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Commit cbb0e2ad authored by unknown's avatar unknown Committed by jean-pierre charras
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Rework on 3D viewer. Fix some issues, some optimizations and better rendering.

parent 9004ed88
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Showing with 636 additions and 374 deletions
3d-viewer/3d_canvas.h
View file @ cbb0e2ad
...@@ -43,6 +43,7 @@ ...@@ -43,6 +43,7 @@
#endif #endif
#include <3d_struct.h> #include <3d_struct.h>
#include <class_module.h>
class BOARD_DESIGN_SETTINGS; class BOARD_DESIGN_SETTINGS;
class EDA_3D_FRAME; class EDA_3D_FRAME;
...@@ -274,6 +275,32 @@ private: ...@@ -274,6 +275,32 @@ private:
*/ */
void Draw3DPadHole( const D_PAD * aPad ); void Draw3DPadHole( const D_PAD * aPad );
/**
* function Render3DComponentShape
* insert mesh in gl list
* @param module
* @param aIsRenderingJustNonTransparentObjects = true to load non transparent objects
* @param aIsRenderingJustTransparentObjects = true to load non transparent objects
* @param aSideToLoad = false will load not fliped, true will load fliped objects
* in openGL, transparent objects should be drawn *after* non transparent objects
*/
void Render3DComponentShape( MODULE* module,
bool aIsRenderingJustNonTransparentObjects,
bool aIsRenderingJustTransparentObjects,
bool aSideToLoad );
/**
* function Read3DComponentShape
* read the 3D component shape(s) of the footprint (physical shape).
* @param module
* @param model_parsers_list = list of each new model loaded
* @param model_filename_list = list of each new filename model loaded
* @return true if load was succeeded, false otherwise
*/
bool Read3DComponentShape( MODULE* module,
std::vector<S3D_MODEL_PARSER *>& model_parsers_list,
std::vector<wxString>& model_filename_list );
void GenerateFakeShadowsTextures(); void GenerateFakeShadowsTextures();
DECLARE_EVENT_TABLE() DECLARE_EVENT_TABLE()
......
3d-viewer/3d_class.cpp
View file @ cbb0e2ad
...@@ -28,26 +28,9 @@ ...@@ -28,26 +28,9 @@
#include <fctsys.h> #include <fctsys.h>
#include <3d_viewer.h> #include "3d_viewer.h"
#include <3d_struct.h> #include "3d_struct.h"
#include "modelparsers.h"
bool S3D_MASTER::IsOpenGlAllowed()
{
if( m_loadNonTransparentObjects ) // return true for non transparent objects only
{
if( m_lastTransparency == 0.0 )
return true;
}
if( m_loadTransparentObjects ) // return true for transparent objects only
{
if( m_lastTransparency != 0.0 )
return true;
}
return false;
}
void S3D_MASTER::Insert( S3D_MATERIAL* aMaterial ) void S3D_MASTER::Insert( S3D_MATERIAL* aMaterial )
...@@ -72,9 +55,10 @@ S3D_MASTER::S3D_MASTER( EDA_ITEM* aParent ) : ...@@ -72,9 +55,10 @@ S3D_MASTER::S3D_MASTER( EDA_ITEM* aParent ) :
EDA_ITEM( aParent, NOT_USED ) EDA_ITEM( aParent, NOT_USED )
{ {
m_MatScale.x = m_MatScale.y = m_MatScale.z = 1.0; m_MatScale.x = m_MatScale.y = m_MatScale.z = 1.0;
m_lastTransparency = 0.0;
m_3D_Drawings = NULL; m_3D_Drawings = NULL;
m_Materials = NULL; m_Materials = NULL;
m_parser = NULL;
m_ShapeType = FILE3D_NONE; m_ShapeType = FILE3D_NONE;
m_use_modelfile_diffuseColor = true; m_use_modelfile_diffuseColor = true;
...@@ -83,8 +67,6 @@ S3D_MASTER::S3D_MASTER( EDA_ITEM* aParent ) : ...@@ -83,8 +67,6 @@ S3D_MASTER::S3D_MASTER( EDA_ITEM* aParent ) :
m_use_modelfile_ambientIntensity = true; m_use_modelfile_ambientIntensity = true;
m_use_modelfile_transparency = true; m_use_modelfile_transparency = true;
m_use_modelfile_shininess = true; m_use_modelfile_shininess = true;
m_loadTransparentObjects = true;
m_loadNonTransparentObjects = true;
} }
......
3d-viewer/3d_draw.cpp
View file @ cbb0e2ad
...@@ -547,11 +547,7 @@ void EDA_3D_CANVAS::Redraw() ...@@ -547,11 +547,7 @@ void EDA_3D_CANVAS::Redraw()
glEnable(GL_COLOR_MATERIAL); glEnable(GL_COLOR_MATERIAL);
SetOpenGlDefaultMaterial(); SetOpenGlDefaultMaterial();
glDisable( GL_BLEND );
glEnable( GL_BLEND );
glBlendFunc( GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA );
glColor4f( 1.0, 1.0, 1.0, 1.0 );
// Draw Solid Shapes // Draw Solid Shapes
if( isEnabled( FL_MODULE ) ) if( isEnabled( FL_MODULE ) )
...@@ -562,6 +558,9 @@ void EDA_3D_CANVAS::Redraw() ...@@ -562,6 +558,9 @@ void EDA_3D_CANVAS::Redraw()
glCallList( m_glLists[GL_ID_3DSHAPES_SOLID_FRONT] ); glCallList( m_glLists[GL_ID_3DSHAPES_SOLID_FRONT] );
} }
glEnable( GL_BLEND );
glBlendFunc( GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA );
// Grid uses transparency: draw it after all objects // Grid uses transparency: draw it after all objects
if( isEnabled( FL_GRID ) && m_glLists[GL_ID_GRID] ) if( isEnabled( FL_GRID ) && m_glLists[GL_ID_GRID] )
glCallList( m_glLists[GL_ID_GRID] ); glCallList( m_glLists[GL_ID_GRID] );
...@@ -572,6 +571,8 @@ void EDA_3D_CANVAS::Redraw() ...@@ -572,6 +571,8 @@ void EDA_3D_CANVAS::Redraw()
if( isEnabled( FL_MODULE ) && m_glLists[GL_ID_3DSHAPES_TRANSP_FRONT] ) if( isEnabled( FL_MODULE ) && m_glLists[GL_ID_3DSHAPES_TRANSP_FRONT] )
glCallList( m_glLists[GL_ID_3DSHAPES_TRANSP_FRONT] ); glCallList( m_glLists[GL_ID_3DSHAPES_TRANSP_FRONT] );
glDisable( GL_BLEND );
// Draw Board Shadow // Draw Board Shadow
if( isEnabled( FL_MODULE ) && isRealisticMode() && if( isEnabled( FL_MODULE ) && isRealisticMode() &&
isEnabled( FL_RENDER_SHADOWS ) ) isEnabled( FL_RENDER_SHADOWS ) )
...@@ -667,7 +668,7 @@ void EDA_3D_CANVAS::BuildShadowList( GLuint aFrontList, GLuint aBacklist, GLuint ...@@ -667,7 +668,7 @@ void EDA_3D_CANVAS::BuildShadowList( GLuint aFrontList, GLuint aBacklist, GLuint
} }
void EDA_3D_CANVAS::BuildBoard3DView(GLuint aBoardList, GLuint aBodyOnlyList) void EDA_3D_CANVAS::BuildBoard3DView( GLuint aBoardList, GLuint aBodyOnlyList )
{ {
BOARD* pcb = GetBoard(); BOARD* pcb = GetBoard();
...@@ -1315,6 +1316,7 @@ void EDA_3D_CANVAS::CreateDrawGL_List() ...@@ -1315,6 +1316,7 @@ void EDA_3D_CANVAS::CreateDrawGL_List()
// For testing purpose only, display calculation time to generate 3D data // For testing purpose only, display calculation time to generate 3D data
// #define PRINT_CALCULATION_TIME // #define PRINT_CALCULATION_TIME
#ifdef PRINT_CALCULATION_TIME #ifdef PRINT_CALCULATION_TIME
unsigned strtime = GetRunningMicroSecs(); unsigned strtime = GetRunningMicroSecs();
#endif #endif
...@@ -1355,7 +1357,13 @@ void EDA_3D_CANVAS::CreateDrawGL_List() ...@@ -1355,7 +1357,13 @@ void EDA_3D_CANVAS::CreateDrawGL_List()
if( m_glLists[GL_ID_3DSHAPES_TRANSP_FRONT] ) if( m_glLists[GL_ID_3DSHAPES_TRANSP_FRONT] )
glDeleteLists( m_glLists[GL_ID_3DSHAPES_TRANSP_FRONT], 1 ); glDeleteLists( m_glLists[GL_ID_3DSHAPES_TRANSP_FRONT], 1 );
bool useMaterial = g_Parm_3D_Visu.GetFlag( FL_RENDER_MATERIAL );
if( useMaterial )
m_glLists[GL_ID_3DSHAPES_TRANSP_FRONT] = glGenLists( 1 ); m_glLists[GL_ID_3DSHAPES_TRANSP_FRONT] = glGenLists( 1 );
else
m_glLists[GL_ID_3DSHAPES_TRANSP_FRONT] = 0;
BuildFootprintShape3DList( m_glLists[GL_ID_3DSHAPES_SOLID_FRONT], BuildFootprintShape3DList( m_glLists[GL_ID_3DSHAPES_SOLID_FRONT],
m_glLists[GL_ID_3DSHAPES_TRANSP_FRONT], false ); m_glLists[GL_ID_3DSHAPES_TRANSP_FRONT], false );
...@@ -1364,6 +1372,7 @@ void EDA_3D_CANVAS::CreateDrawGL_List() ...@@ -1364,6 +1372,7 @@ void EDA_3D_CANVAS::CreateDrawGL_List()
m_glLists[GL_ID_SHADOW_FRONT] = glGenLists( 1 ); m_glLists[GL_ID_SHADOW_FRONT] = glGenLists( 1 );
m_glLists[GL_ID_SHADOW_BACK] = glGenLists( 1 ); m_glLists[GL_ID_SHADOW_BACK] = glGenLists( 1 );
m_glLists[GL_ID_SHADOW_BOARD] = glGenLists( 1 ); m_glLists[GL_ID_SHADOW_BOARD] = glGenLists( 1 );
BuildShadowList(m_glLists[GL_ID_SHADOW_FRONT], m_glLists[GL_ID_SHADOW_BACK], m_glLists[GL_ID_SHADOW_BOARD]); BuildShadowList(m_glLists[GL_ID_SHADOW_FRONT], m_glLists[GL_ID_SHADOW_BACK], m_glLists[GL_ID_SHADOW_BOARD]);
CheckGLError( __FILE__, __LINE__ ); CheckGLError( __FILE__, __LINE__ );
...@@ -1382,65 +1391,155 @@ void EDA_3D_CANVAS::CreateDrawGL_List() ...@@ -1382,65 +1391,155 @@ void EDA_3D_CANVAS::CreateDrawGL_List()
void EDA_3D_CANVAS::BuildFootprintShape3DList( GLuint aOpaqueList, void EDA_3D_CANVAS::BuildFootprintShape3DList( GLuint aOpaqueList,
GLuint aTransparentList, bool aSideToLoad) GLuint aTransparentList, bool aSideToLoad)
{ {
#ifdef PRINT_CALCULATION_TIME
unsigned strtime = GetRunningMicroSecs();
#endif
// This lists are used to just load once of each filename model
std::vector<S3D_MODEL_PARSER *> model_parsers_list;
std::vector<wxString> model_filename_list;
BOARD* pcb = GetBoard();
for( MODULE* module = pcb->m_Modules; module; module = module->Next() )
Read3DComponentShape( module, model_parsers_list, model_filename_list );
#ifdef PRINT_CALCULATION_TIME
{
unsigned endtime = GetRunningMicroSecs();
wxString msg;
msg.Printf( " Read3DComponentShape total time %.1f ms", (double) (endtime - strtime) / 1000 );
DBG( printf( "%s\n", (const char*)msg.c_str() ) );
}
#endif
#ifdef PRINT_CALCULATION_TIME
strtime = GetRunningMicroSecs();
#endif
bool useMaterial = g_Parm_3D_Visu.GetFlag( FL_RENDER_MATERIAL );
if( useMaterial )
{
// aOpaqueList is the gl list for non transparent items // aOpaqueList is the gl list for non transparent items
// aTransparentList is the gl list for non transparent items, // aTransparentList is the gl list for non transparent items,
// which need to be drawn after all other items // which need to be drawn after all other items
BOARD* pcb = GetBoard();
glNewList( aOpaqueList, GL_COMPILE ); glNewList( aOpaqueList, GL_COMPILE );
bool loadTransparentObjects = false; bool loadOpaqueObjects = true;
for( MODULE* module = pcb->m_Modules; module; module = module->Next() ) for( MODULE* module = pcb->m_Modules; module; module = module->Next() )
module->ReadAndInsert3DComponentShape( this, !loadTransparentObjects, Render3DComponentShape( module, loadOpaqueObjects,
loadTransparentObjects, aSideToLoad ); !loadOpaqueObjects, aSideToLoad );
glEndList(); glEndList();
glNewList( aTransparentList, GL_COMPILE ); glNewList( aTransparentList, GL_COMPILE );
loadTransparentObjects = true; bool loadTransparentObjects = true;
for( MODULE* module = pcb->m_Modules; module; module = module->Next() ) for( MODULE* module = pcb->m_Modules; module; module = module->Next() )
module->ReadAndInsert3DComponentShape( this, !loadTransparentObjects, Render3DComponentShape( module, !loadTransparentObjects,
loadTransparentObjects, aSideToLoad ); loadTransparentObjects, aSideToLoad );
glEndList(); glEndList();
}
else
{
// Just create one list
glNewList( aOpaqueList, GL_COMPILE );
for( MODULE* module = pcb->m_Modules; module; module = module->Next() )
Render3DComponentShape( module, false, false, aSideToLoad );
glEndList();
}
#ifdef PRINT_CALCULATION_TIME
{
unsigned endtime = GetRunningMicroSecs();
wxString msg;
msg.Printf( " Render3DComponentShape total time %.1f ms", (double) (endtime - strtime) / 1000 );
DBG( printf( "%s\n", (const char*)msg.c_str() ) );
}
#endif
