SBSPSS/Utils/MapEdit/GLEnabledView.cpp

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/*****************************************************
Copyright Notice & Disclaimer
Copyright <EFBFBD>1998-1999 Alessandro Falappa
Permission to use, copy, modify, and distribute this software
and its documentation for any purpose is hereby granted without
fee, provided that the above copyright notice, author statement
appear in all copies of this software and related documentation.
If you make enhancement or you find (and possibly fix) bugs,
please let me know
THE SOFTWARE IS PROVIDED "AS-IS" AND WITHOUT WARRANTY OF
ANY KIND, EXPRESS, IMPLIED OR OTHERWISE, INCLUDING WITHOUT
LIMITATION, ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR A
PARTICULAR PURPOSE.
IN NO EVENT SHALL ALESSANDRO FALAPPA BE LIABLE FOR ANY
SPECIAL, INCIDENTAL, INDIRECT OR CONSEQUENTIAL DAMAGES OF ANY
KIND, OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA
OR PROFITS, WHETHER OR NOT ADVISED OF THE POSSIBILITY OF DAMAGE,
AND ON ANY THEORY OF LIABILITY, ARISING OUT OF OR IN CONNECTION
WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
///////////////////////////////////////////////
History
v 1.0: first version
v 1.1: added CGLDispList helper class
changed previous disp list service in StockDispList
v 1.2: added CGLTesselator helper class
added GLCommands pair
added CGLQuadric wrapper class
v 1.3: changed window initialization with creation of a windowclass (this solved little NT bug)
added GLU library information retrieval
introduced GL/GLU Information Structure
v 1.4: introduced GL/GLU error checking in OnDraw message handler after scene drawing
improved GL/GLU library information retrieval and modified GL/GLU Information Structure accordingly (added implementation dependent values retrieval)
added 2D bitmap text and 3D polygonal text routines
******************************************************/
// CGLEnabledView.cpp : implementation file
//
#include "stdafx.h"
/*******************
NOTE ABOUT LIBRARIES INCLUSION:
- Remember to include the appropriate libraries in the link phase
(look at Project Settings under the Link tab)
- If you were lucky enough to get SGI's implementation (at present it's
not availabl nor supported) you can play with it also, just include
that libraries. SGI's version is faster if you have no GL acceleration
and if you own a MMX processor
- These includes below can be moved to stdafx.h to speed up compilation
********************/
/* MS openGL libraries (link with OPENGL32.LIB and GLU32.LIB)
#include "gl\gl.h" // moved to stdafx.h
#include "gl\glu.h"
//*/
/* SGI openGL libraries (link with OPENGL.LIB and GLU.LIB)
#include "[path-of-SGI-sdk]\include\gl\gl.h"
#include "[path-of-SGI-sdk]\include\gl\glu.h"
//*/
#include <gl\gl.h>
#include <gl\glu.h>
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//#include <gl\glut.h>
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#include "GLEnabledView.h"
#ifdef _DEBUG
#define new DEBUG_NEW
#undef THIS_FILE
static char THIS_FILE[] = __FILE__;
#endif
#define MAX_LISTS 20
// used to identify a MCD video driver (partial OGL acceleration)
#define ICD_DRIVER_MASK (PFD_GENERIC_ACCELERATED | PFD_GENERIC_FORMAT)
/////////////////////////////////////////////////////////////////////////////
// Global Functions/variables
// These functions are used by CGLTesselator class
struct GarbListItem{
GLdouble *pvert;
GarbListItem* next;};
GarbListItem* m_garbagelist=NULL;
void AddGarbage(GLdouble * ptr)
{
ASSERT(ptr!=NULL);
// allocate mem for new list item
GarbListItem* temp=new GarbListItem;
// store pointer
temp->pvert=ptr;
// add at head of list
temp->next=m_garbagelist;
m_garbagelist=temp;
}
void DeleteGarbage()
{
if(m_garbagelist!=NULL)
{
GarbListItem* punt=m_garbagelist;
GarbListItem* temp=m_garbagelist;
// scan the list
while(punt!=NULL)
{
// delete vertex
delete[] punt->pvert;
punt=punt->next;
// delete list item
delete temp;
temp=punt;
};
m_garbagelist=NULL;
};
}
void CALLBACK BeginCallback(GLenum type)
{
// issue corresponding GL call
glBegin(type);
}
void CALLBACK ErrorCallback(GLenum errorCode)
{
const GLubyte *estring;
CString mexstr;
// get the error descritption from OGL
estring = gluErrorString(errorCode);
// prepare and show a message box
mexstr.Format("Tessellation/Quadric Error: %s\n", estring);
AfxMessageBox(mexstr,MB_OK | MB_ICONEXCLAMATION);
// replicate mex to debug trace
TRACE0(mexstr);
}
void CALLBACK EndCallback()
{
// issue corresponding GL call
glEnd();
}
void CALLBACK VertexCallback(GLvoid *vertex)
{
// issue corresponding GL call (double is used to get max precision)
glVertex3dv( (const double *)vertex );
}
void CALLBACK CombineCallback(GLdouble coords[3], GLdouble *data[4], GLfloat weight[4], GLdouble **dataOut )
{
