StDiagnosticsGUI::StDiagnosticsGUI(StDiagnostics* thePlugin)
: StGLRootWidget(thePlugin->myResMgr),
myPlugin(thePlugin),
myLangMap(new StTranslations(thePlugin->myResMgr, StDiagnostics::ST_DRAWER_PLUGIN_NAME)),
myGeomWidget(NULL),
myFpsWidget(NULL),
myCntWidgetLT(NULL),
myCntWidgetBR(NULL),
myFrameCounter(0) {
myGeomWidget = new StGeometryTest(this);
// FPS widget
myFpsWidget = new StGLFpsLabel(this);
myFpsWidget->signals.onBtnClick.connect(myPlugin, &StDiagnostics::doFpsClick);
// counters
myCntWidgetLT = new StGLTextArea(this, 32, 32, StGLCorner(ST_VCORNER_TOP, ST_HCORNER_LEFT), 128, 32);
myCntWidgetBR = new StGLTextArea(this, -32, -32, StGLCorner(ST_VCORNER_BOTTOM, ST_HCORNER_RIGHT), 128, 32);
myCntWidgetLT->setupAlignment(StGLTextFormatter::ST_ALIGN_X_CENTER,
StGLTextFormatter::ST_ALIGN_Y_CENTER);
myCntWidgetBR->setupAlignment(StGLTextFormatter::ST_ALIGN_X_CENTER,
StGLTextFormatter::ST_ALIGN_Y_CENTER);
myCntWidgetLT->setBorder(true);
myCntWidgetBR->setBorder(true);
myCntWidgetLT->setBackColor(StGLVec3(0.77f, 0.77f, 0.77f));
myCntWidgetBR->setBackColor(StGLVec3(0.77f, 0.77f, 0.77f));
myCntWidgetLT->setText("0000");
myCntWidgetBR->setText("0000");
}
bool StGLUVCylinder::computeMesh() {
clearRAM();
if(myNbRings == 0) {
return false;
}
const int aNbVerts = (myNbRings + 1) * 2;
myVertices.initArray(aNbVerts);
myNormals .initArray(aNbVerts);
myTCoords .initArray(aNbVerts);
for(int aRingIter = 0; aRingIter <= myNbRings; ++aRingIter) {
const GLfloat aPhi = float(aRingIter) * float(M_PI * 2.0) / float(myNbRings);
const GLfloat aTexCrd = float(aRingIter) / float(myNbRings);
myTCoords.changeValue(aRingIter * 2 + 0) = StGLVec2(aTexCrd, 0.0f);
myTCoords.changeValue(aRingIter * 2 + 1) = StGLVec2(aTexCrd, 1.0f);
const StGLVec3 aNorm(cosf(aPhi), 0.0f, sinf(aPhi));
myNormals.changeValue(aRingIter * 2 + 0) = aNorm;
myNormals.changeValue(aRingIter * 2 + 1) = aNorm;
myVertices.changeValue(aRingIter * 2 + 0) = myCenter + aNorm * myRadius - StGLVec3(0.0f, myHeight * 0.5f, 0.0f);
myVertices.changeValue(aRingIter * 2 + 1) = myCenter + aNorm * myRadius + StGLVec3(0.0f, myHeight * 0.5f, 0.0f);
}
return true;
}
void StGLRootWidget::stglResize(const StGLBoxPx& theRectPx) {
const bool isChanged = getRectPx().right() != theRectPx.width()
|| getRectPx().bottom() != theRectPx.height();
myProjCamera.resize(*myGlCtx, theRectPx.width(), theRectPx.height());
changeRectPx().right() = theRectPx.width(); // (left, top) forced to zero point (0, 0)
changeRectPx().bottom() = theRectPx.height();
myProjCamera.getZParams(myRectGl);
myScaleGlX = (myRectGl.right() - myRectGl.left()) / GLdouble(getRectPx().width());
myScaleGlY = (myRectGl.top() - myRectGl.bottom()) / GLdouble(getRectPx().height());
myScrProjMat = myProjCamera.getProjMatrix();
myScrProjMat.translate(StGLVec3(0.0f, 0.0f, -myProjCamera.getZScreen()));
if(myMenuProgram->isValid()) {
myMenuProgram->use(*myGlCtx);
myMenuProgram->setProjMat(*myGlCtx, getScreenProjection());
myMenuProgram->unuse(*myGlCtx);
}
// update all child widgets
if(isChanged) {
StGLWidget::stglResize();
}
}
bool StGLRangeFieldFloat32::stglInit() {
if(myValueText != NULL) {
return true;
}
myValueText = new StGLTextArea(this, 0, 0, StGLCorner(ST_VCORNER_CENTER, ST_HCORNER_LEFT), -myRoot->scale(1), myRoot->scale(10));
onValueChange(0.0f);
myValueText->setTextColor(StGLVec3(1.0f, 1.0f, 1.0f));
myValueText->setVisibility(true, true);
if(!myValueText->stglInitAutoHeightWidth()) {
delete myValueText; myValueText = NULL;
return false;
}
myValueText->changeRectPx().right() += myRoot->scale(10);
myValueText->setTextWidth(myValueText->getRectPx().width());
myValueText->setupAlignment(StGLTextFormatter::ST_ALIGN_X_RIGHT, StGLTextFormatter::ST_ALIGN_Y_TOP);
onValueChange(myTrackValue->getValue());
const GLint aHeight = myValueText->getRectPx().height();
