed at program load time via static construction. * Pass wxConfigBase* to all SaveSettings() and LoadSettings() functions so that these functions are useful even when the wxConfigBase comes from another source, as is the case in the KICAD_MANAGER_FRAME. * Move the setting of the KIPRJMOD environment variable into class PROJECT, so that it can be moved into a project variable soon, and out of FP_LIB_TABLE. * Add the KIWAY_PLAYER which is associated with a particular PROJECT, and all its child wxFrames and wxDialogs now have a Kiway() member function which returns a KIWAY& that that window tree branch is in support of. This is like wxWindows DNA in that child windows get this member with proper value at time of construction. * Anticipate some of the needs for milestones B) and C) and make code adjustments now in an effort to reduce work in those milestones. * No testing has been done for python scripting, since milestone C) has that being largely reworked and re-thought-out.
2014-03-20 00:42:08 +00:00
via->LayerPair( &top_layer, &bottom_layer );
// do not render a buried via
if( top_layer != F_Cu && bottom_layer != B_Cu )
return;
// Export the via padstack
export_round_padstack( aModel, pcb, x, y, r, bottom_layer, top_layer, hole );
}
static void export_vrml_tracks( MODEL_VRML& aModel, BOARD* pcb )
{
for( TRACK* track = pcb->m_Track; track; track = track->Next() )
{
if( track->Type() == PCB_VIA_T )
{
export_vrml_via( aModel, pcb, (const VIA*) track );
}
else if( ( track->GetLayer() == B_Cu || track->GetLayer() == F_Cu )
&& !aModel.plainPCB )
export_vrml_line( aModel, track->GetLayer(),
track->GetStart().x * aModel.scale,
track->GetStart().y * aModel.scale,
track->GetEnd().x * aModel.scale,
track->GetEnd().y * aModel.scale,
track->GetWidth() * aModel.scale );
}
}
static void export_vrml_zones( MODEL_VRML& aModel, BOARD* aPcb )
{
double scale = aModel.scale;
double x, y;
for( int ii = 0; ii < aPcb->GetAreaCount(); ii++ )
{
ZONE_CONTAINER* zone = aPcb->GetArea( ii );
VRML_LAYER* vl;
2014-06-08 10:35:42 +00:00
if( !GetLayer( aModel, zone->GetLayer(), &vl ) )
continue;
if( !zone->IsFilled() )
{
zone->SetFillMode( 0 ); // use filled polygons
zone->BuildFilledSolidAreasPolygons( aPcb );
}
const CPOLYGONS_LIST& poly = zone->GetFilledPolysList();
int nvert = poly.GetCornersCount();
int i = 0;
while( i < nvert )
{
int seg = vl->NewContour();
if( seg < 0 )
break;
while( i < nvert )
{
x = poly.GetX(i) * scale;
y = -(poly.GetY(i) * scale);
if( poly.IsEndContour(i) )
break;
2014-06-08 10:35:42 +00:00
if( !vl->AddVertex( seg, x, y ) )
throw( std::runtime_error( vl->GetError() ) );
++i;
}
2015-04-10 07:30:21 +00:00
vl->EnsureWinding( seg, false );
++i;
}
}
}
static void export_vrml_text_module( TEXTE_MODULE* module )
{
2011-12-12 08:37:05 +00:00
if( module->IsVisible() )
{
wxSize size = module->GetSize();
if( module->IsMirrored() )
size.x = -size.x; // Text is mirrored
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model_vrml->s_text_layer = module->GetLayer();
model_vrml->s_text_width = module->GetThickness();
DrawGraphicText( NULL, NULL, module->GetTextPosition(), BLACK,
module->GetShownText(), module->GetDrawRotation(), size,
module->GetHorizJustify(), module->GetVertJustify(),
module->GetThickness(), module->IsItalic(),
true,
vrml_text_callback );
}
}
static void export_vrml_edge_module( MODEL_VRML& aModel, EDGE_MODULE* aOutline,
double aOrientation )
{
LAYER_NUM layer = aOutline->GetLayer();
double x = aOutline->GetStart().x * aModel.scale;
double y = aOutline->GetStart().y * aModel.scale;
double xf = aOutline->GetEnd().x * aModel.scale;
double yf = aOutline->GetEnd().y * aModel.scale;
double w = aOutline->GetWidth() * aModel.scale;