// allocate memory for a new vertex
GLdouble *vertex;
vertex = new GLdouble[3];
// store reported vertex
vertex[0] = coords[0];
vertex[1] = coords[1];
vertex[2] = coords[2];
// return vertex to OGL
*dataOut = vertex;
// add vertex pointer to garbage collection routines
AddGarbage(vertex);
}
/////////////////////////////////////////////////////////////////////////////
// CGLEnabledView
IMPLEMENT_DYNCREATE(CGLEnabledView, CView)
CGLEnabledView::CGLEnabledView():
m_dAspectRatio(1.0),
m_numchars(128),
m_bInsideDispList(FALSE), m_bExternDispListCall(FALSE),
m_bExternGLCall(FALSE),
m_gmfvector(NULL),
m_charsetDListBase(0)
{
// define a default cursor
m_hMouseCursor=AfxGetApp()->LoadStandardCursor(IDC_SIZEALL);
// set the disp list vector to all zeros
for (int c=0;c<MAX_LISTS;c++) m_DispListVector[c]=0;
}
CGLEnabledView::~CGLEnabledView()
{
if(m_gmfvector!=NULL) delete[] m_gmfvector;
}
BEGIN_MESSAGE_MAP(CGLEnabledView, CView)
//{{AFX_MSG_MAP(CGLEnabledView)
ON_WM_CREATE()
ON_WM_DESTROY()
ON_WM_ERASEBKGND()
ON_WM_SIZE()
ON_WM_SETCURSOR()
//}}AFX_MSG_MAP
END_MESSAGE_MAP()
/////////////////////////////////////////////////////////////////////////////
// CGLEnabledView drawing
void CGLEnabledView::OnDraw(CDC* pDC)
{
// prepare a semaphore
static BOOL bBusy = FALSE;
// use the semaphore to enter this critic section
if(bBusy) return;
bBusy = TRUE;
// specify the target DeviceContext of the subsequent OGL calls
wglMakeCurrent(m_pCDC->GetSafeHdc(), m_hRC);
// clear background
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// glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
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// call the virtual drawing procedure (to be overridden by user)
OnDrawGL();
// execute OGL commands (flush the OGL graphical pipeline)
// glFinish(); // useless cause swapbuffers issues an implicit glFinish
// if double buffering is used it's time to swap the buffers
SwapBuffers(m_pCDC->GetSafeHdc());
// check for errors
m_glErrorCode=glGetError();
if(m_glErrorCode != GL_NO_ERROR)
{
const GLubyte *estring;
CString mexstr;
// get the error descritption from OGL
estring = gluErrorString(m_glErrorCode);
// prepare and show a message box
mexstr.Format("GLEnabledView:\n\tAn OpenGL error occurred: %s\n", estring);
AfxMessageBox(mexstr,MB_OK | MB_ICONEXCLAMATION);
// replicate mex to debug trace
TRACE0(mexstr);
// turn the semaphore "red" to avoid other wrong drawings
bBusy=TRUE;
}
else
{
// turn the semaphore "green"
bBusy = FALSE;
}
// free the target DeviceContext (window)
wglMakeCurrent(NULL,NULL);
}
void CGLEnabledView::OnDrawGL()
{
// draw carthesian axes
glBegin(GL_LINES);
// red x axis
glColor3f(1.f,0.f,0.f);
glVertex3f(0.0f,0.0f,0.0f);
glVertex3f(1.0f,0.0f,0.0f);
glVertex3f(1.0f,0.0f,0.0f);
glVertex3f(0.9f,0.1f,0.0f);
glVertex3f(1.0f,0.0f,0.0f);
glVertex3f(0.9f,-0.1f,0.0f);
// green y axis
glColor3f(0.f,1.f,0.f);
glVertex3f(0.0f,0.0f,0.0f);
glVertex3f(0.0f,1.0f,0.0f);
glVertex3f(0.0f,1.0f,0.0f);
glVertex3f(0.1f,0.9f,0.0f);
glVertex3f(0.0f,1.0f,0.0f);
glVertex3f(-0.1f,0.9f,0.0f);
// blue z axis
glColor3f(0.f,0.f,1.f);
glVertex3f(0.0f,0.0f,0.0f);
glVertex3f(0.0f,0.0f,1.0f);
glVertex3f(0.0f,0.0f,1.0f);
glVertex3f(0.0f,0.1f,0.9f);
glVertex3f(0.0f,0.0f,1.0f);
glVertex3f(0.0f,-0.1f,0.9f);
glEnd();
}
/////////////////////////////////////////////////////////////////////////////
// CGLEnabledView diagnostics
#ifdef _DEBUG
void CGLEnabledView::AssertValid() const
{
CView::AssertValid();
}
void CGLEnabledView::Dump(CDumpContext& dc) const
{
CView::Dump(dc);
// dump some infos
CString str;
GetWindowText(str);
afxDump<<"\nView Parameters\n\tClient Rectangle :"<<m_ClientRect<<"\n\tAspect Ratio :"<<m_dAspectRatio<<"\n";
afxDump<<"\nWindowTitle :"<<str<<"\n";
}
#endif //_DEBUG
/////////////////////////////////////////////////////////
// CGLEnabledView Constants
// these are used to construct an equilibrated 256 color palette
static unsigned char _threeto8[8] =
{
0, 0111>>1, 0222>>1, 0333>>1, 0444>>1, 0555>>1, 0666>>1, 0377
};
static unsigned char _twoto8[4] =
{
0, 0x55, 0xaa, 0xff
};
static unsigned char _oneto8[2] =
{
0, 255
};
static int defaultOverride[13] =
{
0, 3, 24, 27, 64, 67, 88, 173, 181, 236, 247, 164, 91
};
// Windows Default Palette
static PALETTEENTRY defaultPalEntry[20] =
{
{ 0, 0, 0, 0 },
{ 0x80,0, 0, 0 },
{ 0, 0x80,0, 0 },
{ 0x80,0x80,0, 0 },
{ 0, 0, 0x80, 0 },
{ 0x80,0, 0x80, 0 },
{ 0, 0x80,0x80, 0 },
{ 0xC0,0xC0,0xC0, 0 },
{ 192, 220, 192, 0 },
{ 166, 202, 240, 0 },
{ 255, 251, 240, 0 },
{ 160, 160, 164, 0 },
{ 0x80,0x80,0x80, 0 },
{ 0xFF,0, 0, 0 },
{ 0, 0xFF,0, 0 },
{ 0xFF,0xFF,0, 0 },
{ 0, 0, 0xFF, 0 },
{ 0xFF,0, 0xFF, 0 },
{ 0, 0xFF,0xFF, 0 },
{ 0xFF,0xFF,0xFF, 0 }
};
/////////////////////////////////////////////////////////////////////////////
