CHANGELOG.md

Changelog

• Unreleased
• 1.5.1 (2022-09-20)
  • Add Adafruit nRF52 boards to "Tier 2" after validation by community member.
  • Upgrade tool chain
    • Arduino CLI from 0.19.2 to 0.27.1
    • Arduino AVR Core from 1.8.4 to 1.8.5
    • STM32duino from 2.2.0 to 2.3.0
    • ESP32 Core from 2.0.2 to 2.0.5
    • Teensyduino from 1.56 to 1.57
• 1.5.0 (2022-03-19)
  • (Re)add support for human-readable coroutine names.
    • See Coroutine Names in the USER_GUIDE.md.
    • Adds the following methods to the Coroutine class: setName(), setName(), getCName(), getFName(), getNameType(), and printNameTo().
    • Resource consumption
      • Increases flash usage by 6-10 bytes per coroutine.
      • Increases static ram usage by 3 bytes (AVR) or 4 bytes (32-bit) per coroutine, plus the additional storage for the string itself.
  • Support profiling of Coroutine::runCoroutine() execution time.
    • See Coroutine Profiling in the USER_GUIDE.md.
    • API changes
      • Add CoroutineProfiler interface with a updateElapsedMicros() method.
      • Add Coroutine::setProfiler() to store the profiler pointer.
      • Add Coroutine::runCoroutineWithProfiler() which measures the elapsed time of runCoroutine() and calls CoroutineProfiler::updateElapsedMicros().
      • Add CoroutineScheduler::runCoroutineWithProfiler() which calls Coroutine::runCoroutineWithProfiler() instead of the normal Coroutine::runCoroutine().
      • Add CoroutineScheduler::loopWithProfiler() public static method which calls runCoroutineWithProfiler().
    • Provide LogBinProfiler subclass of CoroutineProfiler.
      • Keeps a frequency count of the elapsed microseconds using 32 bins representing the log2() function of the elapsed microseconds.
    • Provide 2 renderers of LogBinProfiler:
      • LogBinTableRenderer::printTo() prints a formatted table of the frequency count over all coroutines. This represents a poor-man's version of the log-log graph of the frequency count.
      • LogBinJsonRenderer::printTo() prints the frequency count in JSON format.
    • See HelloCoroutineWithProfiler and HelloSchedulerWithProfiler.
    • Thanks to peufeu2@ who provided the ideas and proof of concept in Discussion#50.
  • Coroutine consumes more static RAM
    • due to extra pointers to support setName() and setProfiler()
    • 8-bits: increases from 11 bytes to 16 bytes per coroutine
    • 32-bits: increases from 20 bytes to 28 bytes per coroutine
  • Move Coroutine::sStatusStrings to PROGMEM
    • Saves 12 bytes of static RAM on AVR and 24 bytes on ESP8266, if CoroutineScheduler::list() is used.
• 1.4.2 (2022-02-04)
  • Remove dependency to AceCommon library in libraries.properties.
    • AceRoutine core no longer depends on AceCommon.
    • A few programs in tests/ and examples/ still depend it though, but those are used mainly by the developers, not end-users.
  • Clean up and update examples/ChannelBenchmark and its README.md.
    • Use generate_readme.py and generate_table.awk scripts, just like examples/AutoBenchmark.
• 1.4.1 (2022-02-02)
  • Update examples/SoundManager to demonstrate coroutines defined in separate files (see Discussion#40).
  • Update various unit tests to conform to EpoxyDuino v1.2.0 which reverts Print::println() to print \r\n instead of just \n.
  • Remove SAMD21 boards into new "Tier 3: May work but unsupported" tier because the SAMD21 tool chain no longer works for me, and Arduino SAMD21 boards use the ArduinoCore-api which is incompatible.
  • Upgrade tool chain
    • Arduino IDE from 1.8.13 to 1.8.19
    • Arduino CLI from 0.14.0 to 0.19.2
    • Arduino AVR Core from 1.8.3 to 1.8.4
    • STM32duino from 2.0.0 to 2.2.0
    • ESP8266 Core from 2.7.4 to 3.0.2
    • ESP32 Core from 1.0.6 to 2.0.2
    • Teensyduino from 1.54 to 1.56
• 1.4.0 (2021-07-29)
  • Upgrade STM32duino Core from 1.9.0 to 2.0.0.
    • MemoryBenchmark: Flash usage increases by 2.3kB across the board, but static RAM goes down by 250 bytes. Very little change to AceRoutine code itself.
    • AutoBenchmark: No change.