switch( aOutline->GetShape() )
{
case S_SEGMENT:
export_vrml_line( aModel, layer, x, y, xf, yf, w );
break;
case S_ARC:
export_vrml_arc( aModel, layer, x, y, xf, yf, w, aOutline->GetAngle() / 10 );
break;
case S_CIRCLE:
export_vrml_circle( aModel, layer, x, y, xf, yf, w );
break;
case S_POLYGON:
{
VRML_LAYER* vl;
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if( !GetLayer( aModel, layer, &vl ) )
break;
2014-06-08 10:35:42 +00:00
int nvert = aOutline->GetPolyPoints().size() - 1;
int i = 0;
if( nvert < 3 ) break;
int seg = vl->NewContour();
if( seg < 0 )
break;
while( i < nvert )
{
CPolyPt corner( aOutline->GetPolyPoints()[i] );
RotatePoint( &corner.x, &corner.y, aOrientation );
corner.x += aOutline->GetPosition().x;
corner.y += aOutline->GetPosition().y;
x = corner.x * aModel.scale;
y = - ( corner.y * aModel.scale );
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if( !vl->AddVertex( seg, x, y ) )
throw( std::runtime_error( vl->GetError() ) );
++i;
}
vl->EnsureWinding( seg, false );
}
break;
default:
break;
}
}
2014-06-08 10:35:42 +00:00
static void export_vrml_padshape( MODEL_VRML& aModel, VRML_LAYER* aTinLayer, D_PAD* aPad )
{
// The (maybe offset) pad position
* KIWAY Milestone A): Make major modules into DLL/DSOs. ! The initial testing of this commit should be done using a Debug build so that all the wxASSERT()s are enabled. Also, be sure and keep enabled the USE_KIWAY_DLLs option. The tree won't likely build without it. Turning it off is senseless anyways. If you want stable code, go back to a prior version, the one tagged with "stable". * Relocate all functionality out of the wxApp derivative into more finely targeted purposes: a) DLL/DSO specific b) PROJECT specific c) EXE or process specific d) configuration file specific data e) configuration file manipulations functions. All of this functionality was blended into an extremely large wxApp derivative and that was incompatible with the desire to support multiple concurrently loaded DLL/DSO's ("KIFACE")s and multiple concurrently open projects. An amazing amount of organization come from simply sorting each bit of functionality into the proper box. * Switch to wxConfigBase from wxConfig everywhere except instantiation. * Add classes KIWAY, KIFACE, KIFACE_I, SEARCH_STACK, PGM_BASE, PGM_KICAD, PGM_SINGLE_TOP, * Remove "Return" prefix on many function names. * Remove obvious comments from CMakeLists.txt files, and from else() and endif()s. * Fix building boost for use in a DSO on linux. * Remove some of the assumptions in the CMakeLists.txt files that windows had to be the host platform when building windows binaries. * Reduce the number of wxStrings being constructed at program load time via static construction. * Pass wxConfigBase* to all SaveSettings() and LoadSettings() functions so that these functions are useful even when the wxConfigBase comes from another source, as is the case in the KICAD_MANAGER_FRAME. * Move the setting of the KIPRJMOD environment variable into class PROJECT, so that it can be moved into a project variable soon, and out of FP_LIB_TABLE. * Add the KIWAY_PLAYER which is associated with a particular PROJECT, and all its child wxFrames and wxDialogs now have a Kiway() member function which returns a KIWAY& that that window tree branch is in support of. This is like wxWindows DNA in that child windows get this member with proper value at time of construction. * Anticipate some of the needs for milestones B) and C) and make code adjustments now in an effort to reduce work in those milestones. * No testing has been done for python scripting, since milestone C) has that being largely reworked and re-thought-out.
