public GridRenderer(int numLines, LineStyle lineStyle, TextStyle textStyle) { int size = Tile.SIZE; // not needed to set but we know: // 16 lines 'a' two points mLines = new GeometryBuffer(2 * 16, 16); float pos = -size * 4; // 8 vertical lines for (int i = 0; i < 8 * numLines; i++) { float x = pos + i * size / numLines; mLines.startLine(); mLines.addPoint(x, pos); mLines.addPoint(x, pos + size * 8); } // 8 horizontal lines for (int j = 0; j < 8 * numLines; j++) { float y = pos + j * size / numLines; mLines.startLine(); mLines.addPoint(pos, y); mLines.addPoint(pos + size * 8, y); } mText = textStyle; if (mText != null) { mTextLayer = layers.addTextLayer(new TextLayer()); } else { mTextLayer = null; } mLineLayer = layers.addLineLayer(0, lineStyle); mLineLayer.addLine(mLines); mStringBuffer = new StringBuffer(32); }
private boolean clipRing( int indexPos, int pointPos, GeometryBuffer in, GeometryBuffer out, int edge) { int len = in.index[indexPos]; if (len < 6) return false; len += pointPos; float px = in.points[len - 2]; float py = in.points[len - 1]; for (int i = pointPos; i < len; ) { float cx = in.points[i++]; float cy = in.points[i++]; switch (edge) { case LineClipper.LEFT: if (cx > minX) { // current is inside if (px > minX) { // previous was inside out.addPoint(cx, cy); } else { // previous was outside, add edge point out.addPoint(minX, py + (cy - py) * (minX - px) / (cx - px)); out.addPoint(cx, cy); } } else { if (px > minX) { // previous was inside, add edge point out.addPoint(minX, py + (cy - py) * (minX - px) / (cx - px)); } } break; case LineClipper.RIGHT: if (cx < maxX) { if (px < maxX) { out.addPoint(cx, cy); } else { out.addPoint(maxX, py + (cy - py) * (maxX - px) / (cx - px)); out.addPoint(cx, cy); } } else { if (px < maxX) { out.addPoint(maxX, py + (cy - py) * (maxX - px) / (cx - px)); } } break; case LineClipper.BOTTOM: if (cy > minY) { if (py > minY) { out.addPoint(cx, cy); } else { out.addPoint(px + (cx - px) * (minY - py) / (cy - py), minY); out.addPoint(cx, cy); } } else { if (py > minY) { out.addPoint(px + (cx - px) * (minY - py) / (cy - py), minY); } } break; case LineClipper.TOP: if (cy < maxY) { if (py < maxY) { out.addPoint(cx, cy); } else { out.addPoint(px + (cx - px) * (maxY - py) / (cy - py), maxY); out.addPoint(cx, cy); } } else { if (py < maxY) { out.addPoint(px + (cx - px) * (maxY - py) / (cy - py), maxY); } } break; } px = cx; py = cy; } return true; }
private int clipLine(GeometryBuffer in, GeometryBuffer out) { int pointPos = 0; int numLines = 0; for (int i = 0, n = in.index.length; i < n; i++) { int len = in.index[i]; if (len < 0) break; if (len < 4) { pointPos += len; continue; } if (len == 0) { continue; } int inPos = pointPos; int end = inPos + len; float prevX = in.points[inPos + 0]; float prevY = in.points[inPos + 1]; boolean inside = mLineClipper.clipStart(prevX, prevY); if (inside) { out.startLine(); out.addPoint(prevX, prevY); numLines++; } for (inPos += 2; inPos < end; inPos += 2) { // get the current way point coordinates float curX = in.points[inPos]; float curY = in.points[inPos + 1]; int clip; if ((clip = mLineClipper.clipNext(curX, curY)) != 0) { // System.out.println(inside + " clip: " + clip + " " // + Arrays.toString(mLineClipper.out)); if (clip < 0) { if (inside) { // previous was inside out.addPoint(mLineClipper.out[2], mLineClipper.out[3]); inside = false; } else { // previous was outside out.startLine(); numLines++; out.addPoint(mLineClipper.out[0], mLineClipper.out[1]); out.addPoint(mLineClipper.out[2], mLineClipper.out[3]); inside = mLineClipper.clipStart(curX, curY); } } else { out.addPoint(curX, curY); } } else { inside = false; } } pointPos += len; } return numLines; }