Nothing Special
mbed-dev library fork for STM32F100R6 microcontroller (LQFP64, 24MHz, 32kB flash, 4kB ram, 2-channel DAC, HDMI CEC, very cheap) . Use in online compiler (instead mbed library) with selected platform Nucleo F103RB.
Fork of
mbed-dev
by 
mbed official
Tested and working:
- blink
- system frequency 24Mhz (with external xtal 8Mhz)
- stdio uart on pins PA_2-PA_3
- Serial on pins PA_9-PA_10
- AnalogOut on pins PA_4, PA_5 (DAC)
- AnalogIn on pins PA_0, PA_1, PA_2, PA_3, PA_4, PA_5, PA_6, PA_7, PB_0, PB_1, PC_0, PC_1, PC_2, PC_3, PC_5, PC_5
Notes:
- TIM2 is used for mbed needs (eq Timer, Ticker, wait etc. )
Simple test program:Import programtestF100R6
simple tests for STM32F100R6 microcontroller with dedicated library
Last commit 19 Mar 2017 by
Nothing Special
common/InterruptManager.cpp
- Committer:
- mega64
- Date:
- 2017-03-19
- Revision:
- 51:25d18ad142c8
- Parent:
- 0:9b334a45a8ff
File content as of revision 51:25d18ad142c8:
#include "cmsis.h"
#if defined(NVIC_NUM_VECTORS)
#include "InterruptManager.h"
#include <string.h>
#define CHAIN_INITIAL_SIZE 4
namespace mbed {
typedef void (*pvoidf)(void);
InterruptManager* InterruptManager::_instance = (InterruptManager*)NULL;
InterruptManager* InterruptManager::get() {
if (NULL == _instance)
_instance = new InterruptManager();
return _instance;
}
InterruptManager::InterruptManager() {
memset(_chains, 0, NVIC_NUM_VECTORS * sizeof(CallChain*));
}
void InterruptManager::destroy() {
// Not a good idea to call this unless NO interrupt at all
// is under the control of the handler; otherwise, a system crash
// is very likely to occur
if (NULL != _instance) {
delete _instance;
_instance = (InterruptManager*)NULL;
}
}
InterruptManager::~InterruptManager() {
for(int i = 0; i < NVIC_NUM_VECTORS; i++)
if (NULL != _chains[i])
delete _chains[i];
}
bool InterruptManager::must_replace_vector(IRQn_Type irq) {
int irq_pos = get_irq_index(irq);
if (NULL == _chains[irq_pos]) {
_chains[irq_pos] = new CallChain(CHAIN_INITIAL_SIZE);
_chains[irq_pos]->add((pvoidf)NVIC_GetVector(irq));
return true;
}
return false;
}
pFunctionPointer_t InterruptManager::add_common(void (*function)(void), IRQn_Type irq, bool front) {
int irq_pos = get_irq_index(irq);
bool change = must_replace_vector(irq);
pFunctionPointer_t pf = front ? _chains[irq_pos]->add_front(function) : _chains[irq_pos]->add(function);
if (change)
NVIC_SetVector(irq, (uint32_t)&InterruptManager::static_irq_helper);
return pf;
}
bool InterruptManager::remove_handler(pFunctionPointer_t handler, IRQn_Type irq) {
int irq_pos = get_irq_index(irq);
if (NULL == _chains[irq_pos])
return false;
if (!_chains[irq_pos]->remove(handler))
return false;
// If there's a single function left in the chain, swith the interrupt vector
// to call that function directly. This way we save both time and space.
if (_chains[irq_pos]->size() == 1 && NULL != _chains[irq_pos]->get(0)->get_function()) {
NVIC_SetVector(irq, (uint32_t)_chains[irq_pos]->get(0)->get_function());
delete _chains[irq_pos];
_chains[irq_pos] = (CallChain*) NULL;
}
return true;
}
void InterruptManager::irq_helper() {
_chains[__get_IPSR()]->call();
}
int InterruptManager::get_irq_index(IRQn_Type irq) {
return (int)irq + NVIC_USER_IRQ_OFFSET;
}
void InterruptManager::static_irq_helper() {
InterruptManager::get()->irq_helper();
}
} // namespace mbed
#endif