static int RepWireBondCGOGenerate(RepWireBond * I, RenderInfo * info)
{
PyMOLGlobals *G = I->R.G;
CGO *convertcgo = NULL;
int ok = true;
short line_as_cylinders = 0;
line_as_cylinders = SettingGetGlobal_b(G, cSetting_use_shaders) && SettingGetGlobal_b(G, cSetting_render_as_cylinders) && SettingGetGlobal_b(G, cSetting_line_as_cylinders);
{
if (ok && I->primitiveCGO){
if (line_as_cylinders){
CGO *tmpCGO = CGONew(G);
if (ok) ok &= CGOEnable(tmpCGO, GL_CYLINDER_SHADER);
if (ok) ok &= CGOSpecial(tmpCGO, CYLINDER_WIDTH_FOR_REPWIRE);
convertcgo = CGOConvertLinesToCylinderShader(I->primitiveCGO, tmpCGO);
I->shaderCGO_has_cylinders = true;
if (ok) ok &= CGOAppendNoStop(tmpCGO, convertcgo);
if (ok) ok &= CGODisable(tmpCGO, GL_CYLINDER_SHADER);
if (ok) ok &= CGOStop(tmpCGO);
CGOFreeWithoutVBOs(convertcgo);
convertcgo = tmpCGO;
} else {
bool trilines = SettingGetGlobal_b(G, cSetting_trilines);
CGO *tmpCGO = CGONew(G), *tmp2CGO;
int shader = trilines ? GL_TRILINES_SHADER : GL_LINE_SHADER;
if (ok) ok &= CGOEnable(tmpCGO, shader);
if (ok) ok &= CGODisable(tmpCGO, CGO_GL_LIGHTING);
if (trilines) {
if (ok) ok &= CGOSpecial(tmpCGO, LINEWIDTH_DYNAMIC_WITH_SCALE);
tmp2CGO = CGOConvertToTrilinesShader(I->primitiveCGO, tmpCGO);
} else {
tmp2CGO = CGOConvertToLinesShader(I->primitiveCGO, tmpCGO);
}
if (ok) ok &= CGOAppendNoStop(tmpCGO, tmp2CGO);
if (ok) ok &= CGODisable(tmpCGO, shader);
if (ok) ok &= CGOStop(tmpCGO);
CGOFreeWithoutVBOs(tmp2CGO);
convertcgo = tmpCGO;
}
convertcgo->use_shader = true;
}
CGOFree(I->shaderCGO);
I->shaderCGO = convertcgo;
CHECKOK(ok, I->shaderCGO);
}
return ok;
}
CGO *CrystalGetUnitCellCGO(CCrystal * I)
{
PyMOLGlobals *G = I->G;
float v[3];
CGO *cgo = NULL;
if(I) {
cgo = CGONew(G);
#ifndef PURE_OPENGL_ES_2
CGODisable(cgo, GL_LIGHTING);
#endif
#ifdef _PYMOL_CGO_DRAWARRAYS
{
int nverts = 10, pl = 0;
float *vertexVals;
vertexVals = CGODrawArrays(cgo, GL_LINE_STRIP, CGO_VERTEX_ARRAY, nverts);
set3f(v, 0, 0, 0);
transform33f3f(I->FracToReal, v, v);
vertexVals[pl++] = v[0]; vertexVals[pl++] = v[1]; vertexVals[pl++] = v[2];
set3f(v, 1, 0, 0);
transform33f3f(I->FracToReal, v, v);
vertexVals[pl++] = v[0]; vertexVals[pl++] = v[1]; vertexVals[pl++] = v[2];
set3f(v, 1, 1, 0);
transform33f3f(I->FracToReal, v, v);
vertexVals[pl++] = v[0]; vertexVals[pl++] = v[1]; vertexVals[pl++] = v[2];
set3f(v, 0, 1, 0);
transform33f3f(I->FracToReal, v, v);
vertexVals[pl++] = v[0]; vertexVals[pl++] = v[1]; vertexVals[pl++] = v[2];
set3f(v, 0, 0, 0);
transform33f3f(I->FracToReal, v, v);
vertexVals[pl++] = v[0]; vertexVals[pl++] = v[1]; vertexVals[pl++] = v[2];
set3f(v, 0, 0, 1);
transform33f3f(I->FracToReal, v, v);
vertexVals[pl++] = v[0]; vertexVals[pl++] = v[1]; vertexVals[pl++] = v[2];
set3f(v, 1, 0, 1);
transform33f3f(I->FracToReal, v, v);
