コード例 #1
0
        // Set brightnesses of flares based on the values from analysis.
        public override void UpdateVisuals()
        {
            // Build a logarithmic spectrum
            float[] scaledSpectrum = new float[NumberOfFlares];
            float   b    = Mathf.Pow(VisualizerCore.SpectrumSize, 1f / NumberOfFlares);
            float   bPow = 1;

            for (int i = 0; i < NumberOfFlares; i++)
            {
                float prevBPow = bPow;
                bPow *= b;
                for (int j = (int)prevBPow; j < bPow - 1; j++)
                {
                    scaledSpectrum[i] += VisualizerCore.Spectrum(j);
                }
            }

            // Set brightnesses of flares
            for (int i = 0; i < NumberOfFlares; i++)
            {
                // Smooth falling and sharp rising.
                float thisY = scaledSpectrum[i] * SizeModifier;
                _scales[i] -= SmoothSpeed * Time.deltaTime;
                _scales[i]  = Mathf.Clamp(_scales[i], thisY, MaxVisualScale);

                _visuals[i].GetComponent <LensFlare>().brightness = _scales[i];
            }
        }
コード例 #2
0
        public override void UpdateVisuals()
        {
            float sumSpectrum = VisualizerCore.Level();

            // Build a logarithmic spectrum
            float[] scaledSpectrum = new float[FLAMES];
            float   b    = Mathf.Pow(VisualizerCore.SpectrumSize, 1f / FLAMES);
            float   bPow = 1;

            for (int i = 0; i < FLAMES; i++)
            {
                float prevBPow = bPow;
                bPow *= b;
                for (int j = (int)prevBPow; j < bPow - 1; j++)
                {
                    scaledSpectrum[i] += VisualizerCore.Spectrum(j);
                }
            }

            // Update
            for (int i = 0; i < FLAMES; i++)
            {
                float nextPower = 0.2f + scaledSpectrum[i] * 6 + sumSpectrum * 0.5f;
                _powers[i] = Mathf.Max(_powers[i] * (1 - 10 * Time.deltaTime), nextPower);
                _flames[i].SetFloat("Power", _powers[i]);
            }
        }
コード例 #3
0
        // Set scale of bars based on the values from analysis.
        public override void UpdateVisuals()
        {
            float[] spectrum = VisualizerCore.Spectrum();

            int spectrumIndex = 0;
            int averageSize   = (int)(spectrum.Length * KeepPercentage / AmountOfVisuals);

            for (int visualIndex = 0; visualIndex < AmountOfVisuals; visualIndex++)
            {
                float sum = 0;
                for (int j = 0; j < averageSize; j++)
                {
                    sum += spectrum[spectrumIndex];
                    spectrumIndex++;
                }

                float audioScale = sum / averageSize * SizeModifier;
                float fallScale  = Mathf.Clamp(_scales[visualIndex] - SmoothSpeed * Time.deltaTime, 0, MaxVisualScale);
                float finalScale = Mathf.Clamp(audioScale, fallScale, MaxVisualScale);

                _scales[visualIndex] = finalScale;

                _visuals[visualIndex].localScale = new Vector3(1 + finalScale, 1, 1);
            }
        }
コード例 #4
0
        public override void UpdateVisuals()
        {
            // Build a logarithmic spectrum
            float[] scaledSpectrum = new float[NumberOfChunks];
            float   b    = Mathf.Pow(VisualizerCore.SpectrumSize, 1f / NumberOfChunks);
            float   bPow = 1;

            for (int i = 0; i < NumberOfChunks; i++)
            {
                float prevBPow = bPow;
                bPow *= b;
                for (int j = (int)prevBPow; j < bPow - 1 && j < VisualizerCore.SpectrumSize; j++)
                {
                    scaledSpectrum[i] += Mathf.Abs(VisualizerCore.Spectrum(j));
                }
            }

            // Update texture
            Graphics.CopyTexture(_blank, _texture);
            float[] samples = VisualizerCore.Samples(FilterType.Bypass);
            for (int i = 0; i < SampleBarCount && i < samples.Length; i++)
            {
                // Height between 2 and 32
                float heightFrac = Mathf.Clamp01(Mathf.Abs(samples[i])) * SampleMultiplier;
                int   height     = (int)Mathf.Ceil(Mathf.Lerp(SampleBarMinHeight, SampleBarMaxHeight, heightFrac));
                // Draw the rect on the texture buffer
                _texture.SetPixels(
                    SampleBarDistance - height,
                    (SampleBarWidth + SampleBarSeparation) * i,
                    2 * height,
                    SampleBarWidth,
                    Enumerable.Repeat(Color.white, 2 * SampleBarWidth * height).ToArray()
                    );
            }

            // Draw the texture buffer to the texture (no mipmaps)
            _texture.Apply(false);

            // Rotate and jump
            for (int i = 0; i < NumberOfChunks; i++)
            {
                _disks[i].transform.Rotate(Vector3.forward * RotationAmount(i));
                float target = scaledSpectrum[i] * JumpPower;
                float height = Mathf.Clamp(
                    Mathf.Lerp(-_disks[i].transform.localPosition.z, target, FallRate),
                    target,
                    20
                    );
                _disks[i].transform.localPosition = Vector3.back * height;
            }

            _subParent.transform.localRotation =
                Quaternion.Euler(_subRot + new Vector3(5 * Mathf.Sin(Time.time), 5 * Mathf.Sin(Time.time * 1.234f), 0));
        }
コード例 #5
0
        // Set scale of bars based on the values from analysis.
        public override void UpdateVisuals()
        {
            int spectrumIndex = 0;
            int averageSize   =
                (int)(VisualizerCore.SpectrumSize * keepPercentage / (amountOfVisuals.x * amountOfVisuals.y));

            for (int visualIndex = 0; visualIndex < visuals.Length; visualIndex++)
            {
                float sum = 0;
                for (int j = 0; j < averageSize; j++)
                {
                    sum += VisualizerCore.Spectrum(spectrumIndex);
                    spectrumIndex++;
                }

                float scale = sum / averageSize * sizeModifier;
                scales[visualIndex] -= smoothSpeed * Time.deltaTime;
                scales[visualIndex]  = Mathf.Clamp(scale, minSize, maxVisualScale);
                colors[visualIndex].material.color = gradient.Evaluate(scale * 1.0f / maxVisualScale);
                visuals[visualIndex].localScale    = Vector3.one * scales[visualIndex];
            }
        }