p kj
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LPC824-BlynkWeatherstation
Microduino
Fork of Io_moon by
Blynk_v0_3_7/Blynk/utility/BlynkFifo2.h
- Committer:
- lixianyu
- Date:
- 2016-06-23
- Revision:
- 0:740c1eb2df13
File content as of revision 0:740c1eb2df13:
/** * @file BlynkFifo.h * @author Volodymyr Shymanskyy * @license This project is released under the MIT License (MIT) * @copyright Copyright (c) 2015 Volodymyr Shymanskyy * @date Feb 2015 * @brief FIFO implementation * */ #ifndef BlynkFifo_h #define BlynkFifo_h #include <utility/BlynkUtility.h> template <class T, unsigned N> class BlynkFifo { public: BlynkFifo() { clear(); } void clear() { _r = 0; _w = 0; } ~BlynkFifo(void) {} // writing thread/context API //------------------------------------------------------------- bool writeable(void) { return free() > 0; } int free(void) { int s = _r - _w; if (s <= 0) s += N; return s - 1; } T put(const T& c) { int i = _w; int j = i; i = _inc(i); while (i == _r) // = !writeable() /* nothing / just wait */; _b[j] = c; _w = i; return c; } int put(const T* p, int n, bool t = false) { int c = n; while (c) { int f; while ((f = free()) == 0) // wait for space { if (!t) return n - c; // no more space and not blocking /* nothing / just wait */; } // check free space if (c < f) f = c; int w = _w; int m = N - w; // check wrap if (f > m) f = m; memcpy(&_b[w], p, f); _w = _inc(w, f); c -= f; p += f; } return n - c; } // reading thread/context API // -------------------------------------------------------- bool readable(void) { return (_r != _w); } size_t size(void) { int s = _w - _r; if (s < 0) s += N; return s; } T get(void) { int r = _r; while (r == _w) // = !readable() /* nothing / just wait */; T t = _b[r]; _r = _inc(r); return t; } int get(T* p, int n, bool t = false) { int c = n; while (c) { int f; for (;;) // wait for data { f = size(); if (f) break; // free space if (!t) return n - c; // no space and not blocking /* nothing / just wait */; } // check available data if (c < f) f = c; int r = _r; int m = N - r; // check wrap if (f > m) f = m; memcpy(p, &_b[r], f); _r = _inc(r, f); c -= f; p += f; } return n - c; } private: inline int _inc(int i, int n = 1) { return (i + n) % N; } T _b[N]; volatile int _w; volatile int _r; }; #endif