Kenji Arai
/
CW_Decoder_using_FFT_on_DiscoF746NG
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Dependencies: BSP_DISCO_F746NG F746_GUI F746_SAI_IO LCD_DISCO_F746NG TS_DISCO_F746NG UIT_FFT_Real mbed
MySpectrogram/MethodCollection.hpp@0:e608fc311e4e, 2017-02-05 (annotated)
- Committer:
- kenjiArai
- Date:
- Sun Feb 05 07:49:54 2017 +0000
- Revision:
- 0:e608fc311e4e
CW Decoder (Morse code decoder) 1st release version. mbed = 131 revision (Not latest) is used. Only run on DISCO-F746NG mbed board.
Who changed what in which revision?
| User | Revision | Line number | New contents of line |
|---|---|---|---|
| kenjiArai | 0:e608fc311e4e | 1 | //-------------------------------------------------------------- |
| kenjiArai | 0:e608fc311e4e | 2 | // スペクトログラムで使う大域関数 |
| kenjiArai | 0:e608fc311e4e | 3 | // |
| kenjiArai | 0:e608fc311e4e | 4 | // 2016/08/11, Copyright (c) 2016 MIKAMI, Naoki |
| kenjiArai | 0:e608fc311e4e | 5 | //-------------------------------------------------------------- |
| kenjiArai | 0:e608fc311e4e | 6 | |
| kenjiArai | 0:e608fc311e4e | 7 | #ifndef METHOD_COLLECTION_HPP |
| kenjiArai | 0:e608fc311e4e | 8 | #define METHOD_COLLECTION_HPP |
| kenjiArai | 0:e608fc311e4e | 9 | |
| kenjiArai | 0:e608fc311e4e | 10 | #include "mbed.h" |
| kenjiArai | 0:e608fc311e4e | 11 | #include "NumericLabel.hpp" |
| kenjiArai | 0:e608fc311e4e | 12 | #include "Matrix.hpp" |
| kenjiArai | 0:e608fc311e4e | 13 | #include "FFT_Analysis.hpp" |
| kenjiArai | 0:e608fc311e4e | 14 | |
| kenjiArai | 0:e608fc311e4e | 15 | namespace Mikami |
| kenjiArai | 0:e608fc311e4e | 16 | { |
| kenjiArai | 0:e608fc311e4e | 17 | // 色相の違いで表示 |
| kenjiArai | 0:e608fc311e4e | 18 | // 0.0 <= x <= 1.0 |
| kenjiArai | 0:e608fc311e4e | 19 | uint32_t HueScale(float x) |
| kenjiArai | 0:e608fc311e4e | 20 | { |
| kenjiArai | 0:e608fc311e4e | 21 | if (x >= 1) return LCD_COLOR_WHITE; |
| kenjiArai | 0:e608fc311e4e | 22 | int r = 0; |
| kenjiArai | 0:e608fc311e4e | 23 | int b = 0; |
| kenjiArai | 0:e608fc311e4e | 24 | |
| kenjiArai | 0:e608fc311e4e | 25 | if (x<0.5f) b = (x<0.33f) ? 255 : -(int)(1500.0f*x) + 750; |
| kenjiArai | 0:e608fc311e4e | 26 | else r = (0.67f<x) ? 255 : (int)(1500.0f*x) - 750; |
| kenjiArai | 0:e608fc311e4e | 27 | int g = 255 - (int)(1020.0f*(x - 0.5f)*(x - 0.5f)); |
| kenjiArai | 0:e608fc311e4e | 28 | |
| kenjiArai | 0:e608fc311e4e | 29 | return 0xFF000000 | (((r << 8) | g) << 8) | b; |