} }
void MODULE::ReadAndInsert3DComponentShape( EDA_3D_CANVAS* glcanvas, bool EDA_3D_CANVAS::Read3DComponentShape( MODULE* module,
bool aAllowNonTransparentObjects, std::vector<S3D_MODEL_PARSER *>& model_parsers_list,
bool aAllowTransparentObjects, std::vector<wxString>& model_filename_list )
bool aSideToLoad )
{ {
S3D_MASTER* shape3D = module->Models();
for( ; shape3D; shape3D = shape3D->Next() )
{
if( shape3D->Is3DType( S3D_MASTER::FILE3D_VRML ) )
{
bool found = false;
unsigned int i;
wxString shape_filename = shape3D->GetShape3DFullFilename();
// Search for already loaded files
for( i = 0; i < model_filename_list.size(); i++ )
{
if( shape_filename.Cmp(model_filename_list[i]) == 0 )
{
found = true;
break;
}
}
if( found == false )
{
shape3D->ReadData();
model_filename_list.push_back( shape_filename );
model_parsers_list.push_back( shape3D->m_parser );
}
else
{
DBG( printf( " Read3DComponentShape reusing %s\n", (const char*)shape_filename.c_str() ) );
shape3D->m_parser = model_parsers_list[i];
}
}
}
return true;
}
void EDA_3D_CANVAS::Render3DComponentShape( MODULE* module,
bool aIsRenderingJustNonTransparentObjects,
bool aIsRenderingJustTransparentObjects,
bool aSideToLoad )
{
// Read from disk and draws the footprint 3D shapes if exists // Read from disk and draws the footprint 3D shapes if exists
double zpos = glcanvas->GetPrm3DVisu().GetModulesZcoord3DIU( IsFlipped() ); double zpos = GetPrm3DVisu().GetModulesZcoord3DIU( module->IsFlipped() );
glPushMatrix(); glPushMatrix();
glTranslatef( m_Pos.x * glcanvas->GetPrm3DVisu().m_BiuTo3Dunits, wxPoint pos = module->GetPosition();
-m_Pos.y * glcanvas->GetPrm3DVisu().m_BiuTo3Dunits,
glTranslatef( pos.x * GetPrm3DVisu().m_BiuTo3Dunits,
-pos.y * GetPrm3DVisu().m_BiuTo3Dunits,
zpos ); zpos );
if( m_Orient ) if( module->GetOrientation() )
glRotatef( (double) m_Orient / 10, 0.0, 0.0, 1.0 ); glRotatef( (double) module->GetOrientation() / 10.0, 0.0, 0.0, 1.0 );
if( IsFlipped() ) if( module->IsFlipped() )
{ {
glRotatef( 180.0, 0.0, 1.0, 0.0 ); glRotatef( 180.0, 0.0, 1.0, 0.0 );
glRotatef( 180.0, 0.0, 0.0, 1.0 ); glRotatef( 180.0, 0.0, 0.0, 1.0 );
} }
S3D_MASTER* shape3D = Models(); S3D_MASTER* shape3D = module->Models();
for( ; shape3D; shape3D = shape3D->Next() ) for( ; shape3D; shape3D = shape3D->Next() )
{ {
shape3D->SetLoadNonTransparentObjects( aAllowNonTransparentObjects );
shape3D->SetLoadTransparentObjects( aAllowTransparentObjects );
if( shape3D->Is3DType( S3D_MASTER::FILE3D_VRML ) ) if( shape3D->Is3DType( S3D_MASTER::FILE3D_VRML ) )
{ {
glPushMatrix(); glPushMatrix();
shape3D->ReadData(); shape3D->Render( aIsRenderingJustNonTransparentObjects,
aIsRenderingJustTransparentObjects );
glPopMatrix(); glPopMatrix();
} }
} }
......
3d-viewer/3d_material.cpp
View file @ cbb0e2ad
...@@ -71,31 +71,23 @@ void SetOpenGlDefaultMaterial() ...@@ -71,31 +71,23 @@ void SetOpenGlDefaultMaterial()
} }
void S3D_MATERIAL::SetOpenGLMaterial( unsigned int aMaterialIndex, bool aUseMaterial ) bool S3D_MATERIAL::SetOpenGLMaterial( unsigned int aMaterialIndex, bool aUseMaterial )
{ {
S3D_MASTER * s3dParent = (S3D_MASTER *) GetParent(); S3D_MASTER * s3dParent = (S3D_MASTER *) GetParent();
if( ! s3dParent->IsOpenGlAllowed() )
return;
if( aUseMaterial ) if( aUseMaterial )
{ {
float transparency_value = 0.0f; float transparency_value = 0.0f;
if( m_Transparency.size() > aMaterialIndex ) if( m_Transparency.size() > aMaterialIndex )
{ {
transparency_value = m_Transparency[aMaterialIndex]; transparency_value = m_Transparency[aMaterialIndex];
s3dParent->SetLastTransparency( transparency_value );
} }
if( m_DiffuseColor.size() > aMaterialIndex ) if( m_DiffuseColor.size() > aMaterialIndex )
{ {
glm::vec3 color = m_DiffuseColor[aMaterialIndex]; glm::vec3 color = m_DiffuseColor[aMaterialIndex];
if( m_AmbientColor.size() == 0 )
{
glColorMaterial( GL_FRONT_AND_BACK, GL_AMBIENT_AND_DIFFUSE );
}
glColor4f( color.x, color.y, color.z, 1.0 - transparency_value ); glColor4f( color.x, color.y, color.z, 1.0 - transparency_value );
} }
...@@ -136,15 +128,18 @@ void S3D_MATERIAL::SetOpenGLMaterial( unsigned int aMaterialIndex, bool aUseMate ...@@ -136,15 +128,18 @@ void S3D_MATERIAL::SetOpenGLMaterial( unsigned int aMaterialIndex, bool aUseMate
ambient[3] = 1.0f; ambient[3] = 1.0f;
glMaterialfv( GL_FRONT_AND_BACK, GL_AMBIENT, &ambient.x ); glMaterialfv( GL_FRONT_AND_BACK, GL_AMBIENT, &ambient.x );
} }
return (transparency_value != 0.0f);
} }
else else
{ {
if( m_DiffuseColor.size() > aMaterialIndex ) if( m_DiffuseColor.size() > aMaterialIndex )
{ {
glm::vec3 color = m_DiffuseColor[aMaterialIndex]; glm::vec3 color = m_DiffuseColor[aMaterialIndex];
glColorMaterial( GL_FRONT_AND_BACK, GL_AMBIENT_AND_DIFFUSE );
glColor4f( color.x, color.y, color.z, 1.0 ); glColor4f( color.x, color.y, color.z, 1.0 );
} }
} }
return false;
} }
3d-viewer/3d_material.h
View file @ cbb0e2ad
...@@ -59,8 +59,9 @@ public: ...@@ -59,8 +59,9 @@ public:
* @param aMaterialIndex = the index in list of available materials * @param aMaterialIndex = the index in list of available materials
* @param aUseMaterial = true to use the values found in the available material * @param aUseMaterial = true to use the values found in the available material
* = false to use only the color, and other prms are fixed * = false to use only the color, and other prms are fixed
* @return true if the material is transparency
*/ */
void SetOpenGLMaterial(unsigned int aMaterialIndex, bool aUseMaterial); bool SetOpenGLMaterial(unsigned int aMaterialIndex, bool aUseMaterial);
#if defined(DEBUG) #if defined(DEBUG)
void Show( int nestLevel, std::ostream& os ) const { ShowDummy( os ); } // override void Show( int nestLevel, std::ostream& os ) const { ShowDummy( os ); } // override
......
3d-viewer/3d_mesh_model.cpp
View file @ cbb0e2ad
...@@ -54,31 +54,29 @@ S3D_MESH::S3D_MESH() ...@@ -54,31 +54,29 @@ S3D_MESH::S3D_MESH()
S3D_MESH::~S3D_MESH() S3D_MESH::~S3D_MESH()
{ {
for( unsigned int idx = 0; idx < childs.size(); idx++ )
{
delete childs[idx];
}
} }
void S3D_MESH::openGL_RenderAllChilds() void S3D_MESH::openGL_RenderAllChilds( bool aIsRenderingJustNonTransparentObjects,
bool aIsRenderingJustTransparentObjects )
{ {
//DBG( printf( "openGL_RenderAllChilds") ); glEnable( GL_COLOR_MATERIAL ) ;
SetOpenGlDefaultMaterial();
glPushMatrix(); glPushMatrix();
glTranslatef( m_translation.x, m_translation.y, m_translation.z ); glTranslatef( m_translation.x, m_translation.y, m_translation.z );
glRotatef( m_rotation[3], m_rotation[0], m_rotation[1], m_rotation[2] ); glRotatef( m_rotation[3], m_rotation[0], m_rotation[1], m_rotation[2] );
glScalef( m_scale.x, m_scale.y, m_scale.z ); glScalef( m_scale.x, m_scale.y, m_scale.z );
SetOpenGlDefaultMaterial();
// Render your self // Render your self
openGL_Render(); openGL_Render( aIsRenderingJustNonTransparentObjects,
aIsRenderingJustTransparentObjects );
// Render childs // Render childs
for( unsigned int idx = 0; idx < childs.size(); idx++ ) for( unsigned int idx = 0; idx < childs.size(); idx++ )
{ {
childs[idx]->openGL_Render(); childs[idx]->openGL_Render( aIsRenderingJustNonTransparentObjects,
aIsRenderingJustTransparentObjects );
} }
SetOpenGlDefaultMaterial(); SetOpenGlDefaultMaterial();
...@@ -87,23 +85,41 @@ void S3D_MESH::openGL_RenderAllChilds() ...@@ -87,23 +85,41 @@ void S3D_MESH::openGL_RenderAllChilds()
} }
void S3D_MESH::openGL_Render() void S3D_MESH::openGL_Render( bool aIsRenderingJustNonTransparentObjects,
bool aIsRenderingJustTransparentObjects )
{ {
if( (aIsRenderingJustNonTransparentObjects == true) &&
(aIsRenderingJustTransparentObjects == true) )
{
return;
}
//DBG( printf( "openGL_Render" ) ); //DBG( printf( "openGL_Render" ) );
bool useMaterial = g_Parm_3D_Visu.GetFlag( FL_RENDER_MATERIAL ); bool useMaterial = g_Parm_3D_Visu.GetFlag( FL_RENDER_MATERIAL );
bool smoothShapes = g_Parm_3D_Visu.IsRealisticMode() bool smoothShapes = g_Parm_3D_Visu.IsRealisticMode()
&& g_Parm_3D_Visu.GetFlag( FL_RENDER_SMOOTH_NORMALS ); && g_Parm_3D_Visu.GetFlag( FL_RENDER_SMOOTH_NORMALS );
if( m_CoordIndex.size() == 0 ) if( m_CoordIndex.size() == 0 )
{
return;
}
if( m_Materials && ( m_MaterialIndex.size() == 0 ) )
{
bool isTransparent = m_Materials->SetOpenGLMaterial( 0, useMaterial );
if( isTransparent && aIsRenderingJustNonTransparentObjects )
return;
if( !isTransparent && aIsRenderingJustTransparentObjects )
return; return;
}
glPushMatrix(); glPushMatrix();
glTranslatef( m_translation.x, m_translation.y, m_translation.z ); glTranslatef( m_translation.x, m_translation.y, m_translation.z );
glRotatef( m_rotation[3], m_rotation[0], m_rotation[1], m_rotation[2] ); glRotatef( m_rotation[3], m_rotation[0], m_rotation[1], m_rotation[2] );
glScalef( m_scale.x, m_scale.y, m_scale.z ); glScalef( m_scale.x, m_scale.y, m_scale.z );
std::vector< glm::vec3 > normals;
calcPointNormalized(); calcPointNormalized();
calcPerFaceNormals(); calcPerFaceNormals();
...@@ -121,10 +137,21 @@ void S3D_MESH::openGL_Render() ...@@ -121,10 +137,21 @@ void S3D_MESH::openGL_Render()
{ {
if( m_Materials ) if( m_Materials )
{ {
if( m_MaterialIndex.size() == 0 ) if ( m_MaterialIndex.size() > 0 )
m_Materials->SetOpenGLMaterial( 0, useMaterial ); {
bool isTransparent = m_Materials->SetOpenGLMaterial( m_MaterialIndex[idx], useMaterial );
if( isTransparent && aIsRenderingJustNonTransparentObjects )
continue;
if( !isTransparent && aIsRenderingJustTransparentObjects )
continue;
}
else else
m_Materials->SetOpenGLMaterial( m_MaterialIndex[idx], useMaterial ); {
// This is only need on debug, because above we are marking the bad elements
DBG( m_Materials->SetOpenGLMaterial( 0, useMaterial ) );
}
} }
switch( m_CoordIndex[idx].size() ) switch( m_CoordIndex[idx].size() )
...@@ -152,8 +179,10 @@ void S3D_MESH::openGL_Render() ...@@ -152,8 +179,10 @@ void S3D_MESH::openGL_Render()
glNormal3fv( &normal.x ); glNormal3fv( &normal.x );
// Flag error vertices // Flag error vertices
#if defined(DEBUG)
if ((normal.x == 0.0) && (normal.y == 0.0) && (normal.z == 0.0)) if ((normal.x == 0.0) && (normal.y == 0.0) && (normal.z == 0.0))
glColor3f( 1.0, 0.0, 0.0 ); glColor4f( 1.0, 0.0, 1.0, 1.0 );
#endif
glm::vec3 point = m_Point[m_CoordIndex[idx][ii]]; glm::vec3 point = m_Point[m_CoordIndex[idx][ii]];
glVertex3fv( &point.x ); glVertex3fv( &point.x );
...@@ -170,8 +199,10 @@ void S3D_MESH::openGL_Render() ...@@ -170,8 +199,10 @@ void S3D_MESH::openGL_Render()
glNormal3fv( &normal.x ); glNormal3fv( &normal.x );
// Flag error vertices // Flag error vertices
#if defined(DEBUG)
if ((normal.x == 0.0) && (normal.y == 0.0) && (normal.z == 0.0)) if ((normal.x == 0.0) && (normal.y == 0.0) && (normal.z == 0.0))
glColor3f( 1.0, 0.0, 0.0 ); glColor4f( 1.0, 0.0, 1.0, 1.0 );
#endif
glm::vec3 point = m_Point[m_CoordIndex[idx][ii]]; glm::vec3 point = m_Point[m_CoordIndex[idx][ii]];