// CGLEnabledView initialization and palette helpers
BOOL CGLEnabledView::bSetupPixelFormat()
{
// define a default desired video mode (pixel format)
static PIXELFORMATDESCRIPTOR pfd =
{
sizeof(PIXELFORMATDESCRIPTOR), // size of this pfd
1, // version number
PFD_DRAW_TO_WINDOW | // support window
PFD_SUPPORT_OPENGL | // support OpenGL
PFD_DOUBLEBUFFER , // double buffered
PFD_TYPE_RGBA, // RGBA type
24, // 24-bit color depth
0, 0, 0, 0, 0, 0, // color bits ignored
0, // no alpha buffer
0, // shift bit ignored
0, // no accumulation buffer
0, 0, 0, 0, // accum bits ignored
16, // 16-bit z-buffer
0, // no stencil buffer
0, // no auxiliary buffer
PFD_MAIN_PLANE, // main layer
0, // reserved
0, 0, 0 // layer masks ignored
};
// let the user change some parameters if he wants
BOOL bDoublBuf;
ColorsNumber cnum;
ZAccuracy zdepth;
VideoMode(cnum,zdepth,bDoublBuf);
//set the user changes
if(bDoublBuf) pfd.dwFlags=PFD_DRAW_TO_WINDOW | PFD_SUPPORT_OPENGL |PFD_DOUBLEBUFFER;
else pfd.dwFlags=PFD_DRAW_TO_WINDOW | PFD_SUPPORT_OPENGL;
switch(cnum)
{
case INDEXED:
pfd.cColorBits=8;
pfd.iPixelType=PFD_TYPE_COLORINDEX;
break;
case THOUSANDS:
pfd.cColorBits=16;
break;
case MILLIONS_WITH_TRANSPARENCY:
pfd.cColorBits=32;
break;
case MILLIONS:
default:
pfd.cColorBits=24;
break;
};
switch(zdepth)
{
case NORMAL:
pfd.cDepthBits=16;
break;
case ACCURATE:
pfd.cDepthBits=32;
break;
};
// ask the system for such video mode
ASSERT(m_pCDC != NULL);
int pixelformat;
if ( (pixelformat = ChoosePixelFormat(m_pCDC->GetSafeHdc(), &pfd)) == 0 )
{
AfxMessageBox("ChoosePixelFormat failed");
return FALSE;
}
// try to set this video mode
if (SetPixelFormat(m_pCDC->GetSafeHdc(), pixelformat, &pfd) == FALSE)
{
// the requested video mode is not available so get a default one (the first)
pixelformat = 1;
if (DescribePixelFormat(m_pCDC->GetSafeHdc(), pixelformat, sizeof(PIXELFORMATDESCRIPTOR), &pfd)==0)
{
// neither the requested nor the default are available: fail
AfxMessageBox("SetPixelFormat failed (no OpenGL compatible video mode)");
return FALSE;
}
}
return TRUE;
}
void CGLEnabledView::CreateRGBPalette()
{
PIXELFORMATDESCRIPTOR pfd;
LOGPALETTE *pPal;
int n, i;
// get the initially choosen video mode
n = ::GetPixelFormat(m_pCDC->GetSafeHdc());
::DescribePixelFormat(m_pCDC->GetSafeHdc(), n, sizeof(pfd), &pfd);
// if is an indexed one...
if (pfd.dwFlags & PFD_NEED_PALETTE)
{
// ... construct an equilibrated palette (3 red bits, 3 green bits, 2 blue bits)
// NOTE: this code has been taken from MFC example Cube
n = 1 << pfd.cColorBits;
pPal = (PLOGPALETTE) new char[sizeof(LOGPALETTE) + n * sizeof(PALETTEENTRY)];
ASSERT(pPal != NULL);
pPal->palVersion = 0x300;
pPal->palNumEntries = unsigned short(n);
for (i=0; i<n; i++)
{
pPal->palPalEntry[i].peRed=ComponentFromIndex(i, pfd.cRedBits, pfd.cRedShift);
pPal->palPalEntry[i].peGreen=ComponentFromIndex(i, pfd.cGreenBits, pfd.cGreenShift);
pPal->palPalEntry[i].peBlue=ComponentFromIndex(i, pfd.cBlueBits, pfd.cBlueShift);
pPal->palPalEntry[i].peFlags=0;
}
// fix up the palette to include the default Windows palette
if ((pfd.cColorBits == 8) &&
(pfd.cRedBits == 3) && (pfd.cRedShift == 0) &&
(pfd.cGreenBits == 3) && (pfd.cGreenShift == 3) &&
(pfd.cBlueBits == 2) && (pfd.cBlueShift == 6)
)
{
for (i = 1 ; i <= 12 ; i++)
pPal->palPalEntry[defaultOverride[i]] = defaultPalEntry[i];
}
m_CurrentPalette.CreatePalette(pPal);
delete pPal;
// set the palette
m_pOldPalette=m_pCDC->SelectPalette(&m_CurrentPalette, FALSE);
m_pCDC->RealizePalette();
}
}
unsigned char CGLEnabledView::ComponentFromIndex(int i, UINT nbits, UINT shift)
{
unsigned char val;
val = (unsigned char) (i >> shift);
switch (nbits)
{
case 1:
val &= 0x1;
return _oneto8[val];
case 2:
val &= 0x3;
return _twoto8[val];
case 3:
val &= 0x7;
return _threeto8[val];
default:
return 0;
}
}
/////////////////////////////////////////////////////////////////////////////
// CGLEnabledView message handlers and overridables
int CGLEnabledView::OnCreate(LPCREATESTRUCT lpCreateStruct)
{
if (CView::OnCreate(lpCreateStruct) == -1) return -1;
// OpenGL rendering context creation
PIXELFORMATDESCRIPTOR pfd;
int n;
// initialize the private member
m_pCDC= new CClientDC(this);
// choose the requested video mode
if (!bSetupPixelFormat()) return 0;
// ask the system if the video mode is supported
n=::GetPixelFormat(m_pCDC->GetSafeHdc());
::DescribePixelFormat(m_pCDC->GetSafeHdc(),n,sizeof(pfd),&pfd);
// create a palette if the requested video mode has 256 colors (indexed mode)
CreateRGBPalette();
// link the Win Device Context with the OGL Rendering Context
m_hRC = wglCreateContext(m_pCDC->GetSafeHdc());
// specify the target DeviceContext (window) of the subsequent OGL calls
wglMakeCurrent(m_pCDC->GetSafeHdc(), m_hRC);
// performs default setting of rendering mode,etc..