| kenjiArai | 0:e608fc311e4e | 30 | } |
| kenjiArai | 0:e608fc311e4e | 31 | |
| kenjiArai | 0:e608fc311e4e | 32 | // 座標軸 |
| kenjiArai | 0:e608fc311e4e | 33 | void DrawAxis(int x0, int y0, int w0, int h0, uint32_t axisColor, |
| kenjiArai | 0:e608fc311e4e | 34 | uint16_t ms100, uint16_t px1kHz, LCD_DISCO_F746NG *lcd) |
| kenjiArai | 0:e608fc311e4e | 35 | { |
| kenjiArai | 0:e608fc311e4e | 36 | const uint16_t TICK = 5; // 目盛線の長さ |
| kenjiArai | 0:e608fc311e4e | 37 | // 横標軸 |
| kenjiArai | 0:e608fc311e4e | 38 | lcd->SetTextColor(axisColor); |
| kenjiArai | 0:e608fc311e4e | 39 | lcd->DrawHLine(x0, y0+TICK, w0); |
| kenjiArai | 0:e608fc311e4e | 40 | for (int n=0; n<=w0/ms100; n++) |
| kenjiArai | 0:e608fc311e4e | 41 | if ((n % 10)== 0) lcd->DrawVLine(x0+n*ms100, y0, 5); |
| kenjiArai | 0:e608fc311e4e | 42 | else lcd->DrawVLine(x0+n*ms100, y0+3, 2); |
| kenjiArai | 0:e608fc311e4e | 43 | for (int n=0; n<=w0/ms100; n+=10) |
| kenjiArai | 0:e608fc311e4e | 44 | NumericLabel<int> num(x0+n*ms100, y0+TICK+3, |
| kenjiArai | 0:e608fc311e4e | 45 | "%1d", (int)(n*0.1f), Label::CENTER); |
| kenjiArai | 0:e608fc311e4e | 46 | Label time(x0+w0/2, y0+22, "TIME [s]", Label::CENTER); |
| kenjiArai | 0:e608fc311e4e | 47 | |
| kenjiArai | 0:e608fc311e4e | 48 | // 縦標軸 |
| kenjiArai | 0:e608fc311e4e | 49 | lcd->SetTextColor(axisColor); |
| kenjiArai | 0:e608fc311e4e | 50 | lcd->DrawVLine(x0-TICK, y0-h0, h0); |
| kenjiArai | 0:e608fc311e4e | 51 | for (int n=0; n<=h0/px1kHz; n++) |
| kenjiArai | 0:e608fc311e4e | 52 | lcd->DrawHLine(x0-TICK, y0-n*px1kHz, TICK); |
| kenjiArai | 0:e608fc311e4e | 53 | for (int n=0; n<=h0/px1kHz; n++) |
| kenjiArai | 0:e608fc311e4e | 54 | NumericLabel<int> num(x0-TICK-12, y0-n*px1kHz-5, "%1d", n); |
| kenjiArai | 0:e608fc311e4e | 55 | Label hz(x0-32, y0-5*px1kHz-20, "[kHz]"); |
| kenjiArai | 0:e608fc311e4e | 56 | } |
| kenjiArai | 0:e608fc311e4e | 57 | |
| kenjiArai | 0:e608fc311e4e | 58 | // 色と dB の関係の表示 |
| kenjiArai | 0:e608fc311e4e | 59 | void ColorDb(int y0, uint32_t axisColor, LCD_DISCO_F746NG *lcd) |
| kenjiArai | 0:e608fc311e4e | 60 | { |
| kenjiArai | 0:e608fc311e4e | 61 | lcd->SetTextColor(axisColor); |
| kenjiArai | 0:e608fc311e4e | 62 | lcd->DrawVLine(455, y0-100, 100); |
| kenjiArai | 0:e608fc311e4e | 63 | for (int n=0; n<=8; n++) |
| kenjiArai | 0:e608fc311e4e | 64 | lcd->DrawHLine(455, y0-(n*100)/8, 4); |
| kenjiArai | 0:e608fc311e4e | 65 | for (int n=0; n<=4; n++) |
