0024309: TKOpenGl - Delay release of GLSL resources
[occt.git] / src / OpenGl / OpenGl_AspectFace.cxx
CommitLineData
b311480e 1// Created on: 2011-07-13
2// Created by: Sergey ZERCHANINOV
3// Copyright (c) 2011-2012 OPEN CASCADE SAS
4//
5// The content of this file is subject to the Open CASCADE Technology Public
6// License Version 6.5 (the "License"). You may not use the content of this file
7// except in compliance with the License. Please obtain a copy of the License
8// at http://www.opencascade.org and read it completely before using this file.
9//
10// The Initial Developer of the Original Code is Open CASCADE S.A.S., having its
11// main offices at: 1, place des Freres Montgolfier, 78280 Guyancourt, France.
12//
13// The Original Code and all software distributed under the License is
14// distributed on an "AS IS" basis, without warranty of any kind, and the
15// Initial Developer hereby disclaims all such warranties, including without
16// limitation, any warranties of merchantability, fitness for a particular
17// purpose or non-infringement. Please see the License for the specific terms
18// and conditions governing the rights and limitations under the License.
19
30f0ad28 20#include <Aspect_PolygonOffsetMode.hxx>
21#include <NCollection_Vec3.hxx>
22
2166f0fa 23#include <OpenGl_AspectFace.hxx>
30f0ad28 24#include <OpenGl_Context.hxx>
25#include <OpenGl_ShaderManager.hxx>
26#include <OpenGl_ShaderProgram.hxx>
bf75be98 27#include <OpenGl_Texture.hxx>
28#include <OpenGl_Workspace.hxx>
2166f0fa 29
bf75be98 30#include <Graphic3d_CGroup.hxx>
30f0ad28 31#include <Graphic3d_ShaderProgram.hxx>
bf75be98 32#include <Graphic3d_TextureMap.hxx>
4269bd1b 33#include <Graphic3d_TypeOfReflection.hxx>
34#include <Graphic3d_MaterialAspect.hxx>
35
bf75be98 36namespace
2166f0fa 37{
bf75be98 38 static OPENGL_SURF_PROP THE_DEFAULT_MATERIAL =
39 {
40 0.2F, 0.8F, 0.1F, 0.0F, // amb, diff, spec, emsv
41 1.0F, 10.0F, 0.0F, // trans, shine, env_reflexion
42 0, // isphysic
43 (OPENGL_AMBIENT_MASK | OPENGL_DIFFUSE_MASK | OPENGL_SPECULAR_MASK), // color_mask
44 {{ 1.0F, 1.0F, 1.0F, 1.0F }}, // ambient color
45 {{ 1.0F, 1.0F, 1.0F, 1.0F }}, // diffuse color
46 {{ 1.0F, 1.0F, 1.0F, 1.0F }}, // specular color
47 {{ 1.0F, 1.0F, 1.0F, 1.0F }}, // emissive color
48 {{ 1.0F, 1.0F, 1.0F, 1.0F }} // material color
49 };
50
51 static TEL_POFFSET_PARAM THE_DEFAULT_POFFSET = { Aspect_POM_Fill, 1.0F, 0.0F };
fd4a6963 52 static const TCollection_AsciiString THE_EMPTY_KEY;
bf75be98 53};
2166f0fa 54
bf75be98 55// =======================================================================
56// function : convertMaterial
57// purpose :
58// =======================================================================
59void OpenGl_AspectFace::convertMaterial (const CALL_DEF_MATERIAL& theMat,
60 OPENGL_SURF_PROP& theSurf)
2166f0fa 61{
bf75be98 62 theSurf.amb = theMat.IsAmbient ? theMat.Ambient : 0.0f;
63 theSurf.diff = theMat.IsDiffuse ? theMat.Diffuse : 0.0f;
64 theSurf.spec = theMat.IsSpecular ? theMat.Specular : 0.0f;
65 theSurf.emsv = theMat.IsEmission ? theMat.Emission : 0.0f;
2166f0fa 66