glVertex3fv( &point.x ); glVertex3fv( &point.x );
...@@ -190,8 +221,10 @@ void S3D_MESH::openGL_Render() ...@@ -190,8 +221,10 @@ void S3D_MESH::openGL_Render()
glNormal3fv( &normal.x ); glNormal3fv( &normal.x );
// Flag error vertices // Flag error vertices
#if defined(DEBUG)
if ((normal.x == 0.0) && (normal.y == 0.0) && (normal.z == 0.0)) if ((normal.x == 0.0) && (normal.y == 0.0) && (normal.z == 0.0))
glColor3f( 1.0, 0.0, 0.0 ); glColor4f( 1.0, 0.0, 1.0, 1.0 );
#endif
glm::vec3 point = m_Point[m_CoordIndex[idx][ii]]; glm::vec3 point = m_Point[m_CoordIndex[idx][ii]];
glVertex3fv( &point.x ); glVertex3fv( &point.x );
...@@ -268,7 +301,7 @@ void S3D_MESH::perVertexNormalsVerify_and_Repair() ...@@ -268,7 +301,7 @@ void S3D_MESH::perVertexNormalsVerify_and_Repair()
} }
else else
{ {
//DBG( printf( "idx:%u\n", idx ) ); DBG( printf( " Cannot normalize precomputed normal at idx:%u\n", idx ) );
} }
m_PerVertexNormalsNormalized[idx] = normal; m_PerVertexNormalsNormalized[idx] = normal;
...@@ -285,31 +318,36 @@ void S3D_MESH::calcPointNormalized() ...@@ -285,31 +318,36 @@ void S3D_MESH::calcPointNormalized()
isPointNormalizedComputed = true; isPointNormalizedComputed = true;
/*
m_PointNormalized = m_Point;
*/
m_PointNormalized.clear(); m_PointNormalized.clear();
m_PointNormalized.resize( m_Point.size() );
float biggerPoint = 0.0f; float biggerPoint = 0.0f;
for( unsigned int i = 0; i < m_Point.size(); i++ ) for( unsigned int i = 0; i < m_Point.size(); i++ )
{ {
if( fabs( m_Point[i].x ) > biggerPoint ) float v;
biggerPoint = fabs( m_Point[i].x ); v = fabs( m_Point[i].x );
if( v > biggerPoint )
biggerPoint = v;
if( fabs( m_Point[i].y ) > biggerPoint ) v = fabs( m_Point[i].y );
biggerPoint = fabs( m_Point[i].y ); if( v > biggerPoint )
biggerPoint = v;
if( fabs( m_Point[i].z ) > biggerPoint ) v = fabs( m_Point[i].z );
biggerPoint = fabs( m_Point[i].z ); if( v > biggerPoint )
biggerPoint = v;
} }
biggerPoint = 1.0 / biggerPoint; biggerPoint = 1.0 / biggerPoint;
for( unsigned int i = 0; i < m_Point.size(); i++ ) for( unsigned int i = 0; i < m_Point.size(); i++ )
{ {
glm::vec3 p; m_PointNormalized[i] = m_Point[i] * biggerPoint;
p = m_Point[i] * biggerPoint;
m_PointNormalized.push_back( p );
} }
//DBG( printf("m_Point.size %u\n", m_Point.size()) );
} }
...@@ -342,8 +380,10 @@ void S3D_MESH::calcPerFaceNormals() ...@@ -342,8 +380,10 @@ void S3D_MESH::calcPerFaceNormals()
else else
m_PerFaceNormalsNormalized.clear(); m_PerFaceNormalsNormalized.clear();
m_PerFaceNormalsRaw.clear(); m_PerFaceNormalsRaw_X_PerFaceSquaredArea.clear();
m_PerFaceSquaredArea.clear();
m_PerFaceNormalsNormalized.resize( m_CoordIndex.size() );
m_PerFaceNormalsRaw_X_PerFaceSquaredArea.resize( m_CoordIndex.size() );
// There are no points defined for the coordIndex // There are no points defined for the coordIndex
if( m_PointNormalized.size() == 0 ) if( m_PointNormalized.size() == 0 )
...@@ -354,36 +394,46 @@ void S3D_MESH::calcPerFaceNormals() ...@@ -354,36 +394,46 @@ void S3D_MESH::calcPerFaceNormals()
for( unsigned int idx = 0; idx < m_CoordIndex.size(); idx++ ) for( unsigned int idx = 0; idx < m_CoordIndex.size(); idx++ )
{ {
// User normalized and multiply to get better resolution
glm::vec3 v0 = m_PointNormalized[m_CoordIndex[idx][0]];
glm::vec3 v1 = m_PointNormalized[m_CoordIndex[idx][1]];
glm::vec3 v2 = m_PointNormalized[m_CoordIndex[idx][m_CoordIndex[idx].size() - 1]];
glm::vec3 cross_prod; glm::vec3 cross_prod;
/* cross_prod.x = 0.0;
// This is not working as good as it is expected :/ cross_prod.y = 0.0;
if( IsClockwise( v0, v1, v2 ) ) cross_prod.z = 0.0;
// Newell's Method
// http://www.opengl.org/wiki/Calculating_a_Surface_Normal
// http://tog.acm.org/resources/GraphicsGems/gemsiii/newell.c
// http://www.iquilezles.org/www/articles/areas/areas.htm
for( unsigned int i = 0; i < m_CoordIndex[idx].size(); i++ )
{ {
// CW glm::vec3 u = m_PointNormalized[m_CoordIndex[idx][i]];
cross_prod = glm::cross( v1 - v2, v0 - v2 ); glm::vec3 v = m_PointNormalized[m_CoordIndex[idx][(i + 1) % m_CoordIndex[idx].size()]];
} else
{*/ cross_prod.x += (u.y - v.y) * (u.z + v.z);
// CCW cross_prod.y += (u.z - v.z) * (u.x + v.x);
cross_prod = glm::cross( v1 - v0, v2 - v0 ); cross_prod.z += (u.x - v.x) * (u.y + v.y);
//}
// This method works same way
/*
cross_prod.x += (u.y * v.z) - (u.z * v.y);
cross_prod.y += (u.z * v.x) - (u.x * v.z);
cross_prod.z += (u.x * v.y) - (u.y * v.x);*/
}
float area = glm::dot( cross_prod, cross_prod ); float area = glm::dot( cross_prod, cross_prod );
area = fabs( area );
// Dont remmember why this code was used for..
/*
if( cross_prod[2] < 0.0 ) if( cross_prod[2] < 0.0 )
area = -area; area = -area;
if( area < FLT_EPSILON ) if( area < FLT_EPSILON )
area = FLT_EPSILON * 2.0f; area = FLT_EPSILON * 2.0f;
*/
m_PerFaceSquaredArea.push_back( area ); m_PerFaceNormalsRaw_X_PerFaceSquaredArea[idx] = cross_prod * area;
m_PerFaceNormalsRaw.push_back( cross_prod );
if( haveAlreadyNormals_from_model_file == false ) if( haveAlreadyNormals_from_model_file == false )
{ {
...@@ -396,7 +446,12 @@ void S3D_MESH::calcPerFaceNormals() ...@@ -396,7 +446,12 @@ void S3D_MESH::calcPerFaceNormals()
} }
else else
{ {
//DBG( printf( "Cannot calc normal idx: %u", idx ) ); DBG( printf( "Cannot calc normal idx: %u cross(%f, %f, %f) l:%f m_CoordIndex[idx].size: %u\n",
idx,
cross_prod.x, cross_prod.y, cross_prod.z,
l,
(unsigned int)m_CoordIndex[idx].size()) );
if( ( cross_prod.x > cross_prod.y ) && ( cross_prod.x > cross_prod.z ) ) if( ( cross_prod.x > cross_prod.y ) && ( cross_prod.x > cross_prod.z ) )
{ {
cross_prod.x = 0.0; cross_prod.x = 0.0;
...@@ -409,15 +464,21 @@ void S3D_MESH::calcPerFaceNormals() ...@@ -409,15 +464,21 @@ void S3D_MESH::calcPerFaceNormals()
cross_prod.y = 1.0; cross_prod.y = 1.0;
cross_prod.z = 0.0; cross_prod.z = 0.0;
} }
else else if( ( cross_prod.z > cross_prod.x ) && ( cross_prod.z > cross_prod.y ) )
{ {
cross_prod.x = 0.0; cross_prod.x = 0.0;
cross_prod.y = 0.0; cross_prod.y = 0.0;
cross_prod.z = 1.0; cross_prod.z = 1.0;
} }
else
{
cross_prod.x = 0.0;
cross_prod.y = 0.0;
cross_prod.z = 0.0;
}
} }
m_PerFaceNormalsNormalized.push_back( cross_prod ); m_PerFaceNormalsNormalized[idx] = cross_prod;
} }
} }
} }
...@@ -439,24 +500,41 @@ void S3D_MESH::calcPerPointNormals() ...@@ -439,24 +500,41 @@ void S3D_MESH::calcPerPointNormals()
// Pre-allocate space for the entire vector of vertex normals so we can do parallel writes // Pre-allocate space for the entire vector of vertex normals so we can do parallel writes
m_PerFaceVertexNormals.resize( m_CoordIndex.size() ); m_PerFaceVertexNormals.resize( m_CoordIndex.size() );
// for each face A in mesh for( unsigned int each_face_A_idx = 0; each_face_A_idx < m_CoordIndex.size(); each_face_A_idx++ )
{
m_PerFaceVertexNormals[each_face_A_idx].resize( m_CoordIndex[each_face_A_idx].size() );
}
// Initialize each vertex normal
for( unsigned int each_face_A_idx = 0; each_face_A_idx < m_CoordIndex.size(); each_face_A_idx++ )
{
glm::vec3 initVertexFaceNormal = m_PerFaceNormalsRaw_X_PerFaceSquaredArea[each_face_A_idx];
std::vector< glm::vec3 >& face_A_normals = m_PerFaceVertexNormals[each_face_A_idx];
for( unsigned int each_vert_A_idx = 0; each_vert_A_idx < m_CoordIndex[each_face_A_idx].size(); each_vert_A_idx++ )
{
face_A_normals[each_vert_A_idx] = initVertexFaceNormal;
}
}
#ifdef USE_OPENMP #ifdef USE_OPENMP
#pragma omp parallel for #pragma omp parallel for
#endif /* USE_OPENMP */ #endif /* USE_OPENMP */
// for each face A in mesh
for( unsigned int each_face_A_idx = 0; each_face_A_idx < m_CoordIndex.size(); each_face_A_idx++ ) for( unsigned int each_face_A_idx = 0; each_face_A_idx < m_CoordIndex.size(); each_face_A_idx++ )
{ {
// n = face A facet normal // n = face A facet normal
std::vector< glm::vec3 >& face_A_normals = m_PerFaceVertexNormals[each_face_A_idx]; std::vector< glm::vec3 >& face_A_normals = m_PerFaceVertexNormals[each_face_A_idx];
face_A_normals.resize( m_CoordIndex[each_face_A_idx].size() );
// loop through all 3 vertices // loop through all vertices
// for each vert in face A // for each vert in face A
for( unsigned int each_vert_A_idx = 0; each_vert_A_idx < m_CoordIndex[each_face_A_idx].size(); each_vert_A_idx++ ) for( unsigned int each_vert_A_idx = 0; each_vert_A_idx < m_CoordIndex[each_face_A_idx].size(); each_vert_A_idx++ )
{ {
face_A_normals[each_vert_A_idx] = m_PerFaceNormalsRaw[each_face_A_idx] * (m_PerFaceSquaredArea[each_face_A_idx]); int vertexIndexFromFaceA = (int)(m_CoordIndex[each_face_A_idx][each_vert_A_idx]);
int vertexIndex = (int)(m_CoordIndex[each_face_A_idx][each_vert_A_idx]);
glm::vec3 vector_face_A = m_PerFaceNormalsNormalized[each_face_A_idx]; glm::vec3 vector_face_A = m_PerFaceNormalsNormalized[each_face_A_idx];
// for each face B in mesh // for each face B in mesh
...@@ -465,32 +543,40 @@ void S3D_MESH::calcPerPointNormals() ...@@ -465,32 +543,40 @@ void S3D_MESH::calcPerPointNormals()
//if A != B { // ignore self //if A != B { // ignore self
if( each_face_A_idx != each_face_B_idx ) if( each_face_A_idx != each_face_B_idx )
{ {
bool addThisVertex = false;
for( unsigned int ii = 0; ii < m_CoordIndex[each_face_B_idx].size(); ii++ ) for( unsigned int ii = 0; ii < m_CoordIndex[each_face_B_idx].size(); ii++ )
{ {
if( m_CoordIndex[each_face_B_idx][ii] == vertexIndex ) // Check if there is any vertice in the face B that touch the vertice in face A
{ if( m_CoordIndex[each_face_B_idx][ii] == vertexIndexFromFaceA )
addThisVertex = true;
break;
}
}
if( addThisVertex )
{ {
glm::vec3 vector_face_B = m_PerFaceNormalsNormalized[each_face_B_idx]; glm::vec3 vector_face_B = m_PerFaceNormalsNormalized[each_face_B_idx];
float dot_prod = glm::dot( vector_face_A, vector_face_B ); float dot_prod = glm::dot( vector_face_A, vector_face_B );
if( dot_prod > 0.05f ) if( dot_prod > 0.05f )
{ face_A_normals[each_vert_A_idx] += m_PerFaceNormalsRaw_X_PerFaceSquaredArea[each_face_B_idx] * dot_prod;
face_A_normals[each_vert_A_idx] += m_PerFaceNormalsRaw[each_face_B_idx] * (m_PerFaceSquaredArea[each_face_B_idx] * dot_prod);
// For each face, only one vertice can touch / share
// another vertice from the other face, so we exit here
break;
}
}
} }
} }
} }
} }
// normalize vertex normal
#ifdef USE_OPENMP
#pragma omp parallel for
#endif /* USE_OPENMP */
// Normalize
for( unsigned int each_face_A_idx = 0; each_face_A_idx < m_CoordIndex.size(); each_face_A_idx++ )
{
std::vector< glm::vec3 >& face_A_normals = m_PerFaceVertexNormals[each_face_A_idx];
for( unsigned int each_vert_A_idx = 0; each_vert_A_idx < m_CoordIndex[each_face_A_idx].size(); each_vert_A_idx++ )
{
float l = glm::length( face_A_normals[each_vert_A_idx] ); float l = glm::length( face_A_normals[each_vert_A_idx] );
if( l > FLT_EPSILON ) // avoid division by zero if( l > FLT_EPSILON ) // avoid division by zero
......