| kenjiArai | 0:e608fc311e4e | 66 | NumericLabel<int> num(440, y0-(n*100)/4-5, "%2d", n*20); |
| kenjiArai | 0:e608fc311e4e | 67 | Label dB(432, y0-120, "[dB]"); |
| kenjiArai | 0:e608fc311e4e | 68 | |
| kenjiArai | 0:e608fc311e4e | 69 | for (int n=0; n<=100; n++) |
| kenjiArai | 0:e608fc311e4e | 70 | { |
| kenjiArai | 0:e608fc311e4e | 71 | lcd->SetTextColor(HueScale(n/100.0f)); |
| kenjiArai | 0:e608fc311e4e | 72 | lcd->DrawHLine(460, y0-n, 16); |
| kenjiArai | 0:e608fc311e4e | 73 | } |
| kenjiArai | 0:e608fc311e4e | 74 | } |
| kenjiArai | 0:e608fc311e4e | 75 | |
| kenjiArai | 0:e608fc311e4e | 76 | // スペクトルの更新 |
| kenjiArai | 0:e608fc311e4e | 77 | void SpectrumUpdate(Matrix<uint32_t> &x, FftAnalyzer &analyzer, |
| kenjiArai | 0:e608fc311e4e | 78 | const Array<float> &sn, const Array<float> &db) |
| kenjiArai | 0:e608fc311e4e | 79 | { |
| kenjiArai | 0:e608fc311e4e | 80 | // 過去のスペクトルを一つずらす |
| kenjiArai | 0:e608fc311e4e | 81 | for (int n=0; n<x.Rows()-1; n++) |
| kenjiArai | 0:e608fc311e4e | 82 | for (int k=0; k<x.Cols(); k++) |
| kenjiArai | 0:e608fc311e4e | 83 | x[n][k] = x[n+1][k]; |
| kenjiArai | 0:e608fc311e4e | 84 | |
| kenjiArai | 0:e608fc311e4e | 85 | // 新しいスペクトル |
| kenjiArai | 0:e608fc311e4e | 86 | analyzer.Execute(sn, db); |
| kenjiArai | 0:e608fc311e4e | 87 | const float FACTOR = 1.0f/80.0f; // 表示範囲: 0 ~ 80 dB |
| kenjiArai | 0:e608fc311e4e | 88 | for (int k=0; k<=x.Cols(); k++) |
| kenjiArai | 0:e608fc311e4e | 89 | x[x.Rows()-1][k] = HueScale(FACTOR*((db[k] > 20) ? db[k]-20 : 0)); |
| kenjiArai | 0:e608fc311e4e | 90 | } |
| kenjiArai | 0:e608fc311e4e | 91 | |
| kenjiArai | 0:e608fc311e4e | 92 | // スペクトルの表示 |
| kenjiArai | 0:e608fc311e4e | 93 | void DisplaySpectrum(const Matrix<uint32_t> &x, int x0, int y0, |
| kenjiArai | 0:e608fc311e4e | 94 | int hBar, LCD_DISCO_F746NG *lcd) |
| kenjiArai | 0:e608fc311e4e | 95 | { |
| kenjiArai | 0:e608fc311e4e | 96 | for (int n=0; n<x.Rows(); n++) |
| kenjiArai | 0:e608fc311e4e | 97 | for (int k=0; k<x.Cols(); k++) |
| kenjiArai | 0:e608fc311e4e | 98 | { |
| kenjiArai | 0:e608fc311e4e | 99 | lcd->SetTextColor(x[n][k]); |
| kenjiArai | 0:e608fc311e4e | 100 | lcd->DrawHLine(x0+n*hBar, y0-k, hBar); |
| kenjiArai | 0:e608fc311e4e | 101 | } |
| kenjiArai | 0:e608fc311e4e | 102 | } |
| kenjiArai | 0:e608fc311e4e | 103 | } |
| kenjiArai | 0:e608fc311e4e | 104 | #endif // METHOD_COLLECTION_HPP |