OnCreateGL();
// free the target DeviceContext (window)
wglMakeCurrent(NULL,NULL);
return 0;
}
void CGLEnabledView::OnCreateGL()
{
// perform hidden line/surface removal (enabling Z-Buffer)
glEnable(GL_DEPTH_TEST);
// set background color to black
glClearColor(0.f,0.f,0.f,1.0f );
// set clear Z-Buffer value
glClearDepth(1.0f);
}
void CGLEnabledView::OnDestroy()
{
// specify the target DeviceContext (window) of the subsequent OGL calls
wglMakeCurrent(m_pCDC->GetSafeHdc(), m_hRC);
// remove all display lists
for (int c=0;c<MAX_LISTS;c++) if(m_DispListVector[c]) glDeleteLists(m_DispListVector[c],1);
// release definitely OGL Rendering Context
if (m_hRC!=NULL) ::wglDeleteContext(m_hRC);
// Select our palette out of the dc
CPalette palDefault;
palDefault.CreateStockObject(DEFAULT_PALETTE);
m_pCDC->SelectPalette(&palDefault, FALSE);
// destroy Win Device Context
if(m_pCDC) delete m_pCDC;
// finally call the base function
CView::OnDestroy();
}
BOOL CGLEnabledView::PreCreateWindow(CREATESTRUCT& cs)
{
// these styles are requested by OpenGL
cs.style |= (WS_CLIPCHILDREN | WS_CLIPSIBLINGS);
// call base class PreCreateWindow to get the cs.lpszClass filled in with the MFC default class name
if( !CView::PreCreateWindow(cs) )
return 0;
// Register the window class if it has not already been registered.
WNDCLASS wndcls;
HINSTANCE hInst = AfxGetInstanceHandle();
// this is the new registered window class
#define CUSTOM_CLASSNAME _T("GL_WINDOW_CLASS")
// check if our class has been already registered (typical in MDI environment)
if(!(::GetClassInfo(hInst, CUSTOM_CLASSNAME, &wndcls)))
{
// get default MFC class settings
if(::GetClassInfo(hInst, cs.lpszClass, &wndcls))
{
// set our class name
wndcls.lpszClassName = CUSTOM_CLASSNAME;
// these styles are set for GL to work in MDI
wndcls.style |= (CS_OWNDC | CS_HREDRAW | CS_VREDRAW);
wndcls.hbrBackground = NULL;
// try to register class (else throw exception)
if (!AfxRegisterClass(&wndcls)) AfxThrowResourceException();
}
// default MFC class not registered
else AfxThrowResourceException();
}
// set our class name in CREATESTRUCT
cs.lpszClass = CUSTOM_CLASSNAME;
// we're all set
return 1;
}
BOOL CGLEnabledView::OnEraseBkgnd(CDC* pDC)
{
// OGL has his own background erasing so tell Windows to skip (avoids flicker)
return TRUE;
}
void CGLEnabledView::OnSize(UINT nType, int cx, int cy)
{
CView::OnSize(nType, cx, cy);
// when called with a nonzero window:
if ( 0 < cx && 0 < cy )
{
// update the rect and the aspect ratio
m_ClientRect.right = cx;
m_ClientRect.bottom = cy;
m_dAspectRatio=double(cx)/double(cy);
// specify the target DeviceContext of the OGL calls below
wglMakeCurrent(m_pCDC->GetSafeHdc(), m_hRC);
// call the virtual sizing procedure (to be overridden by user)
OnSizeGL(cx,cy);
// free the target DeviceContext (window)
wglMakeCurrent(NULL,NULL);
// force redraw
Invalidate(TRUE);
};
}
void CGLEnabledView::OnSizeGL(int cx, int cy)
{
// set correspondence between window and OGL viewport
glViewport(0,0,cx,cy);
// update the camera
glPushMatrix();
glMatrixMode(GL_PROJECTION);
glLoadIdentity();
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gluPerspective(40.0,m_dAspectRatio,0.1f, 100.0f);
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glTranslatef(0.0f,0.0f,-4.f);
glMatrixMode(GL_MODELVIEW);
glPopMatrix();
}
BOOL CGLEnabledView::OnSetCursor(CWnd* /*pWnd*/, UINT /*nHitTest*/, UINT /*message*/)
{
ASSERT(m_hMouseCursor!=NULL);
::SetCursor(m_hMouseCursor);
return TRUE;
}
/////////////////////////////////////////////////////////////////////////////
// CGLEnabledView public members
void CGLEnabledView::VideoMode(ColorsNumber &c, ZAccuracy &z, BOOL &dbuf)
{
// set default videomode
c=MILLIONS;
z=NORMAL;
dbuf=TRUE;
}
void CGLEnabledView::SetMouseCursor(HCURSOR mcursor)
{
// set the specified cursor (only if it is a valid one)
if(mcursor!=NULL) m_hMouseCursor=mcursor;
}
GLInfoStruct CGLEnabledView::GetInformation()
{
PIXELFORMATDESCRIPTOR pfd;
GLInfoStruct str;
HDC curr_dc=m_pCDC->GetSafeHdc();
// Get information about the DC's current pixel format
::DescribePixelFormat(curr_dc , ::GetPixelFormat(curr_dc),sizeof(PIXELFORMATDESCRIPTOR), &pfd );
// specify the target Rendering Context of the subsequent OGL calls
wglMakeCurrent(curr_dc, m_hRC);
// Extract driver information
if( 0==(ICD_DRIVER_MASK & pfd.dwFlags) )
str.acceleration="Fully Accelerated (ICD)"; // fully in hardware (fastest)
else if (ICD_DRIVER_MASK==(ICD_DRIVER_MASK & pfd.dwFlags) )
str.acceleration="Partially Accelerated (MCD)"; // partially in hardware (pretty fast, maybe..)
else str.acceleration="Not Accelerated (Software)"; // software
// get the company name responsible for this implementation
str.vendor=(char*)::glGetString(GL_VENDOR);
if ( ::glGetError()!=GL_NO_ERROR) str.vendor.Format("Not Available");// failed!
// get the renderer name; this is specific of an hardware configuration
str.renderer=(char*)::glGetString(GL_RENDERER);
if ( ::glGetError()!=GL_NO_ERROR) str.renderer.Format("Not Available");// failed!
// get the version of the GL library
str.glversion=(char*)::glGetString(GL_VERSION);
if ( ::glGetError()!=GL_NO_ERROR) str.glversion.Format("Not Available");// failed!
// return a space separated list of extensions
str.glextensions=(char*)::glGetString(GL_EXTENSIONS);
if ( ::glGetError()!=GL_NO_ERROR) str.glextensions.Format("Not Available");// failed!
// get the version of the GLU library
str.gluversion=(char*)::gluGetString(GLU_VERSION);
if ( ::glGetError()!=GL_NO_ERROR) str.gluversion.Format("Not Available");// failed!