3d-viewer/3d_mesh_model.h
View file @ cbb0e2ad
...@@ -58,8 +58,8 @@ public: ...@@ -58,8 +58,8 @@ public:
S3D_MESH(); S3D_MESH();
~S3D_MESH(); ~S3D_MESH();
void openGL_Render(); void openGL_RenderAllChilds( bool aIsRenderingJustNonTransparentObjects,
void openGL_RenderAllChilds(); bool aIsRenderingJustTransparentObjects );
S3D_MATERIAL *m_Materials; S3D_MATERIAL *m_Materials;
...@@ -81,10 +81,10 @@ public: ...@@ -81,10 +81,10 @@ public:
std::vector<S3D_MESH *> childs; std::vector<S3D_MESH *> childs;
private: private:
std::vector< glm::vec3 > m_PerFaceNormalsRaw; std::vector< glm::vec3 > m_PerFaceNormalsRaw_X_PerFaceSquaredArea;
std::vector< std::vector< glm::vec3 > > m_PerFaceVertexNormals; std::vector< std::vector< glm::vec3 > > m_PerFaceVertexNormals;
std::vector< glm::vec3 > m_PointNormalized; std::vector< glm::vec3 > m_PointNormalized;
std::vector< float > m_PerFaceSquaredArea;
std::vector< std::vector<int> > m_InvalidCoordIndexes; //!TODO: check for invalid CoordIndex in file and remove the index and the same material index std::vector< std::vector<int> > m_InvalidCoordIndexes; //!TODO: check for invalid CoordIndex in file and remove the index and the same material index
bool isPerFaceNormalsComputed; bool isPerFaceNormalsComputed;
...@@ -98,7 +98,9 @@ private: ...@@ -98,7 +98,9 @@ private:
bool isPerVertexNormalsVerified; bool isPerVertexNormalsVerified;
void perVertexNormalsVerify_and_Repair(); void perVertexNormalsVerify_and_Repair();
};
void openGL_Render( bool aIsRenderingJustNonTransparentObjects,
bool aIsRenderingJustTransparentObjects );
};
#endif #endif
3d-viewer/3d_read_mesh.cpp
View file @ cbb0e2ad
...@@ -109,12 +109,13 @@ int S3D_MASTER::ReadData() ...@@ -109,12 +109,13 @@ int S3D_MASTER::ReadData()
wxFileName fn( filename ); wxFileName fn( filename );
wxString extension = fn.GetExt(); wxString extension = fn.GetExt();
S3D_MODEL_PARSER* parser = S3D_MODEL_PARSER::Create( this, extension );
if( parser ) m_parser = S3D_MODEL_PARSER::Create( this, extension );
if( m_parser )
{ {
parser->Load( filename, g_Parm_3D_Visu.m_BiuTo3Dunits * UNITS3D_TO_UNITSPCB ); m_parser->Load( filename );
delete parser;
return 0; return 0;
} }
else else
...@@ -124,3 +125,42 @@ int S3D_MASTER::ReadData() ...@@ -124,3 +125,42 @@ int S3D_MASTER::ReadData()
return -1; return -1;
} }
void S3D_MASTER::Render( bool aIsRenderingJustNonTransparentObjects,
bool aIsRenderingJustTransparentObjects )
{
if( m_parser == NULL )
return;
double aVrmlunits_to_3Dunits = g_Parm_3D_Visu.m_BiuTo3Dunits * UNITS3D_TO_UNITSPCB;
glScalef( aVrmlunits_to_3Dunits, aVrmlunits_to_3Dunits, aVrmlunits_to_3Dunits );
glm::vec3 matScale( m_MatScale.x,
m_MatScale.y,
m_MatScale.z );
glm::vec3 matRot( m_MatRotation.x,
m_MatRotation.y,
m_MatRotation.z );
glm::vec3 matPos( m_MatPosition.x,
m_MatPosition.y,
m_MatPosition.z );
glTranslatef( matPos.x * SCALE_3D_CONV,
matPos.y * SCALE_3D_CONV,
matPos.z * SCALE_3D_CONV );
glRotatef( -matRot.z, 0.0f, 0.0f, 1.0f );
glRotatef( -matRot.y, 0.0f, 1.0f, 0.0f );
glRotatef( -matRot.x, 1.0f, 0.0f, 0.0f );
glScalef( matScale.x, matScale.y, matScale.z );
for( unsigned int idx = 0; idx < m_parser->childs.size(); idx++ )
{
m_parser->childs[idx]->openGL_RenderAllChilds( aIsRenderingJustNonTransparentObjects,
aIsRenderingJustTransparentObjects );
}
}
\ No newline at end of file
3d-viewer/3d_struct.h
View file @ cbb0e2ad
...@@ -36,6 +36,7 @@ ...@@ -36,6 +36,7 @@
#include <3d_material.h> #include <3d_material.h>
#include <gal/opengl/glm/glm.hpp> #include <gal/opengl/glm/glm.hpp>
/** /**
* @note For historical reasons the 3D modeling unit is 0.1 inch * @note For historical reasons the 3D modeling unit is 0.1 inch
* 1 3Dunit = 2.54 mm = 0.1 inch = 100 mils * 1 3Dunit = 2.54 mm = 0.1 inch = 100 mils
...@@ -81,6 +82,8 @@ public: ...@@ -81,6 +82,8 @@ public:
} }
}; };
class S3D_MODEL_PARSER;
// Master structure for a 3D footprint shape description // Master structure for a 3D footprint shape description
class S3D_MASTER : public EDA_ITEM class S3D_MASTER : public EDA_ITEM
{ {
...@@ -90,6 +93,7 @@ public: ...@@ -90,6 +93,7 @@ public:
S3DPOINT m_MatPosition; ///< an offset for the entire 3D footprint shape S3DPOINT m_MatPosition; ///< an offset for the entire 3D footprint shape
STRUCT_3D_SHAPE* m_3D_Drawings; ///< the list of basic shapes STRUCT_3D_SHAPE* m_3D_Drawings; ///< the list of basic shapes
S3D_MATERIAL* m_Materials; ///< the list of materiels used by the shapes S3D_MATERIAL* m_Materials; ///< the list of materiels used by the shapes
S3D_MODEL_PARSER* m_parser; ///< it store the loaded file to be rendered later
enum FILE3D_TYPE enum FILE3D_TYPE
{ {
...@@ -110,12 +114,6 @@ public: ...@@ -110,12 +114,6 @@ public:
private: private:
wxString m_Shape3DName; // the 3D shape filename in 3D library wxString m_Shape3DName; // the 3D shape filename in 3D library
FILE3D_TYPE m_ShapeType; FILE3D_TYPE m_ShapeType;
double m_lastTransparency; // last transparency value from
// last material in use
bool m_loadTransparentObjects;
bool m_loadNonTransparentObjects;
public: public:
S3D_MASTER( EDA_ITEM* aParent ); S3D_MASTER( EDA_ITEM* aParent );
...@@ -125,24 +123,8 @@ public: ...@@ -125,24 +123,8 @@ public:
S3D_MASTER* Back() const { return (S3D_MASTER*) Pback; } S3D_MASTER* Back() const { return (S3D_MASTER*) Pback; }
// Accessors // Accessors
void SetLastTransparency( double aValue ) { m_lastTransparency = aValue; }
void SetLoadTransparentObjects( bool aLoad )
{ m_loadTransparentObjects = aLoad; }
void SetLoadNonTransparentObjects( bool aLoad )
{ m_loadNonTransparentObjects = aLoad; }
void Insert( S3D_MATERIAL* aMaterial ); void Insert( S3D_MATERIAL* aMaterial );
/**
* Function IsOpenGlAllowed
* @return true if opengl current list accepts a gl data
* used to filter transparent objects, which are drawn after
* non transparent objects
*/
bool IsOpenGlAllowed();
void Copy( S3D_MASTER* pattern ); void Copy( S3D_MASTER* pattern );
/** /**
...@@ -152,6 +134,9 @@ public: ...@@ -152,6 +134,9 @@ public:
*/ */
int ReadData(); int ReadData();
void Render( bool aIsRenderingJustNonTransparentObjects,
bool aIsRenderingJustTransparentObjects );
/** /**
* Function ObjectCoordsTo3DUnits * Function ObjectCoordsTo3DUnits
* @param aVertices = a list of 3D coordinates in shape units * @param aVertices = a list of 3D coordinates in shape units
......
3d-viewer/modelparsers.h
View file @ cbb0e2ad
...@@ -49,8 +49,13 @@ public: ...@@ -49,8 +49,13 @@ public:
master( aMaster ) master( aMaster )
{} {}
virtual ~S3D_MODEL_PARSER() ~S3D_MODEL_PARSER()
{} {
for( unsigned int idx = 0; idx < childs.size(); idx++ )
{
delete childs[idx];
}
}
S3D_MASTER* GetMaster() S3D_MASTER* GetMaster()
{ {
...@@ -71,10 +76,21 @@ public: ...@@ -71,10 +76,21 @@ public:
* pure virtual Function * pure virtual Function
* Concrete parsers should implement this function * Concrete parsers should implement this function
* @param aFilename = the full file name of the file to load * @param aFilename = the full file name of the file to load
* @param aVrmlunits_to_3Dunits = the scaling factor, i.e. the * @return true if as succeeded
* convertion from file unit to internal 3D units
*/ */
virtual void Load( const wxString& aFilename, double aVrmlunits_to_3Dunits ) = 0; virtual bool Load( const wxString& aFilename ) = 0;
/**
* Function Render
* Render the model to openGL. The arguments can be both false but just only one
* can be true.
