diff options
Diffstat (limited to 'wirish/HardwareTimer.h')
-rw-r--r-- | wirish/HardwareTimer.h | 432 |
1 files changed, 174 insertions, 258 deletions
diff --git a/wirish/HardwareTimer.h b/wirish/HardwareTimer.h index 4034b1f..fd8ca9a 100644 --- a/wirish/HardwareTimer.h +++ b/wirish/HardwareTimer.h @@ -23,66 +23,45 @@ *****************************************************************************/ /** - * @brief wirish timer class to manage the four 16-bit timer peripherals + * @brief Wirish timer class. */ #ifndef _HARDWARETIMER_H_ #define _HARDWARETIMER_H_ -#include "timers.h" +// TODO [0.1.0] Remove deprecated pieces, pick a better API + +#include "timer.h" + +/** Timer mode. */ +typedef timer_mode TimerMode; + +/** @brief Deprecated; use TIMER_OUTPUT_COMPARE instead. */ +#define TIMER_OUTPUTCOMPARE TIMER_OUTPUT_COMPARE /** - * Interface to one of the 16-bit timer peripherals. - * - * User code should not instantiate this class directly; instead, use - * one of the predefined Timer<n> instances (Timer1, Timer2, etc.). - * - * HardwareTimer instances can be configured to generate periodic or - * delayed events with minimal work done by the microcontroller. Each - * timer maintains a single 16-bit count that can be configured with a - * prescaler and overflow value. - * - * By default, a timer's counter is incremented once per clock cycle. - * The prescaler acts as a divider of the 72MHz Maple system clock; - * without prescaling, the timer's count would reach 65535 (2**16-1) - * and roll over over 1000 times per second. - * - * The overflow value is the maximum value the counter will reach. It - * defaults to 65535; smaller values will cause the counter to reset - * more frequently. + * @brief Interface to one of the 16-bit timer peripherals. */ class HardwareTimer { - private: - timer_dev_num timerNum; - - public: - HardwareTimer(timer_dev_num timer_num); +private: + timer_dev *dev; +public: /** - * Return this timer's device number. For example, - * Timer1.getTimerNum() == TIMER1 + * @brief Construct a new HardwareTimer instance. + * @param timerNum number of the timer to control. */ - timer_dev_num getTimerNum() { return timerNum; } + HardwareTimer(uint8 timerNum); /** - * Stop the counter, without affecting its configuration. - * - * The timer will no longer count or fire interrupts after this - * function is called, until it is resumed. This function is - * useful during timer setup periods, in order to prevent - * interrupts from firing before the timer is fully configured. - * - * Note that there is some function call overhead associated with - * this method, so using it in concert with - * HardwareTimer::resume() is not a robust way to align multiple - * timers to the same count value. + * @brief Stop the counter, without affecting its configuration. * * @see HardwareTimer::resume() */ void pause(void); /** - * Resume a paused timer, without affecting its configuration. + * @brief Resume a paused timer, without affecting its configuration. * * The timer will resume counting and firing interrupts as * appropriate. @@ -97,66 +76,51 @@ class HardwareTimer { void resume(void); /** - * Returns the timer's prescale factor. + * @brief Get the timer's prescale factor. + * @return Timer prescaler, from 1 to 65,536. * @see HardwareTimer::setPrescaleFactor() */ - uint16 getPrescaleFactor(); + uint32 getPrescaleFactor(); /** - * Set the timer's prescale factor. + * @brief Set the timer's prescale factor. * - * The prescaler acts as a clock divider to slow down the rate at - * which the counter increments. + * The new value won't take effect until the next time the counter + * overflows. You can force the counter to reset using + * HardwareTimer::refresh(). * - * For example, the system clock rate is 72MHz, so the counter - * will reach 65535 in (13.89 nanoseconds) * (65535 counts) = - * (910.22 microseconds), or about a thousand times a second. If - * the prescaler equals 1098, then the clock rate is effectively - * 65.56KHz, and the counter will reach 65536 in (15.25 - * microseconds) * (65536 counts) = (0.999 seconds), or about once - * per second. - * - * The HardwareTimer::setPeriod() method may also be used as a - * convenient alternative. - * - * @param factor The new prescale value to set. - * @see HardwareTimer::setPeriod() + * @param factor The new prescale value to set, from 1 to 65,536. + * @see HardwareTimer::refresh() */ - void setPrescaleFactor(uint16 factor); + void setPrescaleFactor(uint32 factor); /** - * Gets the timer overflow value. + * @brief Get the timer overflow value. * @see HardwareTimer::setOverflow() */ uint16 getOverflow(); /** - * Sets the timer overflow (or "reload") value. + * @brief Set the timer overflow (or "reload") value. * - * When the timer's counter reaches this, value it resets to - * zero. Its default value is 65535 (the largest unsigned 16-bit - * integer); setting the overflow to anything lower will cause - * interrupts to be called more frequently (see the setPeriod() - * function below for a shortcut). This number sets the maximum - * value for the channel compare values. + * The new value won't take effect until the next time the counter + * overflows. You can force the counter to reset using + * HardwareTimer::refresh(). * * @param val The new overflow value to set + * @see HardwareTimer::refresh() */ void setOverflow(uint16 val); /** - * Retrieve the current timer count. + * @brief Get the current timer count. * * @return The timer's current count value */ uint16 getCount(void); /** - * Set the current timer count. - * - * Note that there is some function call overhead associated with - * calling this method, so using it is not a robust way to get - * multiple timers to share a count value. + * @brief Set the current timer count. * * @param val The new count value to set. If this value exceeds * the timer's overflow value, it is truncated to the @@ -165,143 +129,50 @@ class HardwareTimer { void setCount(uint16 val); /** - * Configure the prescaler and overflow values to generate a timer + * @brief Set the timer's period in microseconds. + * + * Configures the prescaler and overflow values to generate a timer * reload with a period as close to the given number of * microseconds as possible. * - * The return value is the overflow, which may be used to set - * channel compare values. However, if a clock that fires an - * interrupt every given number of microseconds is all that is - * desired, and the relative "phases" are unimportant, channel - * compare values may all be set to 1. - * - * @param microseconds the desired period of the timer. - * @return the overflow value (and thus, the largest value that can be - * set as a compare). + * @param microseconds The desired period of the timer. This must be + * greater than zero. + * @return The new overflow value. */ uint16 setPeriod(uint32 microseconds); /** - * Set the given channel of this timer to the given mode. - * + * @brief Configure a timer channel's mode. * @param channel Timer channel, from 1 to 4 * @param mode Mode to set */ - void setChannelMode(int channel, TimerMode mode); - - /** - * Set channel 1 of this timer to the given mode. - * - * Note: Timer1.setChannel1Mode(TIMER_PWM) may not work as - * expected; if you want PWM functionality on a channel make sure - * you don't set it to something else! - * - * @see TimerMode - */ - void setChannel1Mode(TimerMode mode); - - /** - * Set channel 2 of this timer to the given mode. - * @see TimerMode - */ - void setChannel2Mode(TimerMode mode); - - /** - * Set channel 3 of this timer to the given mode. - * @see TimerMode - */ - void setChannel3Mode(TimerMode mode); - - /** - * Set channel 4 of this timer to the given mode. - * @see TimerMode - */ - void setChannel4Mode(TimerMode mode); + void setMode(int channel, timer_mode mode); /** - * Gets the compare value for the given channel. + * @brief Get the compare value for the given channel. * @see HardwareTimer::setCompare() */ uint16 getCompare(int channel); - /** Equivalent to getCompare(1) */ - uint16 getCompare1(); - - /** Equivalent to getCompare(2) */ - uint16 getCompare2(); - - /** Equivalent to getCompare(3) */ - uint16 getCompare3(); - - /** Equivalent to getCompare(4) */ - uint16 getCompare4(); - /** - * Sets the compare value for the given channel. - * - * When the counter reaches this value the interrupt for this - * channel will fire if the channel mode is TIMER_OUTPUTCOMPARE - * and an interrupt is attached. - * - * By default, this only changes the relative offsets between - * events on a single timer ("phase"); they don't control the - * frequency with which they occur. However, a common trick is to - * increment the compare value manually in the interrupt handler - * so that the event will fire again after the increment - * period. There can be a different increment value for each - * channel, so this trick allows events to be programmed at 4 - * different rates on a single timer. Note that function call - * overheads mean that the smallest increment rate is at least a - * few microseconds. + * @brief Set the compare value for the given channel. * * @param channel the channel whose compare to set, from 1 to 4. * @param compare