void Image4uint8::copyGImage(const GImage& im) { switch (im.channels()) { case 1: copyArray(im.pixel1(), im.width(), im.height()); break; case 3: copyArray(im.pixel3(), im.width(), im.height()); break; case 4: copyArray(im.pixel4(), im.width(), im.height()); break; } }
Image4uint8::Ref Image4uint8::fromGImage(const GImage& im, WrapMode wrap) { switch (im.channels()) { case 1: return fromArray(im.pixel1(), im.width(), im.height(), wrap); case 3: return fromArray(im.pixel3(), im.width(), im.height(), wrap); case 4: return fromArray(im.pixel4(), im.width(), im.height(), wrap); default: debugAssertM(false, "Input GImage must have 1, 3, or 4 channels."); return NULL; } }
HelloDialog(HelloController* pController, int w, int h) : GWidgetDialog(w, h, 0xff90d0f0) // a=ff, r=90, g=d0, b=f0 { m_pController = pController; m_pImage = new GImage(); m_pImage->setSize(800, 600); m_pCanvas = new GWidgetCanvas(this, 10, 30, m_pImage->width(), m_pImage->height(), m_pImage); m_pQuitButton = new GWidgetTextButton(this, 850, 300, 80, 24, "Quit"); }
void DrawCar() { double angle = atan(3 * (2 * m_carPos - 3 * m_carPos * m_carPos)); m_pRotatedCar->rotate(m_pCar, 35, 41, angle); double y = m_carPos * m_carPos - m_carPos * m_carPos * m_carPos; int i = (int)((m_carPos + 0.4) * m_pImage->width() / 1.4); int j = (int)(m_pImage->height() - y * 3 * m_pImage->height() - 50); GRect r(0, 0, 70, 60); m_pImage->blitAlpha(i - 35, j - 40, m_pRotatedCar, &r); }
PopupView(GWidgetDialog* pDialog) : ViewBase() { m_nLeft = 0; m_nTop = 0; m_pBackgroundImage = new GImage(); captureScreen(m_pBackgroundImage); m_pBackgroundImage->contrastAndBrightness(.5, -64); m_pDialog = pDialog; m_x = (m_pBackgroundImage->width() - m_pDialog->rect()->w) / 2; m_y = (m_pBackgroundImage->height() - m_pDialog->rect()->h) / 2; }
void Redraw(bool forw) { m_pImage->clear(0xff80c0e0); // Draw the hill { int i, j; double x, y; for(i = 0; i < (int)m_pImage->width(); i++) { x = (double)i * 1.4 / m_pImage->width() - 0.4; y = x * x - x * x * x; j = (int)(m_pImage->height() - y * 3 * m_pImage->height() - 50); m_pImage->lineNoChecks(i, j, i, m_pImage->height() - 1, 0xff40a060); } } // Draw the car DrawCar(); // Draw the acceleration arrow m_pImage->arrow(240, 20, 240 + (forw ? 15 : -15), 20, 0xff000000, 10); }
CarOnHillDialog(CarOnHillController* pController, int w, int h) : GWidgetDialog(w, h, 0xff90d0f0) { m_pController = pController; m_pBullets = new GWidgetBulletGroup(this, 820, 102, 14, 14, 2, 30, true); new GWidgetTextLabel(this, 840, 100, 100, 24, "Mouse", 0xff306000); new GWidgetTextLabel(this, 840, 130, 100, 24, "Q-Learner", 0xff306000); m_pBullets->setSelection(1); m_pWins = new GWidgetTextLabel(this, 820, 300, 100, 24, "Wins: 0", 0xff306000, 0xff90d0f0); m_pUpdateDisplay = new GWidgetCheckBox(this, 820, 402, 18, 18); m_pUpdateDisplay->setChecked(true); new GWidgetTextLabel(this, 840, 400, 100, 24, "Slow", 0xff306000); m_pImage = new GImage(); m_pImage->setSize(800, 600); m_pCanvas = new GWidgetCanvas(this, 10, 30, m_pImage->width(), m_pImage->height(), m_pImage); m_prng = new GRand(0); m_pModel = new CarOnHillModel(m_prng, m_pImage, m_pWins); m_bPrevUpdate = true; }