  • Upgrade SparkFun SAMD Core from 1.8.1 to 1.8.3.
    • No change observed in MemoryBenchmark or AutoBenchmark.
  • Add virtual Coroutine::setupCoroutine() with a default empty implementation, and optional CoroutineScheduler::setupCoroutines() to automatically loop over all coroutines.
    • See Issue #36 for motivation.
    • If not used, Coroutine::setupCoroutine() increases flash consumption by 4 bytes, and static memory by 2 bytes per coroutine on AVR processors.
    • If used, Coroutine::setupCoroutine() can consume a significant amount of memory resources. On AVR, at least 50-60 bytes per coroutine. On 32-bit processors, about 30-40 bytes per coroutine.
• 1.3.1 (2021-06-02)
  • Bring back COROUTINE_DELAY_MICROS() and COROUTINE_DELAY_SECONDS() with an alternate implemenation that increases flash and static memory only if they are used.
    • The Coroutine itself knows whether it is delaying in units of milliseconds, microseconds, or seconds, based on its continuation point.
    • Make CoroutineScheduler::runCoroutine() always call into Coroutine::runCoroutine() when the Coroutine::mStatus is delaying, instead of preemptively trying to figure out if the delay has expired.
    • Coroutine no longer needs a runtime mDelayType descriminator.
    • The result is that the code to support COROUTINE_DELAY_MICROS() and COROUTINE_DELAY_SECONDS() is not pulled into the program if they are not used.
• 1.3.0 (2021-06-02)
  • Activate GitHub Discussions for the project.
  • Potentially Breaking: Change Coroutine destructor from virtual to non-virtual.
    • Saves 500-600 bytes on AVR processors, 350 bytes on SAMD21, and 50-150 bytes on other 32-bit processors.
    • Coroutines can now be created only statically, not dynamically on the heap.
  • Potentially Breaking: Lift Coroutine into CoroutineTemplate class. Lift CoroutineScheduler into CoroutineSchedulerTemplate class.
    • Define Coroutine to be CoroutineTemplate<ClockInterface>, almost fully backwards compatible with previous implementation.
    • Define CoroutineScheduler to be CoroutineSchedulerTemplate<Coroutine>, almost fully backwards compatible with previous implementation.
    • All macros (e.g. COROUTINE(), COROUTINE_DELAY(), COROUTINE_YIELD(), etc) should work as before.
    • Replace the 3 clock virtual methods on Coroutine (coroutineMicros(), coroutineMillis(), coroutineSeconds()) with a injectable ClockInterface template parameter.
    • Breaking: Convert Coroutine::coroutineMicros(), Coroutine::coroutineMillis(), and Coroutine::coroutineSeconds() into private static functions which delegate to ClockInterface::micros(), ClockInterface::millis(), and ClockInterface::sesconds().
    • Create TestableClockInterface for testing.
    • Create TestableCoroutine for testing.
    • Create TestableCoroutineScheduler for testing.
    • Only 0-40 bytes of flash memory reduction on AVR processors, to my surprise.
    • But 100-1500 bytes of flash memory reduction on various 32-bit processors.
  • Breaking: Remove COROUTINE_DELAY_SECONDS().
    • Saves ~200 bytes on AVR processors, about 40%.
    • Saves about 20-30 bytes on 32-bit processors.
    • The replacement is a for-loop around a COROUTINE_DELAY(), as shown in USER_GUIDE.md#Delay.
  • Breaking: Remove COROUTINE_DELAY_MICROS().
    • Saves about 15-20 bytes of flash and 1 byte of static memory per coroutine on AVR processors.
    • Saves about 80-100 bytes of flash on 32-bit processors, plus an additional 20-30 bytes of flash per coroutine on 32-bit processors.
    • The COROUTINE_DELAY_MICROS() was never reliable because it depended on other coroutines to release control of execution faster than the value of the delay microseconds. This is very difficult to guarantee in a cooperative multitasking environment.
    • Removing this simplifies the code a fair amount.
  • Breaking: Remove Coroutine::getName() and Coroutine::mName. The human-readable name of the coroutine is no longer retained, to reduce flash and static memory consumption.
    • Remove setupCoroutineOrderedByName(), since it is no longer possible to sort by name.
    • Since we don't need to capture the name of the coroutine, we can move setupCoroutine() functionality directly into Coroutine::Coroutine() constructor.
    • Deprecate setupCoroutine(const char*) and setupCoroutine(const __FlashStringHelper*) into no-ops. They are retained for backwards compatibility.