bf75be98 67 theSurf.isphysic = theMat.IsPhysic ? 1 : 0; // type of material
2166f0fa 68
bf75be98 69 // color of material
70 theSurf.color_mask = 0;
71 if (theMat.IsAmbient)
72 {
73 theSurf.color_mask |= OPENGL_AMBIENT_MASK;
74 }
75 if (theMat.IsDiffuse)
76 {
77 theSurf.color_mask |= OPENGL_DIFFUSE_MASK;
78 }
79 if (theMat.IsSpecular)
80 {
81 theSurf.color_mask |= OPENGL_SPECULAR_MASK;
82 }
83 if (theMat.IsEmission)
84 {
85 theSurf.color_mask |= OPENGL_EMISSIVE_MASK;
86 }
2166f0fa 87
bf75be98 88 // ambient color
89 theSurf.ambcol.rgb[0] = theMat.ColorAmb.r;
90 theSurf.ambcol.rgb[1] = theMat.ColorAmb.g;
91 theSurf.ambcol.rgb[2] = theMat.ColorAmb.b;
92 theSurf.ambcol.rgb[3] = 1.0f;
93
94 // diffuse color
95 theSurf.difcol.rgb[0] = theMat.ColorDif.r;
96 theSurf.difcol.rgb[1] = theMat.ColorDif.g;
97 theSurf.difcol.rgb[2] = theMat.ColorDif.b;
98 theSurf.difcol.rgb[3] = 1.0f;
99
100 // specular color
101 theSurf.speccol.rgb[0] = theMat.ColorSpec.r;
102 theSurf.speccol.rgb[1] = theMat.ColorSpec.g;
103 theSurf.speccol.rgb[2] = theMat.ColorSpec.b;
104 theSurf.speccol.rgb[3] = 1.0f;
105
106 // emission color
107 theSurf.emscol.rgb[0] = theMat.ColorEms.r;
108 theSurf.emscol.rgb[1] = theMat.ColorEms.g;
109 theSurf.emscol.rgb[2] = theMat.ColorEms.b;
110 theSurf.emscol.rgb[3] = 1.0f;
111
112 theSurf.shine = 128.0f * float(theMat.Shininess);
113 theSurf.env_reflexion = theMat.EnvReflexion;
114
115 // trans = 0. => opaque
116 // trans = 1. => transparent
117 // in OpenGl it is opposite.
118 theSurf.trans = 1.0f - theMat.Transparency;
119}
2166f0fa 120
bf75be98 121// =======================================================================
122// function : OpenGl_AspectFace
123// purpose :
124// =======================================================================
125OpenGl_AspectFace::OpenGl_AspectFace()
fd4a6963 126: myInteriorStyle (Aspect_IS_SOLID),
127 myEdge (TOff),
128 myHatch (TEL_HS_SOLID),
129 myDistinguishingMode (TOff),
130 myCullingMode (TelCullNone),
131 myIntFront (THE_DEFAULT_MATERIAL),
132 myIntBack (THE_DEFAULT_MATERIAL),
133 myPolygonOffset (THE_DEFAULT_POFFSET),
30f0ad28 134 myDoTextureMap (false)
fd4a6963 135{}
2166f0fa 136
bf75be98 137// =======================================================================
fd4a6963 138// function : SetAspect
bf75be98 139// purpose :
140// =======================================================================
fd4a6963 141void OpenGl_AspectFace::SetAspect (const CALL_DEF_CONTEXTFILLAREA& theAspect)
bf75be98 142{
fd4a6963 143 myInteriorStyle = (Aspect_InteriorStyle )theAspect.Style;
144 myEdge = theAspect.Edge ? TOn : TOff;
2166f0fa
SK
145
146 //TelInteriorStyleIndex
bf75be98 147 switch (theAspect.Hatch)
2166f0fa 148 {
bf75be98 149 case 0: /* Aspect_HS_HORIZONTAL */
fd4a6963 150 myHatch = TEL_HS_HORIZONTAL;
2166f0fa 151 break;
bf75be98 152 case 1: /* Aspect_HS_HORIZONTAL_WIDE */
fd4a6963 153 myHatch = TEL_HS_HORIZONTAL_SPARSE;
2166f0fa 154 break;
bf75be98 155 case 2: /* Aspect_HS_VERTICAL */
fd4a6963 156 myHatch = TEL_HS_VERTICAL;
2166f0fa 157 break;
bf75be98 158 case 3: /* Aspect_HS_VERTICAL_WIDE */
