|
123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139 |
- #ifndef __INC_FL_DELAY_H
- #define __INC_FL_DELAY_H
-
- #include "FastLED.h"
-
- ///@file fastled_delay.h
- ///Utility functions and classes for managing delaycycles
-
- FASTLED_NAMESPACE_BEGIN
-
- /// Class to ensure that a minimum amount of time has kicked since the last time run - and delay if not enough time has passed yet
- /// this should make sure that chipsets that have
- template<int WAIT> class CMinWait {
- uint16_t mLastMicros;
- public:
- CMinWait() { mLastMicros = 0; }
-
- void wait() {
- uint16_t diff;
- do {
- diff = (micros() & 0xFFFF) - mLastMicros;
- } while(diff < WAIT);
- }
-
- void mark() { mLastMicros = micros() & 0xFFFF; }
- };
-
-
- ////////////////////////////////////////////////////////////////////////////////////////////
- //
- // Clock cycle counted delay loop
- //
- ////////////////////////////////////////////////////////////////////////////////////////////
-
- // Default is now just 'nop', with special case for AVR
-
- // ESP32 core has it's own definition of NOP, so undef it first
- #ifdef ESP32
- #undef NOP
- #undef NOP2
- #endif
-
- #if defined(__AVR__)
- # define FL_NOP __asm__ __volatile__ ("cp r0,r0\n");
- # define FL_NOP2 __asm__ __volatile__ ("rjmp .+0");
- #else
- # define FL_NOP __asm__ __volatile__ ("nop\n");
- # define FL_NOP2 __asm__ __volatile__ ("nop\n\t nop\n");
- #endif
-
- // predeclaration to not upset the compiler
- template<int CYCLES> inline void delaycycles();
- template<int CYCLES> inline void delaycycles_min1() {
- delaycycles<1>();
- delaycycles<CYCLES-1>();
- }
-
-
- // TODO: ARM version of _delaycycles_
-
- // usable definition
- #if defined(FASTLED_AVR)
- // worker template - this will nop for LOOP * 3 + PAD cycles total
- template<int LOOP, int PAD> inline void _delaycycles_AVR() {
- delaycycles<PAD>();
- // the loop below is 3 cycles * LOOP. the LDI is one cycle,
- // the DEC is 1 cycle, the BRNE is 2 cycles if looping back and
- // 1 if not (the LDI balances out the BRNE being 1 cycle on exit)
- __asm__ __volatile__ (
- " LDI R16, %0\n"
- "L_%=: DEC R16\n"
- " BRNE L_%=\n"
- : /* no outputs */
- : "M" (LOOP)
- : "r16"
- );
- }
-
- template<int CYCLES> __attribute__((always_inline)) inline void delaycycles() {
- _delaycycles_AVR<CYCLES / 3, CYCLES % 3>();
- }
- #else
- // template<int LOOP, int PAD> inline void _delaycycles_ARM() {
- // delaycycles<PAD>();
- // // the loop below is 3 cycles * LOOP. the LDI is one cycle,
- // // the DEC is 1 cycle, the BRNE is 2 cycles if looping back and
- // // 1 if not (the LDI balances out the BRNE being 1 cycle on exit)
- // __asm__ __volatile__ (
- // " mov.w r9, %0\n"
- // "L_%=: subs.w r9, r9, #1\n"
- // " bne.n L_%=\n"
- // : /* no outputs */
- // : "M" (LOOP)
- // : "r9"
- // );
- // }
-
-
- template<int CYCLES> __attribute__((always_inline)) inline void delaycycles() {
- // _delaycycles_ARM<CYCLES / 3, CYCLES % 3>();
- FL_NOP; delaycycles<CYCLES-1>();
- }
- #endif
-
- // pre-instantiations for values small enough to not need the loop, as well as sanity holders
- // for some negative values.
- template<> __attribute__((always_inline)) inline void delaycycles<-10>() {}
- template<> __attribute__((always_inline)) inline void delaycycles<-9>() {}
- template<> __attribute__((always_inline)) inline void delaycycles<-8>() {}
- template<> __attribute__((always_inline)) inline void delaycycles<-7>() {}
- template<> __attribute__((always_inline)) inline void delaycycles<-6>() {}
- template<> __attribute__((always_inline)) inline void delaycycles<-5>() {}
- template<> __attribute__((always_inline)) inline void delaycycles<-4>() {}
- template<> __attribute__((always_inline)) inline void delaycycles<-3>() {}
- template<> __attribute__((always_inline)) inline void delaycycles<-2>() {}
- template<> __attribute__((always_inline)) inline void delaycycles<-1>() {}
- template<> __attribute__((always_inline)) inline void delaycycles<0>() {}
- template<> __attribute__((always_inline)) inline void delaycycles<1>() {FL_NOP;}
- template<> __attribute__((always_inline)) inline void delaycycles<2>() {FL_NOP2;}
- template<> __attribute__((always_inline)) inline void delaycycles<3>() {FL_NOP;FL_NOP2;}
- template<> __attribute__((always_inline)) inline void delaycycles<4>() {FL_NOP2;FL_NOP2;}
- template<> __attribute__((always_inline)) inline void delaycycles<5>() {FL_NOP2;FL_NOP2;FL_NOP;}
-
- // Some timing related macros/definitions
-
- // Macro to convert from nano-seconds to clocks and clocks to nano-seconds
- // #define NS(_NS) (_NS / (1000 / (F_CPU / 1000000L)))
- #define F_CPU_MHZ (F_CPU / 1000000L)
-
- // #define NS(_NS) ( (_NS * (F_CPU / 1000000L))) / 1000
- #define NS(_NS) (((_NS * F_CPU_MHZ) + 999) / 1000)
- #define CLKS_TO_MICROS(_CLKS) ((long)(_CLKS)) / (F_CPU / 1000000L)
-
- // Macro for making sure there's enough time available
- #define NO_TIME(A, B, C) (NS(A) < 3 || NS(B) < 3 || NS(C) < 6)
-
- FASTLED_NAMESPACE_END
-
- #endif
|