    • Print the coroutine pointer address instead of its name in CoroutineScheduler::list(), since the name is no longer retained.
    • Saves 10-30 bytes of flash and 3 bytes of static memory per coroutine instance on AVR.
    • Saves 10-40 bytes of flash and 8 bytes of static memory per coroutine instance on 32-bit processors.
  • Blacklist platforms using the https://github.com/arduino/ArduinoCore-api to give a user-friendly message instead of pages and pages of compiler errors.
  • Update Direct Scheduling or CoroutineScheduler section to recommend direct calls to Coroutine::runCoroutine() on 8-bit processors, and limit the CoroutineScheduler to 32-bit processors with sufficient flash memory.
  • Add preliminary support for ATtiny85.
• 1.2.4 (2021-01-22)
  • Update UnixHostDuino 0.4 to EpoxyDuino 0.5.
  • No functional change in this release.
• 1.2.3 (2021-01-19)
  • Add official support for STM32 by validating on a Blue Pill board.
  • Add scripts to AutoBenchmark to automate data collection.
  • Update MemoryBenchmark and AutoBenchmark tables with STM32; re-add Teensy 3.2 benchmarks now that I'm able to upload again.
  • No functional change in this release.
• 1.2.2 (2020-12-20)
  • Add generic definition of FPSTR() macro for unrecognized platforms. Allows code with ARDUINO_ARCH_STM32 dependencies to compile. I will support it officially after I get hardware to perform actual validation.
  • Clean up MemoryBenchmark scripts for consistency with other Ace* libraries.
  • No functional change in this release.
• 1.2.1 (2020-11-12)
  • Add DEVELOPER.md notes to myself.
  • Add python script to generate the README.md in examples/MemoryBenchmarks to automatically regenerate the embedded ascii tables. Regenerate README.md for v1.2.
  • No functional change in this release.
• 1.2 (2020-11-10)
  • Fix an infinite loop in the internal singly-linked list of coroutines when resume() is called immediately after suspend(), without waiting for CoroutineScheduler::loop() to actually remove the coroutine from the list. The fix no longer removes suspended coroutine from the linked list, simplifying the code considerably. Fixes Issue #19.
  • Fix incorrect status set by Coroutine::reset() which prevented it from actually working. Fixes Issue #20.
  • Potentially Breaking: The internal linked list of coroutines is now considered to be a private implementation detail that may change in the future. The ordering of the list of coroutines is now undefined. The Coroutine::getRoot() and Coroutine::getNext() public methods are now private. The new setupCoroutineOrderedByName() methods replicate the old behavior, but these are exposed only for testing purposes.
  • Fix documentation bug in README.md to say that suspend() and resume() should not be called within the coroutine itself. They can only be called from outside the coroutine. They are no-ops inside a coroutine.
  • Extract lengthy Usage section of README.md into USER_GUIDE.md. Add table of contents to help navigate the long document. Rewrite and update content to be more useful and more clear hopefully.
• 1.1 (2020-11-01)
  • Add a Coroutine::reset() method that causes the Coroutine to restart from the beginning of the coroutine upon the next iteration. (Fixes #13 and #14).
  • Potentially Breaking: AceRoutine now depends on the AceCommon (https://github.com/bxparks/AceCommon) library to avoid maintaining multiple versions of low-level common code. The externally exposed API has not changed. The AceCommon library can be installed through the Arduino IDE Library Manager, as explained in Installation section of the README.md.
  • Potentially Breaking: Move the CommandLineInterface package from src/ace_routine/cli to the AceUtils library (https://github.com/bxparks/AceUtils). The AceUtils library is a better home for this higher-level package that depends on AceRoutine.
• 1.0.1 (2020-09-18)
  • Add continuous integration using GitHub Actions.
  • Add more documentation and examples of Manual Coroutines in README.md. Manual Coroutines are often more useful than Custom Coroutines, which I have found useful only for unit testing.
    • HelloManualCoroutine
    • BlinkSlowFastManualRoutine
  • Simplify the HelloCoroutine and HelloScheduler examples.
• 1.0 (2019-09-04)
  • Support UnixHostDuino in all sketches under examples/.
  • Rename Flash.h to compat.h. Reenable F() strings for ESP8266.
  • Fix various programs in examples/ to work using clang++ (using UnixHostDuio) which automatically fixes them on MacOS.
  • Graduate out of beta to v1.0.
• 0.3 (2019-08-26)
  • Update AutoBenchmark/README.md benchmark numbers.