fd4a6963 159 myHatch = TEL_HS_VERTICAL_SPARSE;
2166f0fa 160 break;
bf75be98 161 case 4: /* Aspect_HS_DIAGONAL_45 */
fd4a6963 162 myHatch = TEL_HS_DIAG_45;
2166f0fa 163 break;
bf75be98 164 case 5: /* Aspect_HS_DIAGONAL_45_WIDE */
fd4a6963 165 myHatch = TEL_HS_DIAG_45_SPARSE;
2166f0fa 166 break;
bf75be98 167 case 6: /* Aspect_HS_DIAGONAL_135 */
fd4a6963 168 myHatch = TEL_HS_DIAG_135;
2166f0fa 169 break;
bf75be98 170 case 7: /* Aspect_HS_DIAGONAL_135_WIDE */
fd4a6963 171 myHatch = TEL_HS_DIAG_135_SPARSE;
2166f0fa 172 break;
bf75be98 173 case 8: /* Aspect_HS_GRID */
fd4a6963 174 myHatch = TEL_HS_GRID;
2166f0fa 175 break;
bf75be98 176 case 9: /* Aspect_HS_GRID_WIDE */
fd4a6963 177 myHatch = TEL_HS_GRID_SPARSE;
2166f0fa 178 break;
bf75be98 179 case 10: /* Aspect_HS_GRID_DIAGONAL */
fd4a6963 180 myHatch = TEL_HS_CROSS;
2166f0fa 181 break;
bf75be98 182 case 11: /* Aspect_HS_GRID_DIAGONAL_WIDE */
fd4a6963 183 myHatch = TEL_HS_CROSS_SPARSE;
2166f0fa 184 break;
bf75be98 185 default:
fd4a6963 186 myHatch = 0;
2166f0fa
SK
187 break;
188 }
189
fd4a6963 190 myDistinguishingMode = theAspect.Distinguish ? TOn : TOff;
191 myCullingMode = theAspect.BackFace ? TelCullBack : TelCullNone;
2166f0fa 192
fd4a6963 193 convertMaterial (theAspect.Front, myIntFront);
194 convertMaterial (theAspect.Back, myIntBack);
2166f0fa
SK
195
196 //TelInteriorColour
fd4a6963 197 myIntFront.matcol.rgb[0] = (float )theAspect.IntColor.r;
198 myIntFront.matcol.rgb[1] = (float )theAspect.IntColor.g;
199 myIntFront.matcol.rgb[2] = (float )theAspect.IntColor.b;
200 myIntFront.matcol.rgb[3] = 1.0f;
2166f0fa
SK
201
202 //TelBackInteriorColour
fd4a6963 203 myIntBack.matcol.rgb[0] = (float )theAspect.BackIntColor.r;
204 myIntBack.matcol.rgb[1] = (float )theAspect.BackIntColor.g;
205 myIntBack.matcol.rgb[2] = (float )theAspect.BackIntColor.b;
206 myIntBack.matcol.rgb[3] = 1.0f;
bf75be98 207
2166f0fa 208 //TelPolygonOffset
fd4a6963 209 myPolygonOffset.mode = (Aspect_PolygonOffsetMode )theAspect.PolygonOffsetMode;
210 myPolygonOffset.factor = theAspect.PolygonOffsetFactor;
211 myPolygonOffset.units = theAspect.PolygonOffsetUnits;
212
213 CALL_DEF_CONTEXTLINE anEdgeAspect;
214 anEdgeAspect.Color.r = (float )theAspect.EdgeColor.r;
215 anEdgeAspect.Color.g = (float )theAspect.EdgeColor.g;
216 anEdgeAspect.Color.b = (float )theAspect.EdgeColor.b;
217 anEdgeAspect.LineType = (Aspect_TypeOfLine )theAspect.LineType;
218 anEdgeAspect.Width = (float )theAspect.Width;
219 myAspectEdge.SetAspect (anEdgeAspect);
30f0ad28 220
221 myDoTextureMap = (theAspect.Texture.doTextureMap != 0);
222
223 // update texture binding
224 myTexture = theAspect.Texture.TextureMap;
225
226 const TCollection_AsciiString& aTextureKey = myTexture.IsNull() ? THE_EMPTY_KEY : myTexture->GetId();
30f0ad28 227 if (aTextureKey.IsEmpty() || myResources.TextureId != aTextureKey)
228 {
229 myResources.ResetTexture();
230 }
231
232 // update shader program binding
233 myShaderProgram = theAspect.ShaderProgram;
234
235 const TCollection_AsciiString& aShaderKey = myShaderProgram.IsNull() ? THE_EMPTY_KEY : myShaderProgram->GetId();