vertexVals[pl++] = v[0]; vertexVals[pl++] = v[1]; vertexVals[pl++] = v[2];
set3f(v, 1, 1, 1);
transform33f3f(I->FracToReal, v, v);
vertexVals[pl++] = v[0]; vertexVals[pl++] = v[1]; vertexVals[pl++] = v[2];
set3f(v, 0, 1, 1);
transform33f3f(I->FracToReal, v, v);
vertexVals[pl++] = v[0]; vertexVals[pl++] = v[1]; vertexVals[pl++] = v[2];
set3f(v, 0, 0, 1);
transform33f3f(I->FracToReal, v, v);
vertexVals[pl++] = v[0]; vertexVals[pl++] = v[1]; vertexVals[pl++] = v[2];
}
{
int nverts = 6, pl = 0;
float *vertexVals;
vertexVals = CGODrawArrays(cgo, GL_LINES, CGO_VERTEX_ARRAY, nverts);
set3f(v, 0, 1, 0);
transform33f3f(I->FracToReal, v, v);
vertexVals[pl++] = v[0]; vertexVals[pl++] = v[1]; vertexVals[pl++] = v[2];
set3f(v, 0, 1, 1);
transform33f3f(I->FracToReal, v, v);
vertexVals[pl++] = v[0]; vertexVals[pl++] = v[1]; vertexVals[pl++] = v[2];
set3f(v, 1, 1, 0);
transform33f3f(I->FracToReal, v, v);
vertexVals[pl++] = v[0]; vertexVals[pl++] = v[1]; vertexVals[pl++] = v[2];
set3f(v, 1, 1, 1);
transform33f3f(I->FracToReal, v, v);
vertexVals[pl++] = v[0]; vertexVals[pl++] = v[1]; vertexVals[pl++] = v[2];
set3f(v, 1, 0, 0);
transform33f3f(I->FracToReal, v, v);
vertexVals[pl++] = v[0]; vertexVals[pl++] = v[1]; vertexVals[pl++] = v[2];
set3f(v, 1, 0, 1);
transform33f3f(I->FracToReal, v, v);
vertexVals[pl++] = v[0]; vertexVals[pl++] = v[1]; vertexVals[pl++] = v[2];
}
#else
CGOBegin(cgo, GL_LINE_STRIP);
set3f(v, 0, 0, 0);
transform33f3f(I->FracToReal, v, v);
CGOVertexv(cgo, v);
set3f(v, 1, 0, 0);
transform33f3f(I->FracToReal, v, v);
CGOVertexv(cgo, v);
set3f(v, 1, 1, 0);
transform33f3f(I->FracToReal, v, v);
CGOVertexv(cgo, v);
set3f(v, 0, 1, 0);
transform33f3f(I->FracToReal, v, v);
CGOVertexv(cgo, v);
set3f(v, 0, 0, 0);
transform33f3f(I->FracToReal, v, v);
CGOVertexv(cgo, v);
set3f(v, 0, 0, 1);
transform33f3f(I->FracToReal, v, v);
CGOVertexv(cgo, v);
set3f(v, 1, 0, 1);
transform33f3f(I->FracToReal, v, v);
CGOVertexv(cgo, v);
set3f(v, 1, 1, 1);
transform33f3f(I->FracToReal, v, v);
CGOVertexv(cgo, v);
set3f(v, 0, 1, 1);
transform33f3f(I->FracToReal, v, v);
CGOVertexv(cgo, v);
set3f(v, 0, 0, 1);
transform33f3f(I->FracToReal, v, v);
CGOVertexv(cgo, v);
CGOEnd(cgo);
CGOBegin(cgo, GL_LINES);
set3f(v, 0, 1, 0);
transform33f3f(I->FracToReal, v, v);
CGOVertexv(cgo, v);
set3f(v, 0, 1, 1);
transform33f3f(I->FracToReal, v, v);
CGOVertexv(cgo, v);
set3f(v, 1, 1, 0);
transform33f3f(I->FracToReal, v, v);
CGOVertexv(cgo, v);
set3f(v, 1, 1, 1);
transform33f3f(I->FracToReal, v, v);
CGOVertexv(cgo, v);
set3f(v, 1, 0, 0);
transform33f3f(I->FracToReal, v, v);
CGOVertexv(cgo, v);
set3f(v, 1, 0, 1);
transform33f3f(I->FracToReal, v, v);
CGOVertexv(cgo, v);
CGOEnd(cgo);
#endif
#ifndef PURE_OPENGL_ES_2
CGOEnable(cgo, GL_LIGHTING);
#endif
CGOStop(cgo);
}
return (cgo);
}