StGLButton* aButDec = new StGLButton(this, 0, 0, "-");
aButDec->setCorner(StGLCorner(ST_VCORNER_CENTER, ST_HCORNER_LEFT));
aButDec->setHeight(aHeight);
aButDec->setWidth(myRoot->scale(15));
aButDec->setVisibility(true, true);
aButDec->signals.onBtnClick += stSlot(this, &StGLRangeFieldFloat32::doDecrement);
myValueText->changeRectPx().moveLeftTo(aButDec->getRectPx().right() - myRoot->scale(5));
StGLButton* aButInc = new StGLButton(this, myValueText->getRectPx().right() + myRoot->scale(5), 0, "+");
aButInc->setCorner(StGLCorner(ST_VCORNER_CENTER, ST_HCORNER_LEFT));
aButInc->setHeight(aHeight);
aButInc->setWidth(myRoot->scale(15));
aButInc->setVisibility(true, true);
aButInc->signals.onBtnClick += stSlot(this, &StGLRangeFieldFloat32::doIncrement);
changeRectPx().right() = getRectPx().left() + aButInc->getRectPx().right();
changeRectPx().bottom() = getRectPx().top() + aHeight;
return StGLWidget::stglInit();
}
void StBndBox::reset() {
StBndContainer::reset();
myMin = StGLVec3();
myMax = StGLVec3();
}
void StGeometryTest::resizeGrid(const StRectI_t& winRectPx) {
StGLContext& aCtx = getContext();
// grid
size_t linesCountV = 16 + 1;
size_t cellSizePx = 10;
size_t linesCountH = 16 + 1;
if(winRectPx.width() > winRectPx.height()) {
cellSizePx = winRectPx.width() / (linesCountV - 1);
linesCountH = (winRectPx.height() / cellSizePx) + 1;
} else {
cellSizePx = winRectPx.height() / (linesCountH - 1);
linesCountV = (winRectPx.width() / cellSizePx) + 1;
}
myCellSize.x() = 2.0f * GLfloat(cellSizePx) / GLfloat(winRectPx.width());
myCellSize.y() = 2.0f * GLfloat(cellSizePx) / GLfloat(winRectPx.height());
size_t vertixesCount = (linesCountH + linesCountV) * 2;
StArray<StGLVec4> vertArray(vertixesCount);
// insert black gap to make quads
StGLVec2 blackGap(GLfloat(winRectPx.width() - cellSizePx * (linesCountV - 1)) / GLfloat(winRectPx.width()),
GLfloat(winRectPx.height() - cellSizePx * (linesCountH - 1)) / GLfloat(winRectPx.height()));
StGLVec2 bottomLeft = StGLVec2(-1.0f) + blackGap;
StGLVec2 fat = StGLVec2( 2.0f) - blackGap * 2.0f;
// horizontal lines
for(size_t lineId = 0; lineId < linesCountH; ++lineId) {
GLfloat anY = bottomLeft.y() + fat.y() * (GLfloat(lineId) / GLfloat(linesCountH - 1));
vertArray[2 * lineId] = StGLVec4(-1.0f, anY, 0.0f, 1.0f);
vertArray[2 * lineId + 1] = StGLVec4( 1.0f, anY, 0.0f, 1.0f);
}
// vertical lines
for(size_t lineId = 0; lineId < linesCountV; ++lineId) {
GLfloat anX = bottomLeft.x() + fat.x() * (GLfloat(lineId) / GLfloat(linesCountV - 1));
vertArray[2 * linesCountH + 2 * lineId] = StGLVec4(anX, -1.0f, 0.0f, 1.0f);
vertArray[2 * linesCountH + 2 * lineId + 1] = StGLVec4(anX, 1.0f, 0.0f, 1.0f);
}
myGrid.changeVBO(ST_VBO_VERTEX)->init(aCtx, vertArray);
// white color
StArray<StGLVec4> lColorsArray(vertixesCount, StGLVec4(1.0f));
myGrid.changeVBO(ST_VBO_COLORS)->init(aCtx, lColorsArray);
// bottom left circle
myCircles[0].create(StGLVec3(bottomLeft + myCellSize),
myCellSize.x(), myCellSize.y(), 64);
// bottom right circle
myCircles[1].create(StGLVec3(bottomLeft + myCellSize * StGLVec2(GLfloat(linesCountV - 2), 1.0f)),
myCellSize.x(), myCellSize.y(), 64);
// top left circle
myCircles[2].create(StGLVec3(bottomLeft + myCellSize * StGLVec2(1.0f, GLfloat(linesCountH - 2))),
myCellSize.x(), myCellSize.y(), 64);
// top right circle
myCircles[3].create(StGLVec3(bottomLeft + myCellSize * StGLVec2(GLfloat(linesCountV - 2), GLfloat(linesCountH - 2))),
myCellSize.x(), myCellSize.y(), 64);
// center circle
GLfloat minSize = 0.5f * (((linesCountV < linesCountH) ? linesCountV : linesCountH) - 1);
myCircles[4].create(StGLVec3(0.0f),
myCellSize.x() * minSize, myCellSize.y() * minSize, 64);
// white color
for(size_t aCircleId = 0; aCircleId < 5; ++aCircleId) {
myCircles[aCircleId].computeMesh();
myCircles[aCircleId].initColorsArray(StGLVec4(1.0f));
myCircles[aCircleId].initVBOs(aCtx);
}
}