30f0ad28 236 if (aShaderKey.IsEmpty() || myResources.ShaderProgramId != aShaderKey)
237 {
238 myResources.ResetShader();
239 }
2166f0fa
SK
240}
241
4269bd1b 242// =======================================================================
fd4a6963 243// function : SetAspect
4269bd1b 244// purpose :
245// =======================================================================
fd4a6963 246void OpenGl_AspectFace::SetAspect (const Handle(Graphic3d_AspectFillArea3d)& theAspect)
4269bd1b 247{
fd4a6963 248 CALL_DEF_CONTEXTFILLAREA aFaceContext;
4269bd1b 249 Standard_Real aWidth;
250 Quantity_Color aBackIntColor;
251 Quantity_Color aEdgeColor;
252 Aspect_TypeOfLine aLType;
253 Quantity_Color aIntColor;
254 Aspect_InteriorStyle aIntStyle;
255 NCollection_Vec3<Standard_Real> aColor;
256
257 theAspect->Values (aIntStyle, aIntColor, aBackIntColor, aEdgeColor, aLType, aWidth);
258 aIntColor.Values (aColor.r(), aColor.g(), aColor.b(), Quantity_TOC_RGB);
259
fd4a6963 260 aFaceContext.Style = int (aIntStyle);
261 aFaceContext.IntColor.r = float (aColor.r());
262 aFaceContext.IntColor.g = float (aColor.g());
263 aFaceContext.IntColor.b = float (aColor.b());
4269bd1b 264
265 if (theAspect->Distinguish())
266 {
267 aBackIntColor.Values (aColor.r(), aColor.g(), aColor.b(), Quantity_TOC_RGB);
268 }
269
fd4a6963 270 aFaceContext.BackIntColor.r = float (aColor.r());
271 aFaceContext.BackIntColor.g = float (aColor.g());
272 aFaceContext.BackIntColor.b = float (aColor.b());
4269bd1b 273
fd4a6963 274 aFaceContext.Edge = theAspect->Edge () ? 1:0;
4269bd1b 275 aEdgeColor.Values (aColor.r(), aColor.g(), aColor.b(), Quantity_TOC_RGB);
276
fd4a6963 277 aFaceContext.EdgeColor.r = float (aColor.r());
278 aFaceContext.EdgeColor.g = float (aColor.g());
279 aFaceContext.EdgeColor.b = float (aColor.b());
280 aFaceContext.LineType = int (aLType);
281 aFaceContext.Width = float (aWidth);
282 aFaceContext.Hatch = int (theAspect->HatchStyle ());
4269bd1b 283
fd4a6963 284 aFaceContext.Distinguish = theAspect->Distinguish () ? 1:0;
285 aFaceContext.BackFace = theAspect->BackFace () ? 1:0;
4269bd1b 286
fd4a6963 287 aFaceContext.Back.Shininess = float ((theAspect->BackMaterial ()).Shininess ());
288 aFaceContext.Back.Ambient = float ((theAspect->BackMaterial ()).Ambient ());
289 aFaceContext.Back.Diffuse = float ((theAspect->BackMaterial ()).Diffuse ());
290 aFaceContext.Back.Specular = float ((theAspect->BackMaterial ()).Specular ());
291 aFaceContext.Back.Transparency = float ((theAspect->BackMaterial ()).Transparency ());
292 aFaceContext.Back.Emission = float ((theAspect->BackMaterial ()).Emissive ());
4269bd1b 293
294 // Reflection mode
fd4a6963 295 aFaceContext.Back.IsAmbient = ((theAspect->BackMaterial ()).ReflectionMode (Graphic3d_TOR_AMBIENT) ? 1 : 0 );
296 aFaceContext.Back.IsDiffuse = ((theAspect->BackMaterial ()).ReflectionMode (Graphic3d_TOR_DIFFUSE) ? 1 : 0 );
297 aFaceContext.Back.IsSpecular = ((theAspect->BackMaterial ()).ReflectionMode (Graphic3d_TOR_SPECULAR) ? 1 : 0 );
298 aFaceContext.Back.IsEmission = ((theAspect->BackMaterial ()).ReflectionMode (Graphic3d_TOR_EMISSION) ? 1 : 0 );