// as above a space separated list of extensions
str.gluextensions=(char*)::gluGetString(GLU_EXTENSIONS);
if ( ::glGetError()!=GL_NO_ERROR) str.gluextensions.Format("Not Available");// failed!
glGetIntegerv(GL_MAX_LIGHTS,&str.max_lights);
glGetIntegerv(GL_MAX_CLIP_PLANES,&str.max_clip_planes);
glGetIntegerv(GL_MAX_MODELVIEW_STACK_DEPTH,&str.max_model_stack_depth);
glGetIntegerv(GL_MAX_PROJECTION_STACK_DEPTH,&str.max_proj_stack_depth);
glGetIntegerv(GL_MAX_TEXTURE_STACK_DEPTH,&str.max_txtr_stack_depth);
glGetIntegerv(GL_MAX_NAME_STACK_DEPTH,&str.max_name_stack_depth);
glGetIntegerv(GL_MAX_ATTRIB_STACK_DEPTH,&str.max_attrib_stack_depth);
glGetIntegerv(GL_MAX_TEXTURE_SIZE,&str.max_texture_size);
glGetIntegerv(GL_MAX_LIST_NESTING,&str.max_list_nesting);
glGetIntegerv(GL_MAX_EVAL_ORDER,&str.max_eval_order);
int tempint[2];
glGetIntegerv(GL_MAX_VIEWPORT_DIMS,&tempint[0]);
str.max_viewport_dims.cx=tempint[0];
str.max_viewport_dims.cy=tempint[1];
glGetIntegerv(GL_AUX_BUFFERS,&str.auxiliary_buffers);
float tempval[2];
glGetFloatv(GL_POINT_SIZE_RANGE,&tempval[0]);
str.min_smooth_point_size=int(tempval[0]);
str.max_smooth_point_size=int(tempval[1]);
glGetFloatv(GL_POINT_SIZE_GRANULARITY,&str.smooth_point_granularity);
glGetFloatv(GL_LINE_WIDTH_RANGE,&tempval[0]);
str.min_smooth_line_size=int(tempval[0]);
str.max_smooth_line_size=int(tempval[1]);
glGetFloatv(GL_LINE_WIDTH_GRANULARITY,&str.smooth_line_granularity);
glGetIntegerv(GL_RED_BITS,&str.red_bits);
glGetIntegerv(GL_BLUE_BITS,&str.blue_bits);
glGetIntegerv(GL_GREEN_BITS,&str.green_bits);
glGetIntegerv(GL_ALPHA_BITS,&str.alpha_bits);
glGetIntegerv(GL_DEPTH_BITS,&str.depth_bits);
glGetIntegerv(GL_STENCIL_BITS,&str.stencil_bits);
// free the target DeviceContext (window) and return the result
wglMakeCurrent(NULL,NULL);
return str;
}
void CGLEnabledView::DrawStockDispLists()
{
// check if we are already inside a drawing session
if(m_hRC==wglGetCurrentContext() && m_pCDC->GetSafeHdc()==wglGetCurrentDC() )
{
// draw directly all display lists
for (int c=0;c<MAX_LISTS;c++) if(m_DispListVector[c]) glCallList(m_DispListVector[c]);
}
else
{
// specify the target DeviceContext of the subsequent OGL calls
wglMakeCurrent(m_pCDC->GetSafeHdc(), m_hRC);
// draw all display lists
for (int c=0;c<MAX_LISTS;c++) if(m_DispListVector[c]) glCallList(m_DispListVector[c]);
// free the target DeviceContext (window)
wglMakeCurrent(NULL,NULL);
};
}
void CGLEnabledView::StartStockDListDef()
{
// check if we aren't inside another couple begin/end
if(!m_bInsideDispList)
{
// search a free slot
for (int c=0;m_DispListVector[c]!=0;c++);
// check if we are inside a drawing session or not....
if(!( m_hRC==wglGetCurrentContext() && m_pCDC->GetSafeHdc()==wglGetCurrentDC() ))
{
// ...if not specify the target DeviceContext of the subsequent OGL calls
wglMakeCurrent(m_pCDC->GetSafeHdc(), m_hRC);
// set a warning for EndDispList
m_bExternDispListCall=TRUE;
};
// create a handle to the disp list (actually an integer)
m_DispListVector[c]=glGenLists(1);
// set a semaphore
m_bInsideDispList=TRUE;
// start the disp list: all subsequent OGL calls will be redirected to the list
glNewList(m_DispListVector[c],GL_COMPILE);
};
}
void CGLEnabledView::EndStockListDef()
{
// close the disp list
glEndList();
// unset the semaphore
m_bInsideDispList=FALSE;
// if beginDispList set the warn free the target DeviceContext
if(m_bExternDispListCall) wglMakeCurrent(NULL,NULL);
}
void CGLEnabledView::ClearStockDispLists()
{
// check if we are referring to the right Rendering Context
if(m_hRC==wglGetCurrentContext() && m_pCDC->GetSafeHdc()==wglGetCurrentDC() )
{
// delete active display lists
for (int c=0;c<MAX_LISTS;c++) if(m_DispListVector[c]) glDeleteLists(m_DispListVector[c],1);
}
else
{
// specify the target Rendering Context of the subsequent OGL calls
wglMakeCurrent(m_pCDC->GetSafeHdc(), m_hRC);
// delete active display lists
for (int c=0;c<MAX_LISTS;c++) if(m_DispListVector[c]) glDeleteLists(m_DispListVector[c],1);
// free the target Rendering Context (window)
wglMakeCurrent(NULL,NULL);
};
}
void CGLEnabledView::BeginGLCommands()
{
// check if we are inside a drawing session or not....