The compare value to set. If greater than this * timer's overflow value, it will be truncated to * the overflow value. * - * @see TimerMode - * @see HardwareTimer::setChannelMode() + * @see timer_mode + * @see HardwareTimer::setMode() * @see HardwareTimer::attachInterrupt() */ void setCompare(int channel, uint16 compare); /** - * Equivalent to setCompare(1, compare). - */ - void setCompare1(uint16 compare); - - /** - * Equivalent to setCompare(2, compare). - */ - void setCompare2(uint16 compare); - - /** - * Equivalent to setCompare(3, compare). - */ - void setCompare3(uint16 compare); - - /** - * Equivalent to setCompare(4, compare). - */ - void setCompare4(uint16 compare); - - /** - * Attach an interrupt handler to the given channel. This - * interrupt handler will be called when the timer's counter - * reaches the given channel compare value. - * - * The argument should be a function which takes no arguments and - * has no return value; i.e. it should have signature + * @brief Attach an interrupt handler to the given channel. * - * void (*handler)(void); - * - * Note: The function (often called an interrupt service routine, - * or ISR) should attempt to return as quickly as possible. - * Blinking the LED, some logic, PWM updates, and Serial writes - * are fine; writing to SerialUSB or waiting for user input can - * take a long time and other compare interrupts won't fire. Tip: - * if you have a delay() in your interrupt routine, you're probably - * doing it wrong. + * This interrupt handler will be called when the timer's counter + * reaches the given channel compare value. * * @param channel the channel to attach the ISR to, from 1 to 4. * @param handler The ISR to attach to the given channel. @@ -310,32 +181,10 @@ class HardwareTimer { void attachInterrupt(int channel, voidFuncPtr handler); /** - * Equivalent to attachCompareInterrupt(1, handler). - * @see HardwareTimer::attachCompareInterrupt() - */ - void attachCompare1Interrupt(voidFuncPtr handler); - - /** - * Equivalent to attachCompareInterrupt(2, handler). - * @see HardwareTimer::attachCompareInterrupt() - */ - void attachCompare2Interrupt(voidFuncPtr handler); - - /** - * Equivalent to attachCompareInterrupt(3, handler). - * @see HardwareTimer::attachCompareInterrupt() - */ - void attachCompare3Interrupt(voidFuncPtr handler); - - /** - * Equivalent to attachCompareInterrupt(4, handler). - * @see HardwareTimer::attachCompareInterrupt() - */ - void attachCompare4Interrupt(voidFuncPtr handler); - - /** - * Remove the interrupt handler attached to the given channel, if - * any. The handler will no longer be called by this timer. + * @brief Remove the interrupt handler attached to the given + * channel, if any. + * + * The handler will no longer be called by this timer. * * @param channel the channel whose interrupt to detach, from 1 to 4. * @see HardwareTimer::attachInterrupt() @@ -343,71 +192,138 @@ class HardwareTimer { void detachInterrupt(int channel); /** - * Equivalent to detachInterrupt(1). - * @see HardwareTimer::detachInterrupt() + * @brief Reset the counter, and update the prescaler and overflow + * values. + * + * This will reset the counter to 0 in upcounting mode (the + * default). It will also update the timer's prescaler and + * overflow, if you have set them up to be changed using + * HardwareTimer::setPrescaleFactor() or + * HardwareTimer::setOverflow(). + * + * @see HardwareTimer::setPrescaleFactor() + * @see HardwareTimer::setOverflow() */ - void detachCompare1Interrupt(void); + void refresh(void); - /** - * Equivalent to detachInterrupt(2). - * @see HardwareTimer::detachInterrupt() - */ - void detachCompare2Interrupt(void); + /* -- Deprecated methods ----------------------------------------------- */ - /** - * Equivalent to detachInterrupt(3). - * @see HardwareTimer::detachInterrupt() - */ - void detachCompare3Interrupt(void); + /** @brief Deprecated; use setMode(channel, mode) instead. */ + void setChannelMode(int channel, timer_mode mode) { + setMode(channel, mode); + } - /** - * Equivalent to detachInterrupt(4). - * @see HardwareTimer::detachInterrupt() - */ - void detachCompare4Interrupt(void); + /** @brief Deprecated; use setMode(TIMER_CH1, mode) instead. */ + void setChannel1Mode(timer_mode mode) { setMode(TIMER_CH1, mode); } - /** - * Re-initializes the counter (to 0 in upcounting mode, which is - * the default), and generates an update of the prescale and - * overflow registers. - */ - void generateUpdate(void); + /** @brief Deprecated; use setMode(TIMER_CH2, mode) instead. */ + void setChannel2Mode(timer_mode