4269bd1b 299
300 // Material type
301 const Graphic3d_MaterialAspect aBackMat = theAspect->BackMaterial ();
302 Standard_Boolean isBackPhys = aBackMat.MaterialType (Graphic3d_MATERIAL_PHYSIC);
fd4a6963 303 aFaceContext.Back.IsPhysic = (isBackPhys ? 1 : 0 );
4269bd1b 304
305 // Specular Color
fd4a6963 306 aFaceContext.Back.ColorSpec.r = float (((theAspect->BackMaterial ()).SpecularColor ()).Red ());
307 aFaceContext.Back.ColorSpec.g = float (((theAspect->BackMaterial ()).SpecularColor ()).Green ());
308 aFaceContext.Back.ColorSpec.b = float (((theAspect->BackMaterial ()).SpecularColor ()).Blue ());
4269bd1b 309
310 // Ambient color
fd4a6963 311 aFaceContext.Back.ColorAmb.r = float (((theAspect->BackMaterial ()).AmbientColor ()).Red ());
312 aFaceContext.Back.ColorAmb.g = float (((theAspect->BackMaterial ()).AmbientColor ()).Green ());
313 aFaceContext.Back.ColorAmb.b = float (((theAspect->BackMaterial ()).AmbientColor ()).Blue ());
4269bd1b 314
315 // Diffuse color
fd4a6963 316 aFaceContext.Back.ColorDif.r = float (((theAspect->BackMaterial ()).DiffuseColor ()).Red ());
317 aFaceContext.Back.ColorDif.g = float (((theAspect->BackMaterial ()).DiffuseColor ()).Green ());
318 aFaceContext.Back.ColorDif.b = float (((theAspect->BackMaterial ()).DiffuseColor ()).Blue ());
4269bd1b 319
320 // Emissive color
fd4a6963 321 aFaceContext.Back.ColorEms.r = float (((theAspect->BackMaterial ()).EmissiveColor ()).Red ());
322 aFaceContext.Back.ColorEms.g = float (((theAspect->BackMaterial ()).EmissiveColor ()).Green ());
323 aFaceContext.Back.ColorEms.b = float (((theAspect->BackMaterial ()).EmissiveColor ()).Blue ());
4269bd1b 324
fd4a6963 325 aFaceContext.Back.EnvReflexion = float ((theAspect->BackMaterial ()).EnvReflexion());
4269bd1b 326
fd4a6963 327 aFaceContext.Front.Shininess = float ((theAspect->FrontMaterial ()).Shininess ());
328 aFaceContext.Front.Ambient = float ((theAspect->FrontMaterial ()).Ambient ());
329 aFaceContext.Front.Diffuse = float ((theAspect->FrontMaterial ()).Diffuse ());
330 aFaceContext.Front.Specular = float ((theAspect->FrontMaterial ()).Specular ());
331 aFaceContext.Front.Transparency = float ((theAspect->FrontMaterial ()).Transparency ());
332 aFaceContext.Front.Emission = float ((theAspect->FrontMaterial ()).Emissive ());
4269bd1b 333
334 // Reflection mode
fd4a6963 335 aFaceContext.Front.IsAmbient = ((theAspect->FrontMaterial ()).ReflectionMode (Graphic3d_TOR_AMBIENT) ? 1 : 0);
336 aFaceContext.Front.IsDiffuse = ((theAspect->FrontMaterial ()).ReflectionMode (Graphic3d_TOR_DIFFUSE) ? 1 : 0);
337 aFaceContext.Front.IsSpecular = ((theAspect->FrontMaterial ()).ReflectionMode (Graphic3d_TOR_SPECULAR) ? 1 : 0);
338 aFaceContext.Front.IsEmission = ((theAspect->FrontMaterial ()).ReflectionMode (Graphic3d_TOR_EMISSION) ? 1 : 0);
4269bd1b 339
fd4a6963 340 // Material type
4269bd1b 341 const Graphic3d_MaterialAspect aFrontMat = theAspect->FrontMaterial ();
342 Standard_Boolean isFrontPhys = aFrontMat.MaterialType (Graphic3d_MATERIAL_PHYSIC);
fd4a6963 343 aFaceContext.Front.IsPhysic = (isFrontPhys ? 1 : 0 );
4269bd1b 344
345 // Specular Color