2014-03-20 00:42:08 +00:00
wxPoint pad_pos = aPad->ShapePos();
double pad_x = pad_pos.x * aModel.scale;
double pad_y = pad_pos.y * aModel.scale;
wxSize pad_delta = aPad->GetDelta();
double pad_dx = pad_delta.x * aModel.scale / 2.0;
double pad_dy = pad_delta.y * aModel.scale / 2.0;
double pad_w = aPad->GetSize().x * aModel.scale / 2.0;
double pad_h = aPad->GetSize().y * aModel.scale / 2.0;
switch( aPad->GetShape() )
{
case PAD_CIRCLE:
2014-06-08 10:35:42 +00:00
if( !aTinLayer->AddCircle( pad_x, -pad_y, pad_w, false ) )
throw( std::runtime_error( aTinLayer->GetError() ) );
break;
case PAD_OVAL:
2014-06-08 10:35:42 +00:00
if( !aTinLayer->AddSlot( pad_x, -pad_y, pad_w * 2.0, pad_h * 2.0,
aPad->GetOrientation()/10.0, false ) )
throw( std::runtime_error( aTinLayer->GetError() ) );
break;
case PAD_RECT:
// Just to be sure :D
pad_dx = 0;
pad_dy = 0;
case PAD_TRAPEZOID:
{
double coord[8] =
{
-pad_w + pad_dy, -pad_h - pad_dx,
-pad_w - pad_dy, pad_h + pad_dx,
+pad_w - pad_dy, -pad_h + pad_dx,
+pad_w + pad_dy, pad_h - pad_dx
};
for( int i = 0; i < 4; i++ )
{
RotatePoint( &coord[i * 2], &coord[i * 2 + 1], aPad->GetOrientation() );
coord[i * 2] += pad_x;
coord[i * 2 + 1] += pad_y;
}
int lines;
2014-06-08 10:35:42 +00:00
lines = aTinLayer->NewContour();
if( lines < 0 )
throw( std::runtime_error( aTinLayer->GetError() ) );
if( !aTinLayer->AddVertex( lines, coord[0], -coord[1] ) )
throw( std::runtime_error( aTinLayer->GetError() ) );
if( !aTinLayer->AddVertex( lines, coord[4], -coord[5] ) )
throw( std::runtime_error( aTinLayer->GetError() ) );
if( !aTinLayer->AddVertex( lines, coord[6], -coord[7] ) )
throw( std::runtime_error( aTinLayer->GetError() ) );
2014-06-08 10:35:42 +00:00
if( !aTinLayer->AddVertex( lines, coord[2], -coord[3] ) )
throw( std::runtime_error( aTinLayer->GetError() ) );
if( !aTinLayer->EnsureWinding( lines, false ) )
throw( std::runtime_error( aTinLayer->GetError() ) );
break;
}
default:
2014-06-08 10:35:42 +00:00
break;
}
}
static void export_vrml_pad( MODEL_VRML& aModel, BOARD* pcb, D_PAD* aPad )
{
double hole_drill_w = (double) aPad->GetDrillSize().x * aModel.scale / 2.0;
double hole_drill_h = (double) aPad->GetDrillSize().y * aModel.scale / 2.0;
double hole_drill = std::min( hole_drill_w, hole_drill_h );
double hole_x = aPad->GetPosition().x * aModel.scale;
double hole_y = aPad->GetPosition().y * aModel.scale;
2012-02-19 04:02:19 +00:00
// Export the hole on the edge layer
if( hole_drill > 0 )
{
bool pth = false;
if( ( aPad->GetAttribute() != PAD_HOLE_NOT_PLATED )
&& !aModel.plainPCB )
pth = true;
if( aPad->GetDrillShape() == PAD_DRILL_OBLONG )
{
2012-02-19 04:02:19 +00:00
// Oblong hole (slot)
aModel.holes.AddSlot( hole_x, -hole_y, hole_drill_w * 2.0, hole_drill_h * 2.0,
aPad->GetOrientation()/10.0, true, pth );
if( pth )
aModel.plated_holes.AddSlot( hole_x, -hole_y,
hole_drill_w * 2.0, hole_drill_h * 2.0,
aPad->GetOrientation()/10.0, true, false );