* @param aIsRenderingJustNonTransparentObjects
* @param aIsRenderingJustTransparentObjects
*/
void Render( bool aIsRenderingJustNonTransparentObjects,
bool aIsRenderingJustTransparentObjects );
std::vector< S3D_MESH* > childs;
private: private:
S3D_MASTER* master; S3D_MASTER* master;
...@@ -93,7 +109,7 @@ public: ...@@ -93,7 +109,7 @@ public:
X3D_MODEL_PARSER( S3D_MASTER* aMaster ); X3D_MODEL_PARSER( S3D_MASTER* aMaster );
~X3D_MODEL_PARSER(); ~X3D_MODEL_PARSER();
void Load( const wxString& aFilename, double aVrmlunits_to_3Dunits ); bool Load( const wxString& aFilename );
typedef std::map< wxString, wxString > PROPERTY_MAP; typedef std::map< wxString, wxString > PROPERTY_MAP;
typedef std::vector< wxXmlNode* > NODE_LIST; typedef std::vector< wxXmlNode* > NODE_LIST;
...@@ -127,7 +143,6 @@ public: ...@@ -127,7 +143,6 @@ public:
private: private:
wxString m_Filename; wxString m_Filename;
S3D_MESH* m_model; S3D_MESH* m_model;
std::vector< S3D_MESH* > childs;
std::vector< wxString > vrml_materials; std::vector< wxString > vrml_materials;
std::vector< wxString > vrml_points; std::vector< wxString > vrml_points;
...@@ -148,13 +163,13 @@ typedef std::map< std::string, std::vector< glm::vec3 > > VRML2_COORDINATE_MAP; ...@@ -148,13 +163,13 @@ typedef std::map< std::string, std::vector< glm::vec3 > > VRML2_COORDINATE_MAP;
* class VRML2_MODEL_PARSER * class VRML2_MODEL_PARSER
* Parses * Parses
*/ */
class VRML2_MODEL_PARSER: public S3D_MODEL_PARSER class VRML2_MODEL_PARSER
{ {
public: public:
VRML2_MODEL_PARSER( S3D_MASTER* aMaster ); VRML2_MODEL_PARSER( S3D_MODEL_PARSER* aModelParser );
~VRML2_MODEL_PARSER(); ~VRML2_MODEL_PARSER();
void Load( const wxString& aFilename, double aVrmlunits_to_3Dunits ); bool Load( const wxString& aFilename );
/** /**
* Return string representing VRML2 file in vrml2 format * Return string representing VRML2 file in vrml2 format
...@@ -185,11 +200,11 @@ private: ...@@ -185,11 +200,11 @@ private:
bool m_normalPerVertex; bool m_normalPerVertex;
bool colorPerVertex; bool colorPerVertex;
S3D_MESH* m_model; S3D_MESH* m_model;
std::vector< S3D_MESH* > childs;
FILE* m_file; FILE* m_file;
S3D_MATERIAL* m_Materials;
wxString m_Filename; wxString m_Filename;
VRML2_COORDINATE_MAP m_defCoordinateMap; VRML2_COORDINATE_MAP m_defCoordinateMap;
S3D_MODEL_PARSER* m_ModelParser;
S3D_MASTER* m_Master;
}; };
...@@ -197,13 +212,13 @@ private: ...@@ -197,13 +212,13 @@ private:
* class VRML1_MODEL_PARSER * class VRML1_MODEL_PARSER
* Parses * Parses
*/ */
class VRML1_MODEL_PARSER: public S3D_MODEL_PARSER class VRML1_MODEL_PARSER
{ {
public: public:
VRML1_MODEL_PARSER( S3D_MASTER* aMaster ); VRML1_MODEL_PARSER( S3D_MODEL_PARSER* aModelParser );
~VRML1_MODEL_PARSER(); ~VRML1_MODEL_PARSER();
void Load( const wxString& aFilename, double aVrmlunits_to_3Dunits ); bool Load( const wxString& aFilename );
/** /**
* Return string representing VRML2 file in vrml2 format * Return string representing VRML2 file in vrml2 format
...@@ -233,10 +248,10 @@ private: ...@@ -233,10 +248,10 @@ private:
bool m_normalPerVertex; bool m_normalPerVertex;
bool colorPerVertex; bool colorPerVertex;
S3D_MESH* m_model; S3D_MESH* m_model;
std::vector< S3D_MESH* > childs;
S3D_MATERIAL* m_Materials;
FILE* m_file; FILE* m_file;
wxString m_Filename; wxString m_Filename;
S3D_MODEL_PARSER* m_ModelParser;
S3D_MASTER* m_Master;
}; };
/** /**
...@@ -263,7 +278,7 @@ public: ...@@ -263,7 +278,7 @@ public:
* @param aVrmlunits_to_3Dunits = the csaling factor to convert the 3D file unit * @param aVrmlunits_to_3Dunits = the csaling factor to convert the 3D file unit
* to our internal units. * to our internal units.
*/ */
void Load( const wxString& aFilename, double aVrmlunits_to_3Dunits ); bool Load( const wxString& aFilename );
private: private:
S3D_MASTER* m_curr3DShape; ///< the current 3D shape to build from the file S3D_MASTER* m_curr3DShape; ///< the current 3D shape to build from the file
......
3d-viewer/vrml_v1_modelparser.cpp
View file @ cbb0e2ad
...@@ -36,14 +36,23 @@ ...@@ -36,14 +36,23 @@
#include "modelparsers.h" #include "modelparsers.h"
#include "vrml_aux.h" #include "vrml_aux.h"
#define BUFLINE_SIZE 512 #define BUFLINE_SIZE 32
VRML1_MODEL_PARSER::VRML1_MODEL_PARSER( S3D_MASTER* aMaster ) : /**
S3D_MODEL_PARSER( aMaster ) * Trace mask used to enable or disable the trace output of the VRML V1 parser code.
* The debug output can be turned on by setting the WXTRACE environment variable to
* "KI_TRACE_VRML_V1_PARSER". See the wxWidgets documentation on wxLogTrace for
* more information.
*/
static const wxChar* traceVrmlV1Parser = wxT( "KI_TRACE_VRML_V1_PARSER" );
VRML1_MODEL_PARSER::VRML1_MODEL_PARSER( S3D_MODEL_PARSER* aModelParser )
{ {
m_ModelParser = aModelParser;
m_Master = m_ModelParser->GetMaster();
m_model = NULL; m_model = NULL;
m_file = NULL; m_file = NULL;
m_Materials = NULL;
m_normalPerVertex = true; m_normalPerVertex = true;
colorPerVertex = true; colorPerVertex = true;
} }
...@@ -51,43 +60,24 @@ VRML1_MODEL_PARSER::VRML1_MODEL_PARSER( S3D_MASTER* aMaster ) : ...@@ -51,43 +60,24 @@ VRML1_MODEL_PARSER::VRML1_MODEL_PARSER( S3D_MASTER* aMaster ) :
VRML1_MODEL_PARSER::~VRML1_MODEL_PARSER() VRML1_MODEL_PARSER::~VRML1_MODEL_PARSER()
{ {
for( unsigned int idx = 0; idx < childs.size(); idx++ )
delete childs[idx];
} }
void VRML1_MODEL_PARSER::Load( const wxString& aFilename, double aVrmlunits_to_3Dunits ) bool VRML1_MODEL_PARSER::Load( const wxString& aFilename )
{ {
char text[BUFLINE_SIZE]; char text[BUFLINE_SIZE];
// DBG( printf( "Load %s\n", GetChars(aFilename) ) ); wxLogTrace( traceVrmlV1Parser, wxT( "Loading: %s" ), GetChars( aFilename ) );
m_file = wxFopen( aFilename, wxT( "rt" ) ); m_file = wxFopen( aFilename, wxT( "rt" ) );
if( m_file == NULL ) if( m_file == NULL )
return; return false;
float vrmlunits_to_3Dunits = aVrmlunits_to_3Dunits;
glScalef( vrmlunits_to_3Dunits, vrmlunits_to_3Dunits, vrmlunits_to_3Dunits );
glm::vec3 matScale( GetMaster()->m_MatScale.x, GetMaster()->m_MatScale.y,
GetMaster()->m_MatScale.z );
glm::vec3 matRot( GetMaster()->m_MatRotation.x, GetMaster()->m_MatRotation.y,
GetMaster()->m_MatRotation.z );
glm::vec3 matPos( GetMaster()->m_MatPosition.x, GetMaster()->m_MatPosition.y,
GetMaster()->m_MatPosition.z );
// glPushMatrix();
glTranslatef( matPos.x * SCALE_3D_CONV, matPos.y * SCALE_3D_CONV, matPos.z * SCALE_3D_CONV );
glRotatef( -matRot.z, 0.0f, 0.0f, 1.0f ); // Switch the locale to standard C (needed to print floating point numbers)
glRotatef( -matRot.y, 0.0f, 1.0f, 0.0f ); LOCALE_IO toggle;
glRotatef( -matRot.x, 1.0f, 0.0f, 0.0f );
glScalef( matScale.x, matScale.y, matScale.z ); m_ModelParser->childs.clear();
LOCALE_IO toggle; // Switch the locale to standard C
childs.clear();
while( GetNextTag( m_file, text, sizeof(text) ) ) while( GetNextTag( m_file, text, sizeof(text) ) )
{ {
...@@ -99,22 +89,14 @@ void VRML1_MODEL_PARSER::Load( const wxString& aFilename, double aVrmlunits_to_3 ...@@ -99,22 +89,14 @@ void VRML1_MODEL_PARSER::Load( const wxString& aFilename, double aVrmlunits_to_3
if( strcmp( text, "Separator" ) == 0 ) if( strcmp( text, "Separator" ) == 0 )
{ {
m_model = new S3D_MESH(); m_model = new S3D_MESH();
childs.push_back( m_model ); m_ModelParser->childs.push_back( m_model );
read_separator(); read_separator();
} }
} }
fclose( m_file ); fclose( m_file );
// DBG( printf( "chils size:%lu\n", childs.size() ) ); return true;
if( GetMaster()->IsOpenGlAllowed() )
{
for( unsigned int idx = 0; idx < childs.size(); idx++ )
{
childs[idx]->openGL_RenderAllChilds();
}
}
} }
...@@ -175,9 +157,9 @@ int VRML1_MODEL_PARSER::readMaterial() ...@@ -175,9 +157,9 @@ int VRML1_MODEL_PARSER::readMaterial()
wxString mat_name; wxString mat_name;
material = new S3D_MATERIAL( GetMaster(), mat_name ); material = new S3D_MATERIAL( m_Master, mat_name );
GetMaster()->Insert( material ); m_Master->Insert( material );
m_model->m_Materials = material; m_model->m_Materials = material;
...@@ -219,6 +201,7 @@ int VRML1_MODEL_PARSER::readMaterial() ...@@ -219,6 +201,7 @@ int VRML1_MODEL_PARSER::readMaterial()
} }
} }
wxLogTrace( traceVrmlV1Parser, wxT( " readMaterial failed" ) );
return -1; return -1;
} }
...@@ -247,6 +230,7 @@ int VRML1_MODEL_PARSER::readCoordinate3() ...@@ -247,6 +230,7 @@ int VRML1_MODEL_PARSER::readCoordinate3()
} }
} }
wxLogTrace( traceVrmlV1Parser, wxT( " readCoordinate3 failed" ) );
return -1; return -1;
} }
...@@ -279,6 +263,7 @@ int VRML1_MODEL_PARSER::readIndexedFaceSet() ...@@ -279,6 +263,7 @@ int VRML1_MODEL_PARSER::readIndexedFaceSet()
} }
} }
wxLogTrace( traceVrmlV1Parser, wxT( " readIndexedFaceSet failed" ) );
return -1; return -1;
} }
...@@ -305,7 +290,7 @@ int VRML1_MODEL_PARSER::readMaterial_emissiveColor() ...@@ -305,7 +290,7 @@ int VRML1_MODEL_PARSER::readMaterial_emissiveColor()
int ret = parseVertexList( m_file, m_model->m_Materials->m_EmissiveColor ); int ret = parseVertexList( m_file, m_model->m_Materials->m_EmissiveColor );
if( GetMaster()->m_use_modelfile_emissiveColor == false ) if( m_Master->m_use_modelfile_emissiveColor == false )
{ {
m_model->m_Materials->m_EmissiveColor.clear(); m_model->m_Materials->m_EmissiveColor.clear();
} }
...@@ -320,7 +305,7 @@ int VRML1_MODEL_PARSER::readMaterial_specularColor() ...@@ -320,7 +305,7 @@ int VRML1_MODEL_PARSER::readMaterial_specularColor()
int ret = parseVertexList( m_file, m_model->m_Materials->m_SpecularColor ); int ret = parseVertexList( m_file, m_model->m_Materials->m_SpecularColor );
if( GetMaster()->m_use_modelfile_specularColor == false ) if( m_Master->m_use_modelfile_specularColor == false )
{ {
m_model->m_Materials->m_SpecularColor.clear(); m_model->m_Materials->m_SpecularColor.clear();
} }
...@@ -344,7 +329,7 @@ int VRML1_MODEL_PARSER::readMaterial_shininess() ...@@ -344,7 +329,7 @@ int VRML1_MODEL_PARSER::readMaterial_shininess()
m_model->m_Materials->m_Shininess.push_back( shininess_value ); m_model->m_Materials->m_Shininess.push_back( shininess_value );
} }
if( GetMaster()->m_use_modelfile_shininess == false ) if( m_Master->m_use_modelfile_shininess == false )
{ {
m_model->m_Materials->m_Shininess.clear(); m_model->m_Materials->m_Shininess.clear();
} }
...@@ -368,7 +353,7 @@ int VRML1_MODEL_PARSER::readMaterial_transparency() ...@@ -368,7 +353,7 @@ int VRML1_MODEL_PARSER::readMaterial_transparency()
m_model->m_Materials->m_Transparency.push_back( tmp ); m_model->m_Materials->m_Transparency.push_back( tmp );
} }
if( GetMaster()->m_use_modelfile_transparency == false ) if( m_Master->m_use_modelfile_transparency == false )
{ {
m_model->m_Materials->m_Transparency.clear(); m_model->m_Materials->m_Transparency.clear();
} }
...@@ -388,6 +373,7 @@ int VRML1_MODEL_PARSER::readCoordinate3_point() ...@@ -388,6 +373,7 @@ int VRML1_MODEL_PARSER::readCoordinate3_point()
return 0; return 0;
} }
wxLogTrace( traceVrmlV1Parser, wxT( " readCoordinate3_point failed" ) );
return -1; return -1;
} }
...@@ -415,12 +401,12 @@ int VRML1_MODEL_PARSER::readIndexedFaceSet_coordIndex() ...@@ -415,12 +401,12 @@ int VRML1_MODEL_PARSER::readIndexedFaceSet_coordIndex()
|| (coord[0] == coord[2]) || (coord[0] == coord[2])
|| (coord[2] == coord[1]) ) || (coord[2] == coord[1]) )
{ {
// DBG( printf( " invalid coordIndex at index %lu (%d, %d, %d, %d)\n", m_model->m_CoordIndex.size()+1,coord[0], coord[1], coord[2], dummy ) ); wxLogTrace( traceVrmlV1Parser, wxT( " invalid coordIndex at index %u (%d, %d, %d, %d)" ), (unsigned int)m_model->m_CoordIndex.size() + 1,coord[0], coord[1], coord[2], dummy );
} }
if( dummy != -1 ) if( dummy != -1 )
{ {
// DBG( printf( " Error at index %lu, -1 Expected, got %d\n", m_model->m_CoordIndex.size()+1, dummy ) ); wxLogTrace( traceVrmlV1Parser, wxT( " Error at index %u, -1 Expected, got %d" ), (unsigned int)m_model->m_CoordIndex.size() + 1, dummy );
} }
m_model->m_CoordIndex.push_back( coord_list ); m_model->m_CoordIndex.push_back( coord_list );
......
