示例#1
0
 void setMark(const LString &mark) {
   m_bReady = true;
   m_mark = mark;
   m_nCbufLen = m_mark.length();
   m_cbuf.set_capacity(m_nCbufLen);
   m_nMatch = 0;
 }
示例#2
0
void ShowFrameDurationPlot() {
	
	Vec2i windowSize = mainApp->getWindow()->getSize();
	size_t maxSamples = size_t(windowSize.x);
	
	if(maxSamples != frameDurationPlotValues.capacity()) {
		frameDurationPlotValues.set_capacity(maxSamples);
	}
	if(maxSamples != frameDurationPlotVertices.size()) {
		frameDurationPlotVertices.resize(maxSamples);
	}
	
	GRenderer->ResetTexture(0);
	
	frameDurationPlotValues.push_front(toMs(g_platformTime.lastFrameDuration()));
	
	float avg = std::accumulate(frameDurationPlotValues.begin(), frameDurationPlotValues.end(), 0.f) / frameDurationPlotValues.size();
	float worst = *std::max_element(frameDurationPlotValues.begin(), frameDurationPlotValues.end());
	
	const float OFFSET_Y = 80.f;
	const float SCALE_Y = 4.0f;

	for(size_t i = 0; i < frameDurationPlotValues.size(); ++i)
	{
		float time = frameDurationPlotValues[i];
		frameDurationPlotVertices[i].color = Color::white.toRGB();
		frameDurationPlotVertices[i].p.x = i;
		frameDurationPlotVertices[i].p.y = OFFSET_Y + (time * SCALE_Y);
		frameDurationPlotVertices[i].p.z = 1.0f;
		frameDurationPlotVertices[i].w = 1.0f;
	}

	EERIEDRAWPRIM(Renderer::LineStrip, &frameDurationPlotVertices[0], frameDurationPlotValues.size());

	Color avgColor = Color::blue * 0.5f + Color::white * 0.5f;
	float avgPos = OFFSET_Y + (avg * SCALE_Y);
	drawLine(Vec2f(0, avgPos), Vec2f(windowSize.x, avgPos), 1.0f, Color::blue);

	Color worstColor = Color::red * 0.5f + Color::white * 0.5f;
	float worstPos = OFFSET_Y + (worst * SCALE_Y);
	drawLine(Vec2f(0, worstPos), Vec2f(windowSize.x, worstPos), 1.0f, Color::red);

	Font * font = hFontDebug;
	float lineOffset = font->getLineHeight() + 2;

	std::string labels[3] = { "Average: ", "Worst: ", "Current: " };
	Color colors[3] = { avgColor, worstColor, Color::white };
	float values[3] = { avg, worst, frameDurationPlotValues[0] };

	std::string texts[3];
	float widths[3];
	static float labelWidth = 0.f;
	static float valueWidth = 0.f;
	for(size_t i = 0; i < 3; i++) {
		// Format value
		std::ostringstream oss;
		oss << std::fixed << std::setprecision(2) << values[i] << " ms ("<< 1.f / (values[i] * 0.001f) << " FPS)";
		texts[i] = oss.str();
		// Calculate widths (could be done more efficiently for monospace fonts...)
		labelWidth = std::max(labelWidth, float(font->getTextSize(labels[i]).width()));
		widths[i] = font->getTextSize(texts[i]).width();
		valueWidth = std::max(valueWidth, widths[i]);
	}

	float x = 10;
	float y = 10;
	float xend = x + labelWidth + 10 + valueWidth;
	for(size_t i = 0; i < 3; i++) {
		font->draw(Vec2i(x, y), labels[i], Color::gray(0.8f));
		font->draw(Vec2i(xend - widths[i], y), texts[i], colors[i]);
		y += lineOffset;
	}

}