/******************************************************************************
 * The MIT License
 *
 * Copyright (c) 2011 LeafLabs, LLC.