}
else
{
// Drill a round hole
aModel.holes.AddCircle( hole_x, -hole_y, hole_drill, true, pth );
if( pth )
aModel.plated_holes.AddCircle( hole_x, -hole_y, hole_drill, true, false );
}
}
if( aModel.plainPCB )
return;
2012-02-19 04:02:19 +00:00
// The pad proper, on the selected layers
LSET layer_mask = aPad->GetLayerSet();
2012-02-19 04:02:19 +00:00
if( layer_mask[B_Cu] )
{
2014-06-08 10:35:42 +00:00
export_vrml_padshape( aModel, &aModel.bot_tin, aPad );
}
if( layer_mask[F_Cu] )
{
2014-06-08 10:35:42 +00:00
export_vrml_padshape( aModel, &aModel.top_tin, aPad );
}
}
2012-02-19 04:02:19 +00:00
// From axis/rot to quaternion
static void build_quat( double x, double y, double z, double a, double q[4] )
{
double sina = sin( a / 2 );
q[0] = x * sina;
q[1] = y * sina;
q[2] = z * sina;
q[3] = cos( a / 2 );
}
2012-02-19 04:02:19 +00:00
// From quaternion to axis/rot
static void from_quat( double q[4], double rot[4] )
{
rot[3] = acos( q[3] ) * 2;
for( int i = 0; i < 3; i++ )
{
rot[i] = q[i] / sin( rot[3] / 2 );
}
}
2012-02-19 04:02:19 +00:00
// Quaternion composition
static void compose_quat( double q1[4], double q2[4], double qr[4] )
{
double tmp[4];
tmp[0] = q2[3] * q1[0] + q2[0] * q1[3] + q2[1] * q1[2] - q2[2] * q1[1];
tmp[1] = q2[3] * q1[1] + q2[1] * q1[3] + q2[2] * q1[0] - q2[0] * q1[2];
tmp[2] = q2[3] * q1[2] + q2[2] * q1[3] + q2[0] * q1[1] - q2[1] * q1[0];
tmp[3] = q2[3] * q1[3] - q2[0] * q1[0] - q2[1] * q1[1] - q2[2] * q1[2];
qr[0] = tmp[0];
qr[1] = tmp[1];
qr[2] = tmp[2];
qr[3] = tmp[3];
}
static void export_vrml_module( MODEL_VRML& aModel, BOARD* aPcb, MODULE* aModule,
std::ofstream& aOutputFile, double aVRMLModelsToBiu,
bool aExport3DFiles, bool aUseRelativePaths,
const wxString& a3D_Subdir )
{
if( !aModel.plainPCB )
{
// Reference and value
if( aModule->Reference().IsVisible() )
export_vrml_text_module( &aModule->Reference() );
if( aModule->Value().IsVisible() )
export_vrml_text_module( &aModule->Value() );
// Export module edges
for( EDA_ITEM* item = aModule->GraphicalItems(); item; item = item->Next() )
{
switch( item->Type() )
{
case PCB_MODULE_TEXT_T:
export_vrml_text_module( static_cast<TEXTE_MODULE*>( item ) );
break;
case PCB_MODULE_EDGE_T:
export_vrml_edge_module( aModel, static_cast<EDGE_MODULE*>( item ),
aModule->GetOrientation() );
break;
default:
break;
}
}
}
2012-02-19 04:02:19 +00:00
// Export pads
for( D_PAD* pad = aModule->Pads(); pad; pad = pad->Next() )
export_vrml_pad( aModel, aPcb, pad );
bool isFlipped = aModule->GetLayer() == B_Cu;
2012-02-19 04:02:19 +00:00
// Export the object VRML model(s)
for( S3D_MASTER* vrmlm = aModule->Models(); vrmlm; vrmlm = vrmlm->Next() )
{
if( !vrmlm->Is3DType( S3D_MASTER::FILE3D_VRML ) )
continue;
wxFileName modelFileName = vrmlm->GetShape3DFullFilename();
wxFileName destFileName( a3D_Subdir, modelFileName.GetName(), modelFileName.GetExt() );
// Only copy VRML files.