3d-viewer/vrml_v2_modelparser.cpp
View file @ cbb0e2ad
...@@ -39,7 +39,7 @@ ...@@ -39,7 +39,7 @@
#include "modelparsers.h" #include "modelparsers.h"
#include "vrml_aux.h" #include "vrml_aux.h"
#define BUFLINE_SIZE 512 #define BUFLINE_SIZE 32
/** /**
* Trace mask used to enable or disable the trace output of the VRML V2 parser code. * Trace mask used to enable or disable the trace output of the VRML V2 parser code.
...@@ -50,12 +50,12 @@ ...@@ -50,12 +50,12 @@
static const wxChar* traceVrmlV2Parser = wxT( "KI_TRACE_VRML_V2_PARSER" ); static const wxChar* traceVrmlV2Parser = wxT( "KI_TRACE_VRML_V2_PARSER" );
VRML2_MODEL_PARSER::VRML2_MODEL_PARSER( S3D_MASTER* aMaster ) : VRML2_MODEL_PARSER::VRML2_MODEL_PARSER( S3D_MODEL_PARSER* aModelParser )
S3D_MODEL_PARSER( aMaster )
{ {
m_ModelParser = aModelParser;
m_Master = m_ModelParser->GetMaster();
m_model = NULL; m_model = NULL;
m_file = NULL; m_file = NULL;
m_Materials = NULL;
m_normalPerVertex = true; m_normalPerVertex = true;
colorPerVertex = true; colorPerVertex = true;
} }
...@@ -63,46 +63,27 @@ VRML2_MODEL_PARSER::VRML2_MODEL_PARSER( S3D_MASTER* aMaster ) : ...@@ -63,46 +63,27 @@ VRML2_MODEL_PARSER::VRML2_MODEL_PARSER( S3D_MASTER* aMaster ) :
VRML2_MODEL_PARSER::~VRML2_MODEL_PARSER() VRML2_MODEL_PARSER::~VRML2_MODEL_PARSER()
{ {
for( unsigned int idx = 0; idx < childs.size(); idx++ )
{
delete childs[idx];
}
} }
void VRML2_MODEL_PARSER::Load( const wxString& aFilename, double aVrmlunits_to_3Dunits ) bool VRML2_MODEL_PARSER::Load( const wxString& aFilename )
{ {
char text[BUFLINE_SIZE]; char text[BUFLINE_SIZE];
wxLogTrace( traceVrmlV2Parser, wxT( "Load %s" ), GetChars( aFilename ) ); wxLogTrace( traceVrmlV2Parser, wxT( "Loading: %s" ), GetChars( aFilename ) );
m_file = wxFopen( aFilename, wxT( "rt" ) ); m_file = wxFopen( aFilename, wxT( "rt" ) );
if( m_file == NULL ) if( m_file == NULL )
{ {
return; wxLogTrace( traceVrmlV2Parser, wxT( "Failed to open file: %s" ), GetChars( aFilename ) );
return false;
} }
float vrmlunits_to_3Dunits = aVrmlunits_to_3Dunits; // Switch the locale to standard C (needed to print floating point numbers)
glScalef( vrmlunits_to_3Dunits, vrmlunits_to_3Dunits, vrmlunits_to_3Dunits ); LOCALE_IO toggle;
glm::vec3 matScale( GetMaster()->m_MatScale.x, GetMaster()->m_MatScale.y,
GetMaster()->m_MatScale.z );
glm::vec3 matRot( GetMaster()->m_MatRotation.x, GetMaster()->m_MatRotation.y,
GetMaster()->m_MatRotation.z );
glm::vec3 matPos( GetMaster()->m_MatPosition.x, GetMaster()->m_MatPosition.y,
GetMaster()->m_MatPosition.z );
glTranslatef( matPos.x * SCALE_3D_CONV, matPos.y * SCALE_3D_CONV, matPos.z * SCALE_3D_CONV );
glRotatef( -matRot.z, 0.0f, 0.0f, 1.0f );
glRotatef( -matRot.y, 0.0f, 1.0f, 0.0f );
glRotatef( -matRot.x, 1.0f, 0.0f, 0.0f );
glScalef( matScale.x, matScale.y, matScale.z );
LOCALE_IO toggle; // Temporary switch the locale to standard C to r/w floats
childs.clear(); m_ModelParser->childs.clear();
while( GetNextTag( m_file, text, sizeof(text) ) ) while( GetNextTag( m_file, text, sizeof(text) ) )
{ {
...@@ -114,33 +95,50 @@ void VRML2_MODEL_PARSER::Load( const wxString& aFilename, double aVrmlunits_to_3 ...@@ -114,33 +95,50 @@ void VRML2_MODEL_PARSER::Load( const wxString& aFilename, double aVrmlunits_to_3
if( strcmp( text, "Transform" ) == 0 ) if( strcmp( text, "Transform" ) == 0 )
{ {
m_model = new S3D_MESH(); m_model = new S3D_MESH();
childs.push_back( m_model ); m_ModelParser->childs.push_back( m_model );
read_Transform(); if( read_Transform() == 0)
{
//wxLogTrace( traceVrmlV2Parser, wxT( " m_Point.size: %u" ), (unsigned int)m_model->m_Point.size() );
//wxLogTrace( traceVrmlV2Parser, wxT( " m_CoordIndex.size: %u" ), (unsigned int)m_model->m_CoordIndex.size() );
}
} }
else if( strcmp( text, "DEF" ) == 0 ) else if( strcmp( text, "DEF" ) == 0 )
{ {
m_model = new S3D_MESH(); m_model = new S3D_MESH();
childs.push_back( m_model ); m_ModelParser->childs.push_back( m_model );
read_DEF(); if( read_DEF() == 0 )
{
//wxLogTrace( traceVrmlV2Parser, wxT( " m_Point.size: %u" ), (unsigned int)m_model->m_Point.size() );
//wxLogTrace( traceVrmlV2Parser, wxT( " m_CoordIndex.size: %u" ), (unsigned int)m_model->m_CoordIndex.size() );
} }
} }
else if( strcmp( text, "Shape" ) == 0 )
{
//wxLogTrace( traceVrmlV2Parser, wxT( " Shape" ) );
fclose( m_file ); m_model = new S3D_MESH();
m_ModelParser->childs.push_back( m_model );
if( GetMaster()->IsOpenGlAllowed() ) if( read_Shape() == 0 )
{
for( unsigned int idx = 0; idx < childs.size(); idx++ )
{ {
childs[idx]->openGL_RenderAllChilds(); //wxLogTrace( traceVrmlV2Parser, wxT( " m_Point.size: %u" ), (unsigned int)m_model->m_Point.size() );
//wxLogTrace( traceVrmlV2Parser, wxT( " m_CoordIndex.size: %u" ), (unsigned int)m_model->m_CoordIndex.size() );
} }
} }
}
fclose( m_file );
return true;
} }
int VRML2_MODEL_PARSER::read_Transform() int VRML2_MODEL_PARSER::read_Transform()
{ {
//wxLogTrace( traceVrmlV2Parser, wxT( " read_Transform" ) );
char text[BUFLINE_SIZE]; char text[BUFLINE_SIZE];
while( GetNextTag( m_file, text, sizeof(text) ) ) while( GetNextTag( m_file, text, sizeof(text) ) )
...@@ -158,6 +156,11 @@ int VRML2_MODEL_PARSER::read_Transform() ...@@ -158,6 +156,11 @@ int VRML2_MODEL_PARSER::read_Transform()
if( strcmp( text, "translation" ) == 0 ) if( strcmp( text, "translation" ) == 0 )
{ {
parseVertex( m_file, m_model->m_translation ); parseVertex( m_file, m_model->m_translation );
//wxLogTrace( traceVrmlV2Parser, wxT( " translation (%f,%f,%f)" ),
// m_model->m_translation.x,
// m_model->m_translation.y,
// m_model->m_translation.z );
} }
else if( strcmp( text, "rotation" ) == 0 ) else if( strcmp( text, "rotation" ) == 0 )
{ {
...@@ -166,20 +169,29 @@ int VRML2_MODEL_PARSER::read_Transform() ...@@ -166,20 +169,29 @@ int VRML2_MODEL_PARSER::read_Transform()
&m_model->m_rotation[2], &m_model->m_rotation[2],
&m_model->m_rotation[3] ) != 4 ) &m_model->m_rotation[3] ) != 4 )
{ {
// !TODO: log errors
m_model->m_rotation[0] = 0.0f; m_model->m_rotation[0] = 0.0f;
m_model->m_rotation[1] = 0.0f; m_model->m_rotation[1] = 0.0f;
m_model->m_rotation[2] = 0.0f; m_model->m_rotation[2] = 0.0f;
m_model->m_rotation[3] = 0.0f; m_model->m_rotation[3] = 0.0f;
wxLogTrace( traceVrmlV2Parser, wxT( " rotation failed, setting to zeros" ) );
} }
else else
{ {
m_model->m_rotation[3] = m_model->m_rotation[3] * 180.0f / 3.14f; // !TODO: use constants or functions m_model->m_rotation[3] = m_model->m_rotation[3] * 180.0f / 3.14f; // !TODO: use constants or functions
} }
//wxLogTrace( traceVrmlV2Parser, wxT( " rotation (%f,%f,%f,%f)" ),
// m_model->m_rotation[0],
// m_model->m_rotation[1],
// m_model->m_rotation[2],
// m_model->m_rotation[3] );
} }
else if( strcmp( text, "scale" ) == 0 ) else if( strcmp( text, "scale" ) == 0 )
{ {
parseVertex( m_file, m_model->m_scale ); parseVertex( m_file, m_model->m_scale );
//wxLogTrace( traceVrmlV2Parser, wxT( " scale (%f,%f,%f)" ), m_model->m_scale.x, m_model->m_scale.y, m_model->m_scale.z );
} }
else if( strcmp( text, "scaleOrientation" ) == 0 ) else if( strcmp( text, "scaleOrientation" ) == 0 )
{ {
...@@ -189,16 +201,25 @@ int VRML2_MODEL_PARSER::read_Transform() ...@@ -189,16 +201,25 @@ int VRML2_MODEL_PARSER::read_Transform()
&m_model->m_scaleOrientation[2], &m_model->m_scaleOrientation[2],
&m_model->m_scaleOrientation[3] ) != 4 ) &m_model->m_scaleOrientation[3] ) != 4 )
{ {
// !TODO: log errors
m_model->m_scaleOrientation[0] = 0.0f; m_model->m_scaleOrientation[0] = 0.0f;
m_model->m_scaleOrientation[1] = 0.0f; m_model->m_scaleOrientation[1] = 0.0f;
m_model->m_scaleOrientation[2] = 0.0f; m_model->m_scaleOrientation[2] = 0.0f;
m_model->m_scaleOrientation[3] = 0.0f; m_model->m_scaleOrientation[3] = 0.0f;
wxLogTrace( traceVrmlV2Parser, wxT( " scaleOrientation failed, setting to zeros" ) );
} }
//wxLogTrace( traceVrmlV2Parser, wxT( " scaleOrientation (%f,%f,%f,%f)" ),
// m_model->m_scaleOrientation[0],
// m_model->m_scaleOrientation[1],
// m_model->m_scaleOrientation[2],
// m_model->m_scaleOrientation[3] );
} }
else if( strcmp( text, "center" ) == 0 ) else if( strcmp( text, "center" ) == 0 )
{ {
parseVertex( m_file, m_model->m_center ); parseVertex( m_file, m_model->m_center );
//wxLogTrace( traceVrmlV2Parser, wxT( " center (%f,%f,%f)" ), m_model->m_center.x, m_model->m_center.y, m_model->m_center.z );
} }
else if( strcmp( text, "children" ) == 0 ) else if( strcmp( text, "children" ) == 0 )
{ {
...@@ -227,6 +248,8 @@ int VRML2_MODEL_PARSER::read_Transform() ...@@ -227,6 +248,8 @@ int VRML2_MODEL_PARSER::read_Transform()
} }
else if( strcmp( text, "Shape" ) == 0 ) else if( strcmp( text, "Shape" ) == 0 )
{ {
//wxLogTrace( traceVrmlV2Parser, wxT( " Shape" ) );
S3D_MESH* parent = m_model; S3D_MESH* parent = m_model;
S3D_MESH* new_mesh_model = new S3D_MESH(); S3D_MESH* new_mesh_model = new S3D_MESH();
...@@ -256,6 +279,8 @@ int VRML2_MODEL_PARSER::read_Transform() ...@@ -256,6 +279,8 @@ int VRML2_MODEL_PARSER::read_Transform()
int VRML2_MODEL_PARSER::read_DEF_Coordinate() int VRML2_MODEL_PARSER::read_DEF_Coordinate()
{ {
//wxLogTrace( traceVrmlV2Parser, wxT( " read_DEF_Coordinate" ) );
char text[BUFLINE_SIZE]; char text[BUFLINE_SIZE];
// Get the name of the definition. // Get the name of the definition.