if(!( m_hRC==wglGetCurrentContext() && m_pCDC->GetSafeHdc()==wglGetCurrentDC() ))
{
// ...if not specify the target DeviceContext of the subsequent OGL calls
wglMakeCurrent(m_pCDC->GetSafeHdc(), m_hRC);
// set a warning for EndGLCommands
m_bExternGLCall=TRUE;
};
}
void CGLEnabledView::EndGLCommands()
{
// if BeginGLCommands set the warn free the target DeviceContext
if(m_bExternGLCall) wglMakeCurrent(NULL,NULL);
}
void CGLEnabledView::PrepareCharset3D(CString fontname,float extrusion,BOOL boldface,BOOL italicface,BOOL uselines,float precision)
{
// debug checks
ASSERT(extrusion>=0.f && precision>=0.f);
ASSERT(!fontname.IsEmpty());
// variables initialization
int mode=uselines ? WGL_FONT_LINES : WGL_FONT_POLYGONS;
if(m_gmfvector==NULL) m_gmfvector=new GLYPHMETRICSFLOAT[m_numchars];
// prepare to ask for the requested font
LOGFONT lg;
memset(&lg, 0, sizeof(LOGFONT));
lg.lfHeight=14;// for 3D text the height doesn't matter since the characters will be always of unit height
lg.lfWidth=0;
lg.lfEscapement=lg.lfOrientation=0;
lg.lfItalic=unsigned char(italicface);
if(boldface)lg.lfWeight=FW_BOLD;
else lg.lfWeight=FW_NORMAL;
lg.lfUnderline=FALSE;
lg.lfStrikeOut=FALSE;
lg.lfCharSet=ANSI_CHARSET;
lg.lfOutPrecision=OUT_DEFAULT_PRECIS;
lg.lfClipPrecision=CLIP_DEFAULT_PRECIS;
lg.lfQuality=DEFAULT_QUALITY;
lg.lfPitchAndFamily=DEFAULT_PITCH |FF_DONTCARE;
strcpy(lg.lfFaceName, fontname);
// ask for the font
CFont fnt;
if(!fnt.CreateFontIndirect(&lg))
{
TRACE("CGLEnabledView::PrepareCharset3D:\n\tUnable to create the requested font.\n");
m_charsetDListBase=0;
return;
};
//select the font into the DC
CFont* def_font = m_pCDC->SelectObject(&fnt);
// create or recreate the display lists
if(m_charsetDListBase>0)
glDeleteLists(m_charsetDListBase,m_numchars);
if (0 == (m_charsetDListBase=glGenLists(m_numchars)))
{
TRACE("CGLEnabledView::PrepareCharset3D:\n\tUnable to create the charset (no memory for display lists).\n");
goto end;
};
// build the charset display lists
if(!wglUseFontOutlines(m_pCDC->GetSafeHdc(),0,m_numchars-1,m_charsetDListBase,precision,extrusion,mode,m_gmfvector))
{
TRACE("CGLEnabledView::PrepareCharset3D:\n\tUnable to create the charset (internal error).\n");
glDeleteLists(m_charsetDListBase,m_numchars);
m_charsetDListBase=0;
};
// deselect and dispose of the GDI font
end:
m_pCDC->SelectObject(def_font);
fnt.DeleteObject();
}
void CGLEnabledView::PrepareCharset3D(const LOGFONT* pLF,float extrusion,BOOL uselines,float precision)
{
// debug checks
ASSERT(extrusion>=0.f && precision>=0.f);
ASSERT(pLF!=NULL);
// variables initialization
int mode=uselines ? WGL_FONT_LINES : WGL_FONT_POLYGONS;
if(m_gmfvector==NULL) m_gmfvector=new GLYPHMETRICSFLOAT[m_numchars];
// ask for the font
CFont fnt;
if(!fnt.CreateFontIndirect(pLF))
{
TRACE("CGLEnabledView::PrepareCharset3D:\n\tUnable to create a font from the passed logical font descriptor.\n");
return;
}
//select the font into the DC
CFont* def_font = m_pCDC->SelectObject(&fnt);
// create or recreate the display lists
if(m_charsetDListBase>0) glDeleteLists(m_charsetDListBase,m_numchars);
if (0 == (m_charsetDListBase=glGenLists(m_numchars)))
{
TRACE("CGLEnabledView::PrepareCharset3D:\n\tUnable to create the charset (no memory for display lists).\n");
goto end;
};
// build the charset display lists
if(!wglUseFontOutlines(m_pCDC->GetSafeHdc(),0,m_numchars-1,m_charsetDListBase,precision,extrusion,mode,m_gmfvector))
{
TRACE("CGLEnabledView::PrepareCharset3D:\n\tUnable to create the charset (internal error).\n");
glDeleteLists(m_charsetDListBase,m_numchars);
m_charsetDListBase=0;
};
// deselect and dispose of the GDI font
end:
m_pCDC->SelectObject(def_font);
fnt.DeleteObject();
}
void CGLEnabledView::PrepareCharset2D(CString fontname,int height,BOOL boldface,BOOL italicface)
{
// debug checks
ASSERT(!fontname.IsEmpty() && height>0);
// prepare to ask for the requested font
LOGFONT lg;
memset(&lg, 0, sizeof(LOGFONT));
lg.lfHeight=height;// for 2D text the height is taken into consideration
lg.lfWidth=0;
lg.lfEscapement=lg.lfOrientation=0;
lg.lfItalic=unsigned char(italicface);
if(boldface)lg.lfWeight=FW_BOLD;
else lg.lfWeight=FW_NORMAL;
lg.lfUnderline=FALSE;
lg.lfStrikeOut=FALSE;
lg.lfCharSet=ANSI_CHARSET;
lg.lfOutPrecision=OUT_DEFAULT_PRECIS;
lg.lfClipPrecision=CLIP_DEFAULT_PRECIS;
lg.lfQuality=DEFAULT_QUALITY;
lg.lfPitchAndFamily=DEFAULT_PITCH |FF_DONTCARE;
strcpy(lg.lfFaceName, fontname);
// ask for the font
CFont fnt;
if(!fnt.CreateFontIndirect(&lg))
{
TRACE("CGLEnabledView::PrepareCharset2D:\n\tUnable to create the requested font.\n");
m_charsetDListBase=0;
return;
};
//select the font into the DC
CFont* def_font = m_pCDC->SelectObject(&fnt);
// create or recreate the display lists
if(m_charsetDListBase>0)
glDeleteLists(m_charsetDListBase,m_numchars);
if (0 == (m_charsetDListBase=glGenLists(m_numchars)))
{