if( modelFileName.FileExists() && modelFileName.GetExt() == wxT( "wrl" ) )
{
if( aExport3DFiles )
{
wxDateTime srcModTime = modelFileName.GetModificationTime();
wxDateTime destModTime = srcModTime;
destModTime.SetToCurrent();
if( destFileName.FileExists() )
destModTime = destFileName.GetModificationTime();
// Only copy the file if it doesn't exist or has been modified. This eliminates
// the redundant file copies.
if( srcModTime != destModTime )
{
wxLogDebug( wxT( "Copying 3D model %s to %s." ),
GetChars( modelFileName.GetFullPath() ),
GetChars( destFileName.GetFullPath() ) );
if( !wxCopyFile( modelFileName.GetFullPath(), destFileName.GetFullPath() ) )
continue;
}
}
/* Calculate 3D shape rotation:
* this is the rotation parameters, with an additional 180 deg rotation
* for footprints that are flipped
* When flipped, axis rotation is the horizontal axis (X axis)
*/
double rotx = -vrmlm->m_MatRotation.x;
double roty = -vrmlm->m_MatRotation.y;
double rotz = -vrmlm->m_MatRotation.z;
if( isFlipped )
{
rotx += 180.0;
roty = -roty;
rotz = -rotz;
}
// Do some quaternion munching
double q1[4], q2[4], rot[4];
build_quat( 1, 0, 0, DEG2RAD( rotx ), q1 );
build_quat( 0, 1, 0, DEG2RAD( roty ), q2 );
compose_quat( q1, q2, q1 );
build_quat( 0, 0, 1, DEG2RAD( rotz ), q2 );
compose_quat( q1, q2, q1 );
// Note here aModule->GetOrientation() is in 0.1 degrees,
// so module rotation has to be converted to radians
build_quat( 0, 0, 1, DECIDEG2RAD( aModule->GetOrientation() ), q2 );
compose_quat( q1, q2, q1 );
from_quat( q1, rot );
aOutputFile << "Transform {\n";
// A null rotation would fail the acos!
if( rot[3] != 0.0 )
{
aOutputFile << " rotation " << std::setprecision( 3 );
aOutputFile << rot[0] << " " << rot[1] << " " << rot[2] << " " << rot[3] << "\n";
}
// adjust 3D shape local offset position
// they are given in inch, so they are converted in board IU.
double offsetx = vrmlm->m_MatPosition.x * IU_PER_MILS * 1000.0;
double offsety = vrmlm->m_MatPosition.y * IU_PER_MILS * 1000.0;
double offsetz = vrmlm->m_MatPosition.z * IU_PER_MILS * 1000.0;
if( isFlipped )
offsetz = -offsetz;
else // In normal mode, Y axis is reversed in Pcbnew.