...@@ -283,16 +308,23 @@ int VRML2_MODEL_PARSER::read_DEF_Coordinate() ...@@ -283,16 +308,23 @@ int VRML2_MODEL_PARSER::read_DEF_Coordinate()
} }
} }
wxLogTrace( traceVrmlV2Parser, wxT( " read_DEF_Coordinate failed" ) );
return -1; return -1;
} }
int VRML2_MODEL_PARSER::read_DEF() int VRML2_MODEL_PARSER::read_DEF()
{ {
//wxLogTrace( traceVrmlV2Parser, wxT( " read_DEF" ) );
char text[BUFLINE_SIZE]; char text[BUFLINE_SIZE];
char tagName[BUFLINE_SIZE];
if( !GetNextTag( m_file, text, sizeof(text) ) ) if( !GetNextTag( m_file, tagName, sizeof(tagName) ) )
{
wxLogTrace( traceVrmlV2Parser, wxT( " DEF failed GetNextTag first" ) );
return -1; return -1;
}
while( GetNextTag( m_file, text, sizeof(text) ) ) while( GetNextTag( m_file, text, sizeof(text) ) )
{ {
...@@ -337,6 +369,13 @@ int VRML2_MODEL_PARSER::read_DEF() ...@@ -337,6 +369,13 @@ int VRML2_MODEL_PARSER::read_DEF()
read_Shape(); read_Shape();
m_model = parent; m_model = parent;
} }
else
{
wxLogTrace( traceVrmlV2Parser, wxT( " DEF %s %s NotImplemented, skipping." ), tagName, text );
read_NotImplemented( m_file, '}' );
return -1;
}
} }
wxLogTrace( traceVrmlV2Parser, wxT( " DEF failed" ) ); wxLogTrace( traceVrmlV2Parser, wxT( " DEF failed" ) );
...@@ -346,6 +385,8 @@ int VRML2_MODEL_PARSER::read_DEF() ...@@ -346,6 +385,8 @@ int VRML2_MODEL_PARSER::read_DEF()
int VRML2_MODEL_PARSER::read_USE() int VRML2_MODEL_PARSER::read_USE()
{ {
//wxLogTrace( traceVrmlV2Parser, wxT( " read_USE" ) );
char text[BUFLINE_SIZE]; char text[BUFLINE_SIZE];
// Get the name of the definition. // Get the name of the definition.
...@@ -373,6 +414,8 @@ int VRML2_MODEL_PARSER::read_USE() ...@@ -373,6 +414,8 @@ int VRML2_MODEL_PARSER::read_USE()
int VRML2_MODEL_PARSER::read_Shape() int VRML2_MODEL_PARSER::read_Shape()
{ {
//wxLogTrace( traceVrmlV2Parser, wxT( " read_Shape" ) );
char text[BUFLINE_SIZE]; char text[BUFLINE_SIZE];
while( GetNextTag( m_file, text, sizeof(text) ) ) while( GetNextTag( m_file, text, sizeof(text) ) )
...@@ -389,7 +432,7 @@ int VRML2_MODEL_PARSER::read_Shape() ...@@ -389,7 +432,7 @@ int VRML2_MODEL_PARSER::read_Shape()
if( strcmp( text, "appearance" ) == 0 ) if( strcmp( text, "appearance" ) == 0 )
{ {
wxLogTrace( traceVrmlV2Parser, wxT( "\"appearance\" key word not supported." ) ); //wxLogTrace( traceVrmlV2Parser, wxT( " \"appearance\" key word not supported." ) );
// skip // skip
} }
else if( strcmp( text, "Appearance" ) == 0 ) else if( strcmp( text, "Appearance" ) == 0 )
...@@ -398,7 +441,7 @@ int VRML2_MODEL_PARSER::read_Shape() ...@@ -398,7 +441,7 @@ int VRML2_MODEL_PARSER::read_Shape()
} }
else if( strcmp( text, "geometry" ) == 0 ) else if( strcmp( text, "geometry" ) == 0 )
{ {
wxLogTrace( traceVrmlV2Parser, wxT( "\"geometry\" key word not supported." ) ); //wxLogTrace( traceVrmlV2Parser, wxT( " \"geometry\" key word not supported." ) );
// skip // skip
} }
else if( strcmp( text, "IndexedFaceSet" ) == 0 ) else if( strcmp( text, "IndexedFaceSet" ) == 0 )
...@@ -423,6 +466,8 @@ int VRML2_MODEL_PARSER::read_Shape() ...@@ -423,6 +466,8 @@ int VRML2_MODEL_PARSER::read_Shape()
int VRML2_MODEL_PARSER::read_Appearance() int VRML2_MODEL_PARSER::read_Appearance()
{ {
//wxLogTrace( traceVrmlV2Parser, wxT( " read_Appearance" ) );
char text[BUFLINE_SIZE]; char text[BUFLINE_SIZE];
while( GetNextTag( m_file, text, sizeof(text) ) ) while( GetNextTag( m_file, text, sizeof(text) ) )
...@@ -450,6 +495,8 @@ int VRML2_MODEL_PARSER::read_Appearance() ...@@ -450,6 +495,8 @@ int VRML2_MODEL_PARSER::read_Appearance()
int VRML2_MODEL_PARSER::read_material() int VRML2_MODEL_PARSER::read_material()
{ {
//wxLogTrace( traceVrmlV2Parser, wxT( " read_material" ) );
S3D_MATERIAL* material = NULL; S3D_MATERIAL* material = NULL;
char text[BUFLINE_SIZE]; char text[BUFLINE_SIZE];
...@@ -458,8 +505,8 @@ int VRML2_MODEL_PARSER::read_material() ...@@ -458,8 +505,8 @@ int VRML2_MODEL_PARSER::read_material()
if( strcmp( text, "Material" ) == 0 ) if( strcmp( text, "Material" ) == 0 )
{ {
wxString mat_name; wxString mat_name;
material = new S3D_MATERIAL( GetMaster(), mat_name ); material = new S3D_MATERIAL( m_Master, mat_name );
GetMaster()->Insert( material ); m_Master->Insert( material );
m_model->m_Materials = material; m_model->m_Materials = material;
if( strcmp( text, "Material" ) == 0 ) if( strcmp( text, "Material" ) == 0 )
...@@ -474,8 +521,8 @@ int VRML2_MODEL_PARSER::read_material() ...@@ -474,8 +521,8 @@ int VRML2_MODEL_PARSER::read_material()
wxString mat_name; wxString mat_name;
mat_name = FROM_UTF8( text ); mat_name = FROM_UTF8( text );
material = new S3D_MATERIAL( GetMaster(), mat_name ); material = new S3D_MATERIAL( m_Master, mat_name );
GetMaster()->Insert( material ); m_Master->Insert( material );
m_model->m_Materials = material; m_model->m_Materials = material;
if( GetNextTag( m_file, text, sizeof(text) ) ) if( GetNextTag( m_file, text, sizeof(text) ) )
...@@ -494,7 +541,7 @@ int VRML2_MODEL_PARSER::read_material() ...@@ -494,7 +541,7 @@ int VRML2_MODEL_PARSER::read_material()
wxString mat_name; wxString mat_name;
mat_name = FROM_UTF8( text ); mat_name = FROM_UTF8( text );
for( material = GetMaster()->m_Materials; material; material = material->Next() ) for( material = m_Master->m_Materials; material; material = material->Next() )
{ {
if( material->m_Name == mat_name ) if( material->m_Name == mat_name )
{ {
...@@ -515,6 +562,8 @@ int VRML2_MODEL_PARSER::read_material() ...@@ -515,6 +562,8 @@ int VRML2_MODEL_PARSER::read_material()
int VRML2_MODEL_PARSER::read_Material() int VRML2_MODEL_PARSER::read_Material()
{ {
//wxLogTrace( traceVrmlV2Parser, wxT( " read_Material" ) );
char text[BUFLINE_SIZE]; char text[BUFLINE_SIZE];
glm::vec3 vertex; glm::vec3 vertex;
...@@ -539,7 +588,7 @@ int VRML2_MODEL_PARSER::read_Material() ...@@ -539,7 +588,7 @@ int VRML2_MODEL_PARSER::read_Material()
{ {
parseVertex( m_file, vertex ); parseVertex( m_file, vertex );
if( GetMaster()->m_use_modelfile_emissiveColor == true ) if( m_Master->m_use_modelfile_emissiveColor == true )
{ {
m_model->m_Materials->m_EmissiveColor.push_back( vertex ); m_model->m_Materials->m_EmissiveColor.push_back( vertex );
} }
...@@ -548,7 +597,7 @@ int VRML2_MODEL_PARSER::read_Material() ...@@ -548,7 +597,7 @@ int VRML2_MODEL_PARSER::read_Material()
{ {
parseVertex( m_file, vertex ); parseVertex( m_file, vertex );
if( GetMaster()->m_use_modelfile_specularColor == true ) if( m_Master->m_use_modelfile_specularColor == true )
{ {
m_model->m_Materials->m_SpecularColor.push_back( vertex ); m_model->m_Materials->m_SpecularColor.push_back( vertex );
} }
...@@ -558,7 +607,7 @@ int VRML2_MODEL_PARSER::read_Material() ...@@ -558,7 +607,7 @@ int VRML2_MODEL_PARSER::read_Material()
float ambientIntensity; float ambientIntensity;
parseFloat( m_file, &ambientIntensity ); parseFloat( m_file, &ambientIntensity );
if( GetMaster()->m_use_modelfile_ambientIntensity == true ) if( m_Master->m_use_modelfile_ambientIntensity == true )
{ {
m_model->m_Materials->m_AmbientColor.push_back( glm::vec3( ambientIntensity, m_model->m_Materials->m_AmbientColor.push_back( glm::vec3( ambientIntensity,
ambientIntensity, ambientIntensity ) ); ambientIntensity, ambientIntensity ) );
...@@ -569,7 +618,7 @@ int VRML2_MODEL_PARSER::read_Material() ...@@ -569,7 +618,7 @@ int VRML2_MODEL_PARSER::read_Material()
float transparency; float transparency;
parseFloat( m_file, &transparency ); parseFloat( m_file, &transparency );
if( GetMaster()->m_use_modelfile_transparency == true ) if( m_Master->m_use_modelfile_transparency == true )
{ {
m_model->m_Materials->m_Transparency.push_back( transparency ); m_model->m_Materials->m_Transparency.push_back( transparency );
} }
...@@ -580,7 +629,7 @@ int VRML2_MODEL_PARSER::read_Material() ...@@ -580,7 +629,7 @@ int VRML2_MODEL_PARSER::read_Material()
parseFloat( m_file, &shininess ); parseFloat( m_file, &shininess );
// VRML value is normalized and openGL expects a value 0 - 128 // VRML value is normalized and openGL expects a value 0 - 128
if( GetMaster()->m_use_modelfile_shininess == true ) if( m_Master->m_use_modelfile_shininess == true )
{ {
shininess = shininess * 128.0f; shininess = shininess * 128.0f;
m_model->m_Materials->m_Shininess.push_back( shininess ); m_model->m_Materials->m_Shininess.push_back( shininess );
...@@ -588,13 +637,15 @@ int VRML2_MODEL_PARSER::read_Material() ...@@ -588,13 +637,15 @@ int VRML2_MODEL_PARSER::read_Material()
} }
} }
wxLogTrace( traceVrmlV2Parser, wxT( " Material failed\n" ) ); wxLogTrace( traceVrmlV2Parser, wxT( " Material failed" ) );
return -1; return -1;
} }
int VRML2_MODEL_PARSER::read_IndexedFaceSet() int VRML2_MODEL_PARSER::read_IndexedFaceSet()
{ {
//wxLogTrace( traceVrmlV2Parser, wxT( " read_IndexedFaceSet" ) );
char text[BUFLINE_SIZE]; char text[BUFLINE_SIZE];
m_normalPerVertex = false; m_normalPerVertex = false;
...@@ -672,6 +723,8 @@ int VRML2_MODEL_PARSER::read_IndexedFaceSet() ...@@ -672,6 +723,8 @@ int VRML2_MODEL_PARSER::read_IndexedFaceSet()
int VRML2_MODEL_PARSER::read_IndexedLineSet() int VRML2_MODEL_PARSER::read_IndexedLineSet()
{ {
//wxLogTrace( traceVrmlV2Parser, wxT( " read_IndexedLineSet" ) );
char text[BUFLINE_SIZE]; char text[BUFLINE_SIZE];
while( GetNextTag( m_file, text, sizeof(text) ) ) while( GetNextTag( m_file, text, sizeof(text) ) )
...@@ -696,6 +749,8 @@ int VRML2_MODEL_PARSER::read_IndexedLineSet() ...@@ -696,6 +749,8 @@ int VRML2_MODEL_PARSER::read_IndexedLineSet()
int VRML2_MODEL_PARSER::read_colorIndex() int VRML2_MODEL_PARSER::read_colorIndex()
{ {
//wxLogTrace( traceVrmlV2Parser, wxT( " read_colorIndex" ) );
m_model->m_MaterialIndex.clear(); m_model->m_MaterialIndex.clear();
if( colorPerVertex == true ) if( colorPerVertex == true )
...@@ -726,12 +781,16 @@ int VRML2_MODEL_PARSER::read_colorIndex() ...@@ -726,12 +781,16 @@ int VRML2_MODEL_PARSER::read_colorIndex()
} }
} }
//wxLogTrace( traceVrmlV2Parser, wxT( " read_colorIndex m_MaterialIndex.size: %u" ), (unsigned int)m_model->m_MaterialIndex.size() );
return 0; return 0;
} }
int VRML2_MODEL_PARSER::read_NormalIndex() int VRML2_MODEL_PARSER::read_NormalIndex()
{ {
//wxLogTrace( traceVrmlV2Parser, wxT( " read_NormalIndex" ) );
m_model->m_NormalIndex.clear(); m_model->m_NormalIndex.clear();
glm::ivec3 coord; glm::ivec3 coord;
