/* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
*
*/
/** global definitions and methods
* @file global.h
* @author King Kévin
* @date 2016
*/
#pragma once
#include // GPIO defines
#include // interrupt defines
#include // external interrupt defines
/** get the length of an array */
#define LENGTH(x) (sizeof(x) / sizeof((x)[0]))
/** @defgroup reg_macro macros to get define values based on other defines values
* @{
*/
/** get RCC for GPIO based on GPIO */
#define RCC_GPIO(x) switch (x) { \
case GPIOA: RCC_GPIOA; break; \
case GPIOB: RCC_GPIOB; break; \
case GPIOC: RCC_GPIOC; break; \
case GPIOD: RCC_GPIOD; break; \
case GPIOE: RCC_GPIOE; break; \
case GPIOF: RCC_GPIOF; break; \
case GPIOG: RCC_GPIOG; break; \
default: 0; break; \
}
/** get RCC for timer based on TIM */
#define RCC_TIM(x) switch (x) { \
case TIM1: RCC_TIM1; break; \
case TIM2: RCC_TIM2; break; \
case TIM3: RCC_TIM3; break; \
case TIM4: RCC_TIM4; break; \
case TIM5: RCC_TIM5; break; \
case TIM6: RCC_TIM6; break; \
case TIM7: RCC_TIM7; break; \
case TIM8: RCC_TIM8; break; \
case TIM9: RCC_TIM9; break; \
case TIM10: RCC_TIM10; break; \
case TIM11: RCC_TIM11; break; \
case TIM12: RCC_TIM12; break; \
case TIM13: RCC_TIM13; break; \
case TIM14: RCC_TIM14; break; \
case TIM15: RCC_TIM15; break; \
case TIM16: RCC_TIM16; break; \
case TIM17: RCC_TIM17; break; \
default: 0; break; \
}
/** @} */
/** @defgroup board_led board LED GPIO
* @{
*/
#if defined(SYSTEM_BOARD)
/* on system board LED is on pin 11/PA1 */
#define LED_RCC RCC_GPIOA /**< GPIO peripheral clock (port A on system board) */
#define LED_PORT GPIOA /**< GPIO port (port A on system board) */
#define LED_PIN GPIO1 /**< GPIO pin (pin PA1 on system board) */
#elif defined(BLUE_PILL)
/* on minimum system LED is on pin 2/PC13 */
#define LED_RCC RCC_GPIOC /**< GPIO peripheral clock (port C on blue pill) */
#define LED_PORT GPIOC /**< GPIO port (port C on blue pill) */
#define LED_PIN GPIO13 /**< GPIO pin (pin PC13 on system board) */
#elif defined (MAPLE_MINI)
/* on maple mini LED is on pin 19/PB1 */
#define LED_RCC RCC_GPIOB /**< GPIO peripheral clock (port B on maple mini) */
#define LED_PORT GPIOB /**< GPIO port (port B on maple mini) */
#define LED_PIN GPIO1 /**< GPIO pin (pin PB1 on maple mini) */
#endif
/** @} */
/** @defgroup board_button board user button GPIO
* @{
*/
#if defined(MAPLE_MINI)
/* on maple mini user button is on 32/PB8 */
#define BUTTON_RCC RCC_GPIOB /**< GPIO peripheral clock */
#define BUTTON_PORT GPIOB /**< GPIO port */
#define BUTTON_PIN GPIO8 /**< GPIO pin */
#define BUTTON_EXTI EXTI8 /**< GPIO external interrupt */
#define BUTTON_IRQ NVIC_EXTI9_5_IRQ /**< GPIO line interrupt (interrupt for line 9 to 5 for pin) */
#define BUTTON_ISR exti9_5_isr /**< GPIO line interrupt service routine (isr for line 9 to 5 for pin 8) */
#endif
/** @} */
/** switch on board LED */
inline void led_on(void)
{
#if defined(SYSTEM_BOARD) || defined(BLUE_PILL)
gpio_clear(LED_PORT, LED_PIN);
#elif defined(MAPLE_MINI)
gpio_set(LED_PORT, LED_PIN);
#endif
}
/** switch off board LED */
inline void led_off(void)
{
#if defined(SYSTEM_BOARD) || defined(BLUE_PILL)
gpio_set(LED_PORT, LED_PIN);
#elif defined(MAPLE_MINI)
gpio_clear(LED_PORT, LED_PIN);
#endif
}
/** toggle board LED */
inline void led_toggle(void)
{
gpio_toggle(LED_PORT, LED_PIN);
}
/** default printf output */
int _write(int file, char *ptr, int len);
/** get binary representation of a number
* @param[in] binary number to represent in binary
* @param[in] rjust justify representation with leading zeros
* @return string with binary representation of the number
*/
char* b2s(uint64_t binary, uint8_t rjust);