TRACE("CGLEnabledView::PrepareCharset2D:\n\tUnable to create the charset (no memory for display lists).\n");
goto end;
};
// build the charset display lists
if(!wglUseFontBitmaps(m_pCDC->GetSafeHdc(),0,m_numchars-1,m_charsetDListBase))
{
TRACE("CGLEnabledView::PrepareCharset2D:\n\tUnable to create the charset (internal error).\n");
glDeleteLists(m_charsetDListBase,m_numchars);
m_charsetDListBase=0;
};
// deselect and dispose of the GDI font
end:
m_pCDC->SelectObject(def_font);
fnt.DeleteObject();
}
void CGLEnabledView::PrepareCharset2D(const LOGFONT* pLF)
{
// debug checks
ASSERT(pLF!=NULL);
// ask for the font
CFont fnt;
if(!fnt.CreateFontIndirect(pLF))
{
TRACE("CGLEnabledView::PrepareCharset2D:\n\tUnable to create a font from the passed logical font descriptor.\n");
return;
}
//select the font into the DC
CFont* def_font = m_pCDC->SelectObject(&fnt);
// create or recreate the display lists
if(m_charsetDListBase>0) glDeleteLists(m_charsetDListBase,m_numchars);
if (0 == (m_charsetDListBase=glGenLists(m_numchars)))
{
TRACE("CGLEnabledView::PrepareCharset2D:\n\tUnable to create the charset (no memory for display lists).\n");
goto end;
};
// build the charset display lists
if(!wglUseFontBitmaps(m_pCDC->GetSafeHdc(),0,m_numchars-1,m_charsetDListBase))
{
TRACE("CGLEnabledView::PrepareCharset2D:\n\tUnable to create the charset (internal error).\n");
glDeleteLists(m_charsetDListBase,m_numchars);
m_charsetDListBase=0;
};
// deselect and dispose of the GDI font
end:
m_pCDC->SelectObject(def_font);
fnt.DeleteObject();
}
float CGLEnabledView::Text3D(CString text)
{
float retlen=0.f;
int textlen=0;
if(m_charsetDListBase!=0)
{
if( (textlen=text.GetLength()) >0)
{
// output the outlines corresponding to the requested text srting
glListBase(m_charsetDListBase);
glCallLists(textlen,GL_UNSIGNED_BYTE,LPCTSTR(text));
// calculate and return the length of the produced outlines
for(int c=0;c<textlen;c++)
retlen+=m_gmfvector[char(text[c])].gmfCellIncX;
}
}
else TRACE("CGLEnabledView::Text3D:\n\tNo charset available. Use PrepareCharset3D routines first.\n");
return retlen;
}
void CGLEnabledView::Text2D(CString text)
{
int textlen=0;
if(m_charsetDListBase!=0)
{
if( (textlen=text.GetLength()) >0)
{
// output the outlines corresponding to the requested text srting
glListBase(m_charsetDListBase);
glCallLists(textlen,GL_UNSIGNED_BYTE,LPCTSTR(text));
}
}
else TRACE("CGLEnabledView::Text2D:\n\tNo charset available. Use PrepareCharset2D routines first.\n");
}
//////////////////////////////////////////////////////////////////////
//
// Implementation of CGLEnabledView::CGLDispList class.
//
/*** DESCRIPTION
This is actually a helper class which wraps the
use of display list in OGL.
It must be used inside an GLEnabledView cause
a display list must refer to a Rendering Context.
At present there is no support for Disp. Lists
Sharing among multiple RCs (that is multiple MDI
child windows).
****************************************/
//////////////////////////////////////////////////////////////////////
// Construction/Destruction
CGLEnabledView::CGLDispList::CGLDispList():
m_glListId(0), m_bIsolated(FALSE)
{
}
CGLEnabledView::CGLDispList::~CGLDispList()
{
// remove display list
glDeleteLists(m_glListId,1);
}
//////////////////////////////////////////////////////////////////////
// Member functions
void CGLEnabledView::CGLDispList::Draw()
{
// if the list is not empty...
if(m_glListId)
{
if(m_bIsolated)
{
// save current transformation matrix
glPushMatrix();
// save current OGL internal state (lighting, shading, and such)
glPushAttrib(GL_ALL_ATTRIB_BITS);
};
// draw the list
glCallList(m_glListId);
if(m_bIsolated)
{
// restore transformation matrix
glPopMatrix();
// restore OGL internal state
glPopAttrib();
};
};
}
void CGLEnabledView::CGLDispList::StartDef(BOOL bImmediateExec)
{
// check if another list is under construction
int cur;
glGetIntegerv(GL_LIST_INDEX,&cur);
if(cur != 0)
{
TRACE0("CGLEnabledView\n\tError: Nested display list definition!\n");
ASSERT(FALSE);
};
// if the list is empty firstly allocate one
if(!m_glListId) m_glListId=glGenLists(1);
// start or replace a list definition
if (bImmediateExec) glNewList(m_glListId,GL_COMPILE_AND_EXECUTE);
else glNewList(m_glListId,GL_COMPILE);
}
void CGLEnabledView::CGLDispList::EndDef()
{
// check the coupling with a preceding call to StartDef()
int cur;
glGetIntegerv(GL_LIST_INDEX,&cur);
if(cur != m_glListId) {TRACE0("CGLDispList:Missing StartDef() before EndDef()\n");return;};
// close list definition
glEndList();
}
//////////////////////////////////////////////////////////////////////
//
// Implementation of CGLEnabledView::CGLTesselator class.
//
/*** DESCRIPTION
This is actually a helper class which wraps the
use of tessellation objects in OGL (see guide).
It must be used inside an GLEnabledView cause
a tesselator object must refer to a Rendering Context.