...@@ -754,12 +813,16 @@ int VRML2_MODEL_PARSER::read_NormalIndex() ...@@ -754,12 +813,16 @@ int VRML2_MODEL_PARSER::read_NormalIndex()
} }
} }
//wxLogTrace( traceVrmlV2Parser, wxT( " read_NormalIndex m_NormalIndex.size: %u" ), (unsigned int)m_model->m_NormalIndex.size() );
return 0; return 0;
} }
int VRML2_MODEL_PARSER::read_coordIndex() int VRML2_MODEL_PARSER::read_coordIndex()
{ {
//wxLogTrace( traceVrmlV2Parser, wxT( " read_coordIndex" ) );
m_model->m_CoordIndex.clear(); m_model->m_CoordIndex.clear();
glm::ivec3 coord; glm::ivec3 coord;
...@@ -782,6 +845,8 @@ int VRML2_MODEL_PARSER::read_coordIndex() ...@@ -782,6 +845,8 @@ int VRML2_MODEL_PARSER::read_coordIndex()
} }
} }
//wxLogTrace( traceVrmlV2Parser, wxT( " read_coordIndex m_CoordIndex.size: %u" ), (unsigned int)m_model->m_CoordIndex.size() );
return 0; return 0;
} }
...@@ -808,7 +873,7 @@ int VRML2_MODEL_PARSER::read_Color() ...@@ -808,7 +873,7 @@ int VRML2_MODEL_PARSER::read_Color()
} }
} }
wxLogTrace( traceVrmlV2Parser, wxT( " read_Color failed" ) ); //wxLogTrace( traceVrmlV2Parser, wxT( " read_Color failed" ) );
return -1; return -1;
} }
...@@ -826,6 +891,11 @@ int VRML2_MODEL_PARSER::read_Normal() ...@@ -826,6 +891,11 @@ int VRML2_MODEL_PARSER::read_Normal()
if( *text == '}' ) if( *text == '}' )
{ {
//if( m_normalPerVertex == false )
// wxLogTrace( traceVrmlV2Parser, wxT( " read_Normal m_PerFaceNormalsNormalized.size: %u" ), (unsigned int)m_model->m_PerFaceNormalsNormalized.size() );
//else
// wxLogTrace( traceVrmlV2Parser, wxT( " read_Normal m_PerVertexNormalsNormalized.size: %u" ), (unsigned int)m_model->m_PerVertexNormalsNormalized.size() );
return 0; return 0;
} }
...@@ -842,6 +912,7 @@ int VRML2_MODEL_PARSER::read_Normal() ...@@ -842,6 +912,7 @@ int VRML2_MODEL_PARSER::read_Normal()
} }
} }
wxLogTrace( traceVrmlV2Parser, wxT( " read_Normal failed" ) );
return -1; return -1;
} }
...@@ -859,6 +930,7 @@ int VRML2_MODEL_PARSER::read_Coordinate() ...@@ -859,6 +930,7 @@ int VRML2_MODEL_PARSER::read_Coordinate()
if( *text == '}' ) if( *text == '}' )
{ {
//wxLogTrace( traceVrmlV2Parser, wxT( " read_Coordinate m_Point.size: %u" ), (unsigned int)m_model->m_Point.size() );
return 0; return 0;
} }
...@@ -868,6 +940,7 @@ int VRML2_MODEL_PARSER::read_Coordinate() ...@@ -868,6 +940,7 @@ int VRML2_MODEL_PARSER::read_Coordinate()
} }
} }
wxLogTrace( traceVrmlV2Parser, wxT( " read_Coordinate failed" ) );
return -1; return -1;
} }
...@@ -885,11 +958,15 @@ int VRML2_MODEL_PARSER::read_CoordinateDef() ...@@ -885,11 +958,15 @@ int VRML2_MODEL_PARSER::read_CoordinateDef()
continue; continue;
if( *text == '}' ) if( *text == '}' )
{
//wxLogTrace( traceVrmlV2Parser, wxT( " read_CoordinateDef m_Point.size: %u" ), (unsigned int)m_model->m_Point.size() );
return 0; return 0;
}
if( strcmp( text, "point" ) == 0 ) if( strcmp( text, "point" ) == 0 )
parseVertexList( m_file, m_model->m_Point ); parseVertexList( m_file, m_model->m_Point );
} }
wxLogTrace( traceVrmlV2Parser, wxT( " read_CoordinateDef failed" ) );
return -1; return -1;
} }
3d-viewer/vrmlmodelparser.cpp
View file @ cbb0e2ad
...@@ -41,9 +41,9 @@ ...@@ -41,9 +41,9 @@
VRML_MODEL_PARSER::VRML_MODEL_PARSER( S3D_MASTER* aMaster ) : VRML_MODEL_PARSER::VRML_MODEL_PARSER( S3D_MASTER* aMaster ) :
S3D_MODEL_PARSER( aMaster ) S3D_MODEL_PARSER( aMaster )
{ {
m_curr3DShape = aMaster;
vrml1_parser = NULL; vrml1_parser = NULL;
vrml2_parser = NULL; vrml2_parser = NULL;
m_curr3DShape = NULL;
} }
...@@ -52,9 +52,9 @@ VRML_MODEL_PARSER::~VRML_MODEL_PARSER() ...@@ -52,9 +52,9 @@ VRML_MODEL_PARSER::~VRML_MODEL_PARSER()
} }
void VRML_MODEL_PARSER::Load( const wxString& aFilename, double aVrmlunits_to_3Dunits ) bool VRML_MODEL_PARSER::Load( const wxString& aFilename )
{ {
char line[128]; char line[11 + 1];
FILE* file; FILE* file;
//DBG( printf( "Load %s", GetChars( aFilename ) ) ); //DBG( printf( "Load %s", GetChars( aFilename ) ) );
...@@ -62,34 +62,33 @@ void VRML_MODEL_PARSER::Load( const wxString& aFilename, double aVrmlunits_to_3D ...@@ -62,34 +62,33 @@ void VRML_MODEL_PARSER::Load( const wxString& aFilename, double aVrmlunits_to_3D
file = wxFopen( aFilename, wxT( "rt" ) ); file = wxFopen( aFilename, wxT( "rt" ) );
if( file == NULL ) if( file == NULL )
return; return false;
if( fgets( line, 11, file ) == NULL ) if( fgets( line, 11, file ) == NULL )
{ {
fclose( file ); fclose( file );
return; return false;
} }
fclose( file ); fclose( file );
if( stricmp( line, "#VRML V2.0" ) == 0 ) if( stricmp( line, "#VRML V2.0" ) == 0 )
{ {
//DBG( printf( "About to parser a #VRML V2.0 file\n" ) ); vrml2_parser = new VRML2_MODEL_PARSER( this );
vrml2_parser = new VRML2_MODEL_PARSER( m_curr3DShape ); vrml2_parser->Load( aFilename );
vrml2_parser->Load( aFilename, aVrmlunits_to_3Dunits );
delete vrml2_parser; delete vrml2_parser;
vrml2_parser = NULL; vrml2_parser = NULL;
return; return true;
} }
else if( stricmp( line, "#VRML V1.0" ) == 0 ) else if( stricmp( line, "#VRML V1.0" ) == 0 )
{ {
//DBG( printf( "About to parser a #VRML V1.0 file\n" ) ); vrml1_parser = new VRML1_MODEL_PARSER( this );
vrml1_parser = new VRML1_MODEL_PARSER( m_curr3DShape ); vrml1_parser->Load( aFilename );
vrml1_parser->Load( aFilename, aVrmlunits_to_3Dunits );
delete vrml1_parser; delete vrml1_parser;
vrml1_parser = NULL; vrml1_parser = NULL;
return; return true;
} }
// DBG( printf( "Unknown VRML file format: %s\n", line ) ); DBG( printf( "Unknown internal VRML file format: %s\n", line ) );
return false;
} }
3d-viewer/x3dmodelparser.cpp
View file @ cbb0e2ad
...@@ -40,6 +40,14 @@ ...@@ -40,6 +40,14 @@
#include <modelparsers.h> #include <modelparsers.h>
#include <xnode.h> #include <xnode.h>
/**
* Trace mask used to enable or disable the trace output of the X3D parser code.
* The debug output can be turned on by setting the WXTRACE environment variable to
* "KI_TRACE_X3D_PARSER". See the wxWidgets documentation on wxLogTrace for
* more information.
*/
static const wxChar* traceX3DParser = wxT( "KI_TRACE_X3D_PARSER" );
X3D_MODEL_PARSER::X3D_MODEL_PARSER( S3D_MASTER* aMaster ) : X3D_MODEL_PARSER::X3D_MODEL_PARSER( S3D_MASTER* aMaster ) :
S3D_MODEL_PARSER( aMaster ) S3D_MODEL_PARSER( aMaster )
...@@ -53,41 +61,24 @@ X3D_MODEL_PARSER::~X3D_MODEL_PARSER() ...@@ -53,41 +61,24 @@ X3D_MODEL_PARSER::~X3D_MODEL_PARSER()
} }
void X3D_MODEL_PARSER::Load( const wxString& aFilename, double aVrmlUnitsTo3DUnits ) bool X3D_MODEL_PARSER::Load( const wxString& aFilename )
{ {
wxLogTrace( traceX3DParser, wxT( "Loading: %s" ), GetChars( aFilename ) );
wxXmlDocument doc; wxXmlDocument doc;
if( !doc.Load( aFilename ) ) if( !doc.Load( aFilename ) )
{ {
wxLogError( wxT( "Error while parsing file '%s'" ), GetChars( aFilename ) ); wxLogTrace( traceX3DParser, wxT( "Error while parsing file: %s" ), GetChars( aFilename ) );
return; return false;
} }
if( doc.GetRoot()->GetName() != wxT( "X3D" ) ) if( doc.GetRoot()->GetName() != wxT( "X3D" ) )
{ {
wxLogError( wxT( "Filetype is not X3D '%s'" ), GetChars( aFilename ) ); wxLogTrace( traceX3DParser, wxT( "Filetype is not X3D: %s" ), GetChars( aFilename ) );
return; return false;
} }
float vrmlunits_to_3Dunits = aVrmlUnitsTo3DUnits;
glScalef( vrmlunits_to_3Dunits, vrmlunits_to_3Dunits, vrmlunits_to_3Dunits );
glm::vec3 matScale( GetMaster()->m_MatScale.x, GetMaster()->m_MatScale.y,
GetMaster()->m_MatScale.z );
glm::vec3 matRot( GetMaster()->m_MatRotation.x, GetMaster()->m_MatRotation.y,
GetMaster()->m_MatRotation.z );
glm::vec3 matPos( GetMaster()->m_MatPosition.x, GetMaster()->m_MatPosition.y,
GetMaster()->m_MatPosition.z );
glTranslatef( matPos.x * SCALE_3D_CONV, matPos.y * SCALE_3D_CONV, matPos.z * SCALE_3D_CONV );
glRotatef( -matRot.z, 0.0f, 0.0f, 1.0f );
glRotatef( -matRot.y, 0.0f, 1.0f, 0.0f );
glRotatef( -matRot.x, 1.0f, 0.0f, 0.0f );
glScalef( matScale.x, matScale.y, matScale.z );
// Switch the locale to standard C (needed to print floating point numbers) // Switch the locale to standard C (needed to print floating point numbers)
LOCALE_IO toggle; LOCALE_IO toggle;
...@@ -109,15 +100,7 @@ void X3D_MODEL_PARSER::Load( const wxString& aFilename, double aVrmlUnitsTo3DUni ...@@ -109,15 +100,7 @@ void X3D_MODEL_PARSER::Load( const wxString& aFilename, double aVrmlUnitsTo3DUni
readTransform( *node_it ); readTransform( *node_it );
} }
// DBG( printf( "chils size:%lu\n", childs.size() ) ); return true;
if( GetMaster()->IsOpenGlAllowed() )
{
for( unsigned int idx = 0; idx < childs.size(); idx++ )
{
childs[idx]->openGL_RenderAllChilds();
}
}
} }
...@@ -485,7 +468,7 @@ void X3D_MODEL_PARSER::readIndexedFaceSet( wxXmlNode* aFaceNode, ...@@ -485,7 +468,7 @@ void X3D_MODEL_PARSER::readIndexedFaceSet( wxXmlNode* aFaceNode,
} }
else else
{ {
wxLogError( wxT( "Error converting to double" ) ); wxLogTrace( traceX3DParser, wxT( "Error converting to double" ) );
} }
} }
...@@ -552,7 +535,7 @@ void X3D_MODEL_PARSER::readIndexedFaceSet( wxXmlNode* aFaceNode, ...@@ -552,7 +535,7 @@ void X3D_MODEL_PARSER::readIndexedFaceSet( wxXmlNode* aFaceNode,
} }
else else
{ {
wxLogError( wxT( "Error converting to double" ) ); wxLogTrace( traceX3DParser, wxT( "Error converting to double" ) );
} }
} }
......
pcbnew/class_module.h
View file @ cbb0e2ad
...@@ -312,21 +312,6 @@ public: ...@@ -312,21 +312,6 @@ public:
void DrawOutlinesWhenMoving( EDA_DRAW_PANEL* aPanel, void DrawOutlinesWhenMoving( EDA_DRAW_PANEL* aPanel,
wxDC* aDC, const wxPoint& aMoveVector ); wxDC* aDC, const wxPoint& aMoveVector );
/**
* function ReadandInsert3DComponentShape
* read the 3D component shape(s) of the footprint (physical shape)
* and insert mesh in gl list
* @param glcanvas = the openGL canvas
* @param aAllowNonTransparentObjects = true to load non transparent objects
* @param aAllowTransparentObjects = true to load non transparent objects
* @param aSideToLoad = false will load not fliped, true will load fliped objects
* in openGL, transparent objects should be drawn *after* non transparent objects
*/
void ReadAndInsert3DComponentShape( EDA_3D_CANVAS* glcanvas,
bool aAllowNonTransparentObjects,
bool aAllowTransparentObjects,
bool aSideToLoad );
/** /**
* function TransformPadsShapesWithClearanceToPolygon * function TransformPadsShapesWithClearanceToPolygon
* generate pads shapes on layer aLayer as polygons, * generate pads shapes on layer aLayer as polygons,
......
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