void G2DRegionGraph::makeCoarserRegions(G2DRegionGraph* pFineRegions) { // Find every region's closest neighbor GImage* pFineRegionMask = pFineRegions->regionMask(); GImage* pCoarseRegionMask = regionMask(); GAssert(pCoarseRegionMask->width() == pFineRegionMask->width() && pCoarseRegionMask->height() == pFineRegionMask->height()); // size mismatch int* pBestNeighborMap = new int[pFineRegions->regionCount()]; ArrayHolder<int> hBestNeighborMap(pBestNeighborMap); for(size_t i = 0; i < pFineRegions->regionCount(); i++) { struct GRegion* pRegion = pFineRegions->m_regions[i]; struct GRegionEdge* pEdge; double d; double dBestDiff = 1e200; int nBestNeighbor = -1; for(pEdge = pRegion->m_pNeighbors; pEdge; pEdge = pEdge->GetNext(i)) { size_t j = pEdge->GetOther(i); struct GRegion* pOtherRegion = pFineRegions->m_regions[j]; d = MeasureRegionDifference(pRegion, pOtherRegion); if(d < dBestDiff) { dBestDiff = d; nBestNeighbor = (int)j; } } GAssert(nBestNeighbor != -1 || pFineRegions->regionCount() == 1); // failed to find a neighbor pBestNeighborMap[i] = nBestNeighbor; } // Create a mapping to new regions numbers int* pNewRegionMap = new int[pFineRegions->regionCount()]; ArrayHolder<int> hNewRegionMap(pNewRegionMap); memset(pNewRegionMap, 0xff, sizeof(int) * pFineRegions->regionCount()); int nNewRegionCount = 0; for(size_t i = 0; i < pFineRegions->regionCount(); i++) { size_t nNewRegion = -1; size_t j = i; while(pNewRegionMap[j] == -1) { pNewRegionMap[j] = -2; j = pBestNeighborMap[j]; } if(pNewRegionMap[j] == -2) nNewRegion = nNewRegionCount++; else nNewRegion = pNewRegionMap[j]; j = i; while(pNewRegionMap[j] == -2) { pNewRegionMap[j] = (int)nNewRegion; j = pBestNeighborMap[j]; } } // Make the new regions for(size_t i = 0; i < pFineRegions->regionCount(); i++) { struct GRegion* pRegion = pFineRegions->m_regions[i]; size_t j = pNewRegionMap[i]; if(regionCount() <= j) { GAssert(regionCount() == j); // how'd it get two behind? addRegion(); } struct GRegion* pCoarseRegion = m_regions[j]; pCoarseRegion->m_nSumRed += pRegion->m_nSumRed; pCoarseRegion->m_nSumGreen += pRegion->m_nSumGreen; pCoarseRegion->m_nSumBlue += pRegion->m_nSumBlue; pCoarseRegion->m_nPixels += pRegion->m_nPixels; } for(size_t i = 0; i < pFineRegions->regionCount(); i++) { struct GRegion* pRegion = pFineRegions->m_regions[i]; size_t j = pNewRegionMap[i]; struct GRegionEdge* pEdge; for(pEdge = pRegion->m_pNeighbors; pEdge; pEdge = pEdge->GetNext(i)) { size_t k = pNewRegionMap[pEdge->GetOther(i)]; if(j != k) makeNeighbors(j, k); } } // Make the fine region mask unsigned int nOldRegion; int x, y; for(y = 0; y < (int)pFineRegionMask->height(); y++) { for(x = 0; x < (int)pFineRegionMask->width(); x++) { nOldRegion = pFineRegionMask->pixel(x, y); pCoarseRegionMask->setPixel(x, y, pNewRegionMap[nOldRegion]); } } }