fd4a6963 346 aFaceContext.Front.ColorSpec.r = float (((theAspect->FrontMaterial ()).SpecularColor ()).Red ());
347 aFaceContext.Front.ColorSpec.g = float (((theAspect->FrontMaterial ()).SpecularColor ()).Green ());
348 aFaceContext.Front.ColorSpec.b = float (((theAspect->FrontMaterial ()).SpecularColor ()).Blue ());
4269bd1b 349
350 // Ambient color
fd4a6963 351 aFaceContext.Front.ColorAmb.r = float (((theAspect->FrontMaterial ()).AmbientColor ()).Red ());
352 aFaceContext.Front.ColorAmb.g = float (((theAspect->FrontMaterial ()).AmbientColor ()).Green ());
353 aFaceContext.Front.ColorAmb.b = float (((theAspect->FrontMaterial ()).AmbientColor ()).Blue ());
4269bd1b 354
355 // Diffuse color
fd4a6963 356 aFaceContext.Front.ColorDif.r = float (((theAspect->FrontMaterial ()).DiffuseColor ()).Red ());
357 aFaceContext.Front.ColorDif.g = float (((theAspect->FrontMaterial ()).DiffuseColor ()).Green ());
358 aFaceContext.Front.ColorDif.b = float (((theAspect->FrontMaterial ()).DiffuseColor ()).Blue ());
4269bd1b 359
360 // Emissive color
fd4a6963 361 aFaceContext.Front.ColorEms.r = float (((theAspect->FrontMaterial ()).EmissiveColor ()).Red ());
362 aFaceContext.Front.ColorEms.g = float (((theAspect->FrontMaterial ()).EmissiveColor ()).Green ());
363 aFaceContext.Front.ColorEms.b = float (((theAspect->FrontMaterial ()).EmissiveColor ()).Blue ());
4269bd1b 364
fd4a6963 365 aFaceContext.Front.EnvReflexion = float ((theAspect->FrontMaterial ()).EnvReflexion());
366 aFaceContext.IsDef = 1;
367 aFaceContext.Texture.TextureMap = theAspect->TextureMap();
368 aFaceContext.Texture.doTextureMap = theAspect->TextureMapState() ? 1 : 0;
4269bd1b 369
370 Standard_Integer aPolyMode;
371 Standard_ShortReal aPolyFactor, aPolyUnits;
372 theAspect->PolygonOffsets (aPolyMode, aPolyFactor, aPolyUnits);
fd4a6963 373 aFaceContext.PolygonOffsetMode = aPolyMode;
374 aFaceContext.PolygonOffsetFactor = (Standard_ShortReal)aPolyFactor;
375 aFaceContext.PolygonOffsetUnits = (Standard_ShortReal)aPolyUnits;
4269bd1b 376
30f0ad28 377 aFaceContext.ShaderProgram = theAspect->ShaderProgram();
378
fd4a6963 379 SetAspect (aFaceContext);
4269bd1b 380}
381
bf75be98 382// =======================================================================
383// function : Render
384// purpose :
385// =======================================================================
5e27df78 386void OpenGl_AspectFace::Render (const Handle(OpenGl_Workspace)& theWorkspace) const
2166f0fa 387{
5e27df78 388 theWorkspace->SetAspectFace (this);
2166f0fa
SK
389}
390
bf75be98 391// =======================================================================
392// function : Release
393// purpose :
394// =======================================================================
5e27df78 395void OpenGl_AspectFace::Release (const Handle(OpenGl_Context)& theContext)
396{
30f0ad28 397 if (!myResources.Texture.IsNull())
bf75be98 398 {
399 if (!theContext.IsNull())
400 {
30f0ad28 401 if (myResources.TextureId.IsEmpty())
bf75be98 402 {
30f0ad28 403 theContext->DelayedRelease (myResources.Texture);
bf75be98 404 }
405 else
406 {