mode) { setMode(TIMER_CH2, mode); } + + /** @brief Deprecated; use setMode(TIMER_CH3, mode) instead. */ + void setChannel3Mode(timer_mode mode) { setMode(TIMER_CH3, mode); } + + /** @brief Deprecated; use setMode(TIMER_CH4, mode) instead. */ + void setChannel4Mode(timer_mode mode) { setMode(TIMER_CH4, mode); } + + /** @brief Deprecated; use return getCompare(TIMER_CH1) instead. */ + uint16 getCompare1() { return getCompare(TIMER_CH1); } + + /** @brief Deprecated; use return getCompare(TIMER_CH2) instead. */ + uint16 getCompare2() { return getCompare(TIMER_CH2); } + + /** @brief Deprecated; use return getCompare(TIMER_CH3) instead. */ + uint16 getCompare3() { return getCompare(TIMER_CH3); } + + /** @brief Deprecated; use return getCompare(TIMER_CH4) instead. */ + uint16 getCompare4() { return getCompare(TIMER_CH4); } + + /** @brief Deprecated; use setCompare(TIMER_CH1, compare) instead. */ + void setCompare1(uint16 compare) { setCompare(TIMER_CH1, compare); } + + /** @brief Deprecated; use setCompare(TIMER_CH2, compare) instead. */ + void setCompare2(uint16 compare) { setCompare(TIMER_CH2, compare); } + + /** @brief Deprecated; use setCompare(TIMER_CH3, compare) instead. */ + void setCompare3(uint16 compare) { setCompare(TIMER_CH3, compare); } + + /** @brief Deprecated; use setCompare(TIMER_CH4, compare) instead. */ + void setCompare4(uint16 compare) { setCompare(TIMER_CH4, compare); } + + /** @brief Deprecated; use attachInterrupt(TIMER_CH1, handler) instead. */ + void attachCompare1Interrupt(voidFuncPtr handler) { + attachInterrupt(TIMER_CH1, handler); + } + + /** @brief Deprecated; use attachInterrupt(TIMER_CH2, handler) instead. */ + void attachCompare2Interrupt(voidFuncPtr handler) { + attachInterrupt(TIMER_CH2, handler); + } + + /** @brief Deprecated; use attachInterrupt(TIMER_CH3, handler) instead. */ + void attachCompare3Interrupt(voidFuncPtr handler) { + attachInterrupt(TIMER_CH3, handler); + } + + /** @brief Deprecated; use attachInterrupt(TIMER_CH4, handler) instead. */ + void attachCompare4Interrupt(voidFuncPtr handler) { + attachInterrupt(TIMER_CH4, handler); + } + + /** @brief Deprecated; use detachInterrupt(TIMER_CH1) instead. */ + void detachCompare1Interrupt(void) { detachInterrupt(TIMER_CH1); } + + /** @brief Deprecated; use detachInterrupt(TIMER_CH2) instead. */ + void detachCompare2Interrupt(void) { detachInterrupt(TIMER_CH2); } + + /** @brief Deprecated; use detachInterrupt(TIMER_CH3) instead. */ + void detachCompare3Interrupt(void) { detachInterrupt(TIMER_CH3); } + + /** @brief Deprecated; use detachInterrupt(TIMER_CH4) instead. */ + void detachCompare4Interrupt(void) { detachInterrupt(TIMER_CH4); } + + /** @brief Deprecated; use refresh() instead. */ + void generateUpdate(void) { refresh(); } }; -/** Pre-instantiated timer for use by user code. */ +/* -- The rest of this file is deprecated. --------------------------------- */ + +/** + * @brief Deprecated. + * + * Pre-instantiated timer. + */ extern HardwareTimer Timer1; -/** Pre-instantiated timer for use by user code. */ +/** + * @brief Deprecated. + * + * Pre-instantiated timer. + */ extern HardwareTimer Timer2; -/** Pre-instantiated timer for use by user code. */ -extern HardwareTimer Timer3; -/** Pre-instantiated timer for use by user code. */ -extern HardwareTimer Timer4; -#if NR_TIMERS >= 8 -/** Pre-instantiated timer for use by user code, on devices with - more than four timers (this does not include the Maple). */ -extern HardwareTimer Timer5; -/** Pre-instantiated timer for use by user code, on devices with - more than four timers (this does not include the Maple). */ -extern HardwareTimer Timer8; -#endif - /** - * Get one of the pre-instantiated HardwareTimer instances, given a - * timer device number. + * @brief Deprecated. * - * Be careful not to pass an actual number to this function. For - * example, getTimer(1) will not return Timer1. Use a real - * timer_dev_num, e.g. TIMER1, TIMER2, etc. + * Pre-instantiated timer. + */ +extern HardwareTimer Timer3; +/** + * @brief Deprecated. * - * @param timerNum the timer device number, e.g. TIMER1. + * Pre-instantiated timer. + */ +extern HardwareTimer Timer4; +#ifdef STM32_HIGH_DENSITY +/** + * @brief Deprecated. * - * @return Pointer to the HardwareTimer instance corresponding to the - * given timer device number. If timerNum is TIMER_INVALID, returns a - * null pointer. + * Pre-instantiated timer. + */ +extern HardwareTimer Timer5; +/** + * @brief Deprecated. * - * @see timer_dev_num + * Pre-instantiated timer. */ -HardwareTimer* getTimer(timer_dev_num timerNum); - +extern HardwareTimer Timer8; #endif +#endif |