  • Use a do-while loop COROUTINE_AWAIT() so that it is guaranteed to call COROUTINE_YIELD() at least once. Previously, if the condition of the await was already (or always) true, the while-loop caused the coroutine to hog the control flow without yielding.
  • Use a do-while loop in COROUTINE_DELAY() so that COROUTINE_YIELD() is guaranteed to be called at least once, even if the delay is 0.
  • Add COROUTINE_DELAY_MICROS(delayMicros) which is similar to the existing COROUTINE_DELAY(delayMillis) macro. The actual delay time may be inaccurate on slow processors (e.g. 16 MHz AVR processors) and become more accurate for faster processors (e.g. ESP32). (#9)
  • Breaking: The COROUTINE_DELAY_SECONDS(delaySeconds) macro now takes only one parmeter instead of 2 parameters. An external loopCounter variable no longer needs to be provided by the caller, which simplifies the API.
  • Add examples/Delay/Delay.ino program to validate the various COROUTINE_DELAY*() macros.
  • The sizeof(Coroutine) increases from 14 bytes to 15 bytes on an 8-bit processor. No change on 32-bit (still 28 bytes).
• 0.2.2 (2019-07-31)
  • Add SHIFT_ARGC_ARGV() macro for easy token shifting, and isArgEqual() method for easy comparison against flash string in the CLI library.
  • Verify library on SAMD21 (e.g. Arduino Zero) and ATmega2560 boards.
  • Update unit test Makefiles to use UnixHostDuino.
  • Fix clang++ error in cli library due to local c variable inside a COROUTINE_LOOP macro.
• 0.2.1 (2019-07-01)
  • Fix various typos in README.md.
  • Fix broken compile of ESP32 and ESP8266 boards by fixing fqbn.
  • Add missing pinMode() in some examples.
  • Add ACE_ROUTINE_VERSION_STRING for easier display for version number.
• 0.2 (2018-10-02)
  • Add COROUTINE_DELAY_SECONDS() to support delays longer than 32767 millis.
  • Update auniter.ini and Jenkinsfile for compatibility with AUniter v1.7.
  • Coroutine Status
    • Remove kStatusAwaiting state used by COROUTINE_AWAIT() which wasn't being used for anything, collapse into existing kStatusYielding.
    • Print human-readable strings of the Coroutine status from CoroutineScheduler::list().
  • Channels
    • Add a synchronized unbuffered Channel, similar to Go Lang channels.
    • Add COROUTINE_CHANNEL_READ() and COROUTINE_CHANNEL_WRITE() convenience macros.
    • Write ChannelBenchmark to determine the CPU overhead of using channels.
  • CLI library
    • Update cli library to use channels to read from serial port asynchronously.
    • Convert CommandHandler from a pointer to function to a full class to allow dependency injection and better code reuse.
  • Manual and custom Coroutines
    • Rename Coroutine::run() to Coroutine::runCoroutine() for clarity.
    • Rename Coroutine::init() to Coroutine::setupCoroutine() to make it easier to use mix-in classes.
• 0.1 (2018-08-07)
  • Beta release.
• (2018-07-24)
  • Remove runRoutine() indirection. Decided that it did not provide enough benefits and felt like over-engineering.
  • Use Stream and Print abstract classes instead of using Serial object directly.
  • Create 2 subclasses of CommandDispatcher to support c-strings or flash strings.
• (2018-07-19)
  • Add examples/CommandLineInterface sketch which provides a non-blocking command line interface using coroutines.
  • Add non-blocking SerialReader and CommandDispatcher.
  • Use runRoutine() method for the body of the coroutines instead of run().
  • Limit maximum value of COROUTINE_DELAY() to 32767 millis to give more breathing room to other coroutines.
  • Add support for AUniter and Jenkins continuous integration.
• (2018-06-23)
  • After allowing Coroutine::run() to be called directly, bypassing CoroutineScheduler, these things do actually look like coroutines, so changed names back to "Coroutine" and "COROUTINE*()" macros.
• (2018-05-11)
  • Changed names of everything from "Coroutine" to just "Routine" because this is not really a coroutine.
  • Add ROUTINE_AWAIT() macro.
  • Clean up nullptr handling of getName().
  • Change RoutineScheduler::list() to take a Print pointer as parameter, and remove define guards. If it's not used, the linker will strip it out.
  • Add RoutineScheduler::setup(), changed ::run() to ::loop().
• (2018-05-10)
  • Simplified and stabilized the API.
  • Created README.md.
• (2018-05-08)
  • Start of project.