30f0ad28 407 myResources.Texture.Nullify(); // we need nullify all handles before ReleaseResource() call
05dd08ce 408 theContext->ReleaseResource (myResources.TextureId, Standard_True);
bf75be98 409 }
410 }
30f0ad28 411 myResources.Texture.Nullify();
bf75be98 412 }
30f0ad28 413 myResources.TextureId.Clear();
414 myResources.ResetTexture();
415
392ac980 416 if (!myResources.ShaderProgram.IsNull()
417 && !theContext.IsNull())
30f0ad28 418 {
392ac980 419 theContext->ShaderManager()->Unregister (myResources.ShaderProgramId,
420 myResources.ShaderProgram);
30f0ad28 421 }
422 myResources.ShaderProgramId.Clear();
423 myResources.ResetShader();
5e27df78 424}
fd4a6963 425
426// =======================================================================
30f0ad28 427// function : BuildTexture
fd4a6963 428// purpose :
429// =======================================================================
30f0ad28 430void OpenGl_AspectFace::Resources::BuildTexture (const Handle(OpenGl_Workspace)& theWS,
431 const Handle(Graphic3d_TextureMap)& theTexture)
fd4a6963 432{
30f0ad28 433 const Handle(OpenGl_Context)& aContext = theWS->GetGlContext();
fd4a6963 434
30f0ad28 435 // release old texture resource
436 if (!Texture.IsNull())
fd4a6963 437 {
30f0ad28 438 if (TextureId.IsEmpty())
439 {
440 aContext->DelayedRelease (Texture);
441 Texture.Nullify();
442 }
443 else
fd4a6963 444 {
30f0ad28 445 Texture.Nullify(); // we need nullify all handles before ReleaseResource() call
446 aContext->ReleaseResource (TextureId);
447 }
448 }
449
450 TextureId = theTexture.IsNull() ? THE_EMPTY_KEY : theTexture->GetId();
451
452 if (!theTexture.IsNull())
453 {
454 if (TextureId.IsEmpty() || !aContext->GetResource<Handle(OpenGl_Texture)> (TextureId, Texture))
455 {
456 Texture = new OpenGl_Texture (theTexture->GetParams());
457 Handle(Image_PixMap) anImage = theTexture->GetImage();
458 if (!anImage.IsNull())
fd4a6963 459 {
30f0ad28 460 Texture->Init (aContext, *anImage.operator->(), theTexture->Type());
fd4a6963 461 }
30f0ad28 462 if (!TextureId.IsEmpty())
fd4a6963 463 {
30f0ad28 464 aContext->ShareResource (TextureId, Texture);
fd4a6963 465 }
466 }
30f0ad28 467 }
468}
fd4a6963 469
30f0ad28 470// =======================================================================
471// function : BuildShader
472// purpose :
473// =======================================================================
392ac980 474void OpenGl_AspectFace::Resources::BuildShader (const Handle(OpenGl_Workspace)& theWS,
30f0ad28 475 const Handle(Graphic3d_ShaderProgram)& theShader)
476{
477 const Handle(OpenGl_Context)& aContext = theWS->GetGlContext();
30f0ad28 478 if (!aContext->IsGlGreaterEqual (2, 0))
392ac980 479 {
30f0ad28 480 return;
392ac980 481 }
30f0ad28 482
483 // release old shader program resources
484 if (!ShaderProgram.IsNull())
485 {
392ac980 486 aContext->ShaderManager()->Unregister (ShaderProgramId, ShaderProgram);
30f0ad28 487 }
392ac980 488 if (theShader.IsNull())
30f0ad28 489 {
392ac980 490 return;
30f0ad28 491 }
392ac980 492
493 aContext->ShaderManager()->Create (theShader, ShaderProgramId, ShaderProgram);
fd4a6963 494}