offsety = -offsety;
RotatePoint( &offsetx, &offsety, aModule->GetOrientation() );
aOutputFile << " translation " << std::setprecision( aModel.precision );
aOutputFile << ( ( offsetx + aModule->GetPosition().x ) *
aModel.scale + aModel.tx ) << " ";
aOutputFile << ( -(offsety + aModule->GetPosition().y) *
aModel.scale - aModel.ty ) << " ";
aOutputFile << ( (offsetz * aModel.scale ) +
aModel.GetLayerZ( aModule->GetLayer() ) ) << "\n";
aOutputFile << " scale ";
aOutputFile << ( vrmlm->m_MatScale.x * aVRMLModelsToBiu ) << " ";
aOutputFile << ( vrmlm->m_MatScale.y * aVRMLModelsToBiu ) << " ";
aOutputFile << ( vrmlm->m_MatScale.z * aVRMLModelsToBiu ) << "\n";
aOutputFile << " children [\n Inline {\n url \"";
if( aUseRelativePaths )
{
wxFileName tmp = destFileName;
tmp.SetExt( wxT( "" ) );
tmp.SetName( wxT( "" ) );
tmp.RemoveLastDir();
destFileName.MakeRelativeTo( tmp.GetPath() );
}
wxString fn = destFileName.GetFullPath();
fn.Replace( wxT( "\\" ), wxT( "/" ) );
aOutputFile << TO_UTF8( fn ) << "\"\n } ]\n";
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aOutputFile << " }\n";
}
}
}
bool PCB_EDIT_FRAME::ExportVRML_File( const wxString& aFullFileName, double aMMtoWRMLunit,
bool aExport3DFiles, bool aUseRelativePaths,
bool aUsePlainPCB, const wxString& a3D_Subdir )
{
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wxString msg;
BOARD* pcb = GetBoard();
bool ok = true;
MODEL_VRML model3d;
model3d.plainPCB = aUsePlainPCB;
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model_vrml = &model3d;
std::ofstream output_file;
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try
{
output_file.exceptions( std::ofstream::failbit );
output_file.open( TO_UTF8( aFullFileName ), std::ios_base::out );
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// Switch the locale to standard C (needed to print floating point numbers like 1.3)
SetLocaleTo_C_standard();
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// Begin with the usual VRML boilerplate
wxString fn = aFullFileName;
fn.Replace( wxT( "\\" ), wxT( "/" ) );
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output_file << "#VRML V2.0 utf8\n";
output_file << "WorldInfo {\n";
output_file << " title \"" << TO_UTF8( fn ) << " - Generated by Pcbnew\"\n";
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output_file << "}\n";
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// Set the VRML world scale factor
model3d.SetScale( aMMtoWRMLunit );
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output_file << "Transform {\n";
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// compute the offset to center the board on (0, 0, 0)
// XXX - NOTE: we should allow the user a GUI option to specify the offset
EDA_RECT bbbox = pcb->ComputeBoundingBox();
model3d.SetOffset( -model3d.scale * bbbox.Centre().x, model3d.scale * bbbox.Centre().y );
++PCBNew * Removed Pcb_Frame argument from BOARD() constructor, since it precludes having a BOARD being edited by more than one editor, it was a bad design. And this meant removing m_PcbFrame from BOARD. * removed BOARD::SetWindowFrame(), and BOARD::m_PcbFrame * Removed the global BOARD_DESIGN_SETTINGS which was in class_board.cpp * added BOARD_DESIGN_SETTINGS to the BOARD class, a full instance * a couple dialogs now only change BOARD_DESIGN_SETTINGS when OK is pressed, such as dialog_mask_clearance, dialog_drc, etc. * Removed common/pcbcommon.cpp's int g_CurrentVersionPCB = 1 and replaced it with build_version.h's #define BOARD_FILE_VERSION, although there may be a better place for this constant. * Made the public functions in PARAM_CFG_ARRAY be type const. void SaveParam(..) const and void ReadParam(..) const * PARAM_CFG_BASE now has virtual destructor since we have various way of destroying the derived class and boost::ptr_vector must be told about this. * Pass const PARAM_CFG_ARRAY& instead of PARAM_CFG_ARRAY so that we can use an automatic PARAM_CFG_ARRAY which is on the stack.\ * PCB_EDIT_FRAME::GetProjectFileParameters() may no longer cache the array, since it has to access the current BOARD and the BOARD can change. Remember BOARD_DESIGN_SETTINGS are now in the BOARD. * Made the m_BoundingBox member private, this was a brutally hard task, and indicative of the lack of commitment to accessors and object oriented design on the part of KiCad developers. We must do better. Added BOARD::GetBoundingBox, SetBoundingBox(), ComputeBoundingBox(). * Added PCB_BASE_FRAME::GetBoardBoundingBox() which calls BOARD::ComputeBoundingBox()