****************************************/
//////////////////////////////////////////////////////////////////////
// Construction/Destruction
CGLEnabledView::CGLTesselator::CGLTesselator()
{
// create tessellation object
m_tessObj=gluNewTess();
// set callback functions
gluTessCallback(m_tessObj,GLU_TESS_BEGIN,(void (CALLBACK*)())&BeginCallback);
gluTessCallback(m_tessObj,GLU_TESS_VERTEX,(void (CALLBACK*)())&VertexCallback);
gluTessCallback(m_tessObj,GLU_TESS_END,(void (CALLBACK*)())&EndCallback);
gluTessCallback(m_tessObj,GLU_TESS_COMBINE,(void (CALLBACK*)())&CombineCallback);
gluTessCallback(m_tessObj,GLU_TESS_ERROR,(void (CALLBACK*)())&ErrorCallback);
}
CGLEnabledView::CGLTesselator::~CGLTesselator()
{
// remove tessellation object
gluDeleteTess(m_tessObj);
}
//////////////////////////////////////////////////////////////////////
// Member functions
void CGLEnabledView::CGLTesselator::SetWindingRule(GLdouble which)
{
// issue the equivalent GL call
gluTessProperty(m_tessObj,GLU_TESS_WINDING_RULE,which);
}
GLdouble CGLEnabledView::CGLTesselator::GetWindingRule()
{
//retrieve attribute
GLdouble temp=-1.0;
gluTessProperty(m_tessObj,GLU_TESS_WINDING_RULE,temp);
// return value
return temp;
}
void CGLEnabledView::CGLTesselator::SetFilling(BOOL bFill)
{
// issue the equivalent GL calls
if(bFill) gluTessProperty(m_tessObj,GLU_TESS_BOUNDARY_ONLY,GL_FALSE);
else gluTessProperty(m_tessObj,GLU_TESS_BOUNDARY_ONLY,GL_TRUE);
}
BOOL CGLEnabledView::CGLTesselator::GetFilling()
{
//retrieve attribute
GLdouble temp=-1.0;
gluTessProperty(m_tessObj,GLU_TESS_BOUNDARY_ONLY,temp);
// convert to a boolean
return (temp==GL_TRUE);
}
void CGLEnabledView::CGLTesselator::StartDef()
{
// start a polygon definition
gluTessBeginPolygon(m_tessObj,NULL);
// start a contour definition
gluTessBeginContour(m_tessObj);
}
void CGLEnabledView::CGLTesselator::EndDef()
{
// end contour and polygon definition
gluTessEndContour(m_tessObj);
gluTessEndPolygon(m_tessObj);
// free new vertices created by tessellation
::DeleteGarbage();
}
void CGLEnabledView::CGLTesselator::ContourSeparator()
{
// insert a contour separation
gluTessEndContour(m_tessObj);
gluTessBeginContour(m_tessObj);
}
void CGLEnabledView::CGLTesselator::AddVertex(GLdouble vertData[3])
{
// IMPORTANT: the 3rd parameter must be given otherwise an access
// violation will occur, moreover every vertex must have it's own memory
// location till the closing of the polygon (that is you can't pass all
// the vertices trough the same variable in a for loop).
gluTessVertex(m_tessObj,vertData,vertData);
}
void CGLEnabledView::CGLTesselator::AddVertexArray(GLdouble arr[][3], int size)
{
ASSERT(arr!=NULL);
// pass the vertices to the tessellation object
for(int ct=0;ct<size;ct++) gluTessVertex(m_tessObj,arr[ct],arr[ct]);
}
//////////////////////////////////////////////////////////////////////
//
// Implementation of CGLEnabledView::CGLQuadric class.
//
/*** DESCRIPTION
This is actually a helper class which wraps the
use of quadric objects in OGL (see guide).
It must be used inside an GLEnabledView cause
a quadric object must refer to a Rendering Context.
****************************************/
//////////////////////////////////////////////////////////////////////
// Construction/Destruction
CGLEnabledView::CGLQuadric::CGLQuadric(GLenum drwStyle,GLenum normals,GLenum side,BOOL bGenerateTxtrCoords)
{
// check validity of parameters
ASSERT(normals==GLU_NONE || normals==GLU_FLAT || normals==GLU_SMOOTH);
ASSERT(drwStyle==GLU_FILL || drwStyle==GLU_LINE || drwStyle==GLU_SILHOUETTE|| drwStyle==GLU_POINT);
ASSERT(side==GLU_INSIDE || side==GLU_OUTSIDE);
// create quadric object
m_quadrObj=gluNewQuadric();
// set error callback function (shared with tesselators)
gluQuadricCallback(m_quadrObj,GLU_ERROR,(void (CALLBACK*)())&ErrorCallback);
// set normal generation
gluQuadricNormals(m_quadrObj,normals);
// set Texture Coordinates generation
if(bGenerateTxtrCoords) gluQuadricTexture(m_quadrObj,GL_TRUE);
else gluQuadricTexture(m_quadrObj,GL_FALSE);
// set how the qadric will be generated
gluQuadricDrawStyle(m_quadrObj,drwStyle);
// set which side of the quadric is to be considered inside
gluQuadricOrientation(m_quadrObj,side);
}
CGLEnabledView::CGLQuadric::~CGLQuadric()
{
// remove quadric object
gluDeleteQuadric(m_quadrObj);
}
//////////////////////////////////////////////////////////////////////
// Member functions
void CGLEnabledView::CGLQuadric::SetNormals(GLenum type)
{
// check validity of type parameter it must be one of these:
ASSERT(type==GLU_NONE || type==GLU_FLAT || type==GLU_SMOOTH);
// issue corresponding GL command
gluQuadricNormals(m_quadrObj,type);
}
void CGLEnabledView::CGLQuadric::SetTextureCoordsGen(BOOL flag)
{
// issue corresponding GL commands
if(flag) gluQuadricTexture(m_quadrObj,GL_TRUE);
else gluQuadricTexture(m_quadrObj,GL_FALSE);
}
void CGLEnabledView::CGLQuadric::SetOrientation(GLenum type)
{
// check validity of type parameter it must be one of these:
ASSERT(type==GLU_INSIDE || type==GLU_OUTSIDE);
// issue corresponding GL command
gluQuadricOrientation(m_quadrObj,type);
}
void CGLEnabledView::CGLQuadric::SetDrawStyle(GLenum style)
{
// check validity of type parameter it must be one of these:
ASSERT(style==GLU_FILL || style==GLU_LINE || style==GLU_SILHOUETTE|| style==GLU_POINT);
// issue corresponding GL command
gluQuadricDrawStyle(m_quadrObj,style);
}
void CGLEnabledView::CGLQuadric::DrawSphere(GLdouble radius, int longitudeSubdiv, int latitudeSubdiv)
{
// issue corresponding GL command
gluSphere(m_quadrObj,radius,longitudeSubdiv,latitudeSubdiv);
}
void CGLEnabledView::CGLQuadric::DrawCylinder(GLdouble baseRadius,GLdouble topRadius,GLdouble height,int slices,int stacks)
{
// issue corresponding GL command
gluCylinder(m_quadrObj,baseRadius,topRadius,height,slices,stacks);
}
void CGLEnabledView::CGLQuadric::DrawDisk(GLdouble innerRadius,GLdouble outerRadius,int slices,int loops)
{
// issue corresponding GL command
gluDisk(m_quadrObj,innerRadius,outerRadius,slices,loops);
}
void CGLEnabledView::CGLQuadric::DrawPartialDisk(GLdouble innerRadius,GLdouble outerRadius,int slices,int loops,GLdouble startAngle,GLdouble sweepAngle)
{
// issue corresponding GL command
gluPartialDisk(m_quadrObj,innerRadius,outerRadius,slices,loops,startAngle,sweepAngle);
}