2011-12-05 06:15:33 +00:00
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output_file << " children [\n";
++PCBNew * Removed Pcb_Frame argument from BOARD() constructor, since it precludes having a BOARD being edited by more than one editor, it was a bad design. And this meant removing m_PcbFrame from BOARD. * removed BOARD::SetWindowFrame(), and BOARD::m_PcbFrame * Removed the global BOARD_DESIGN_SETTINGS which was in class_board.cpp * added BOARD_DESIGN_SETTINGS to the BOARD class, a full instance * a couple dialogs now only change BOARD_DESIGN_SETTINGS when OK is pressed, such as dialog_mask_clearance, dialog_drc, etc. * Removed common/pcbcommon.cpp's int g_CurrentVersionPCB = 1 and replaced it with build_version.h's #define BOARD_FILE_VERSION, although there may be a better place for this constant. * Made the public functions in PARAM_CFG_ARRAY be type const. void SaveParam(..) const and void ReadParam(..) const * PARAM_CFG_BASE now has virtual destructor since we have various way of destroying the derived class and boost::ptr_vector must be told about this. * Pass const PARAM_CFG_ARRAY& instead of PARAM_CFG_ARRAY so that we can use an automatic PARAM_CFG_ARRAY which is on the stack.\ * PCB_EDIT_FRAME::GetProjectFileParameters() may no longer cache the array, since it has to access the current BOARD and the BOARD can change. Remember BOARD_DESIGN_SETTINGS are now in the BOARD. * Made the m_BoundingBox member private, this was a brutally hard task, and indicative of the lack of commitment to accessors and object oriented design on the part of KiCad developers. We must do better. Added BOARD::GetBoundingBox, SetBoundingBox(), ComputeBoundingBox(). * Added PCB_BASE_FRAME::GetBoardBoundingBox() which calls BOARD::ComputeBoundingBox()
2011-12-05 06:15:33 +00:00
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// Preliminary computation: the z value for each layer
compute_layer_Zs( model3d, pcb );
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// board edges and cutouts
export_vrml_board( model3d, pcb );
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// Drawing and text on the board
if( !aUsePlainPCB )
export_vrml_drawings( model3d, pcb );
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// Export vias and trackage
export_vrml_tracks( model3d, pcb );
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// Export zone fills
if( !aUsePlainPCB )
export_vrml_zones( model3d, pcb);
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/* scaling factor to convert 3D models to board units (decimils)
* Usually we use Wings3D to create thems.
* One can consider the 3D units is 0.1 inch (2.54 mm)
* So the scaling factor from 0.1 inch to board units
* is 2.54 * aMMtoWRMLunit
*/
double wrml_3D_models_scaling_factor = 2.54 * aMMtoWRMLunit;
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// Export footprints
for( MODULE* module = pcb->m_Modules; module != 0; module = module->Next() )
export_vrml_module( model3d, pcb, module, output_file, wrml_3D_models_scaling_factor,
aExport3DFiles, aUseRelativePaths, a3D_Subdir );
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// write out the board and all layers
write_layers( model3d, output_file, pcb );
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// Close the outer 'transform' node
output_file << "]\n}\n";
}
catch( const std::exception& e )
{
wxString msg;
msg << _( "IDF Export Failed:\n" ) << FROM_UTF8( e.what() );
wxMessageBox( msg );
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ok = false;
}
// End of work
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output_file.exceptions( std::ios_base::goodbit );
output_file.close();
SetLocaleTo_Default(); // revert to the current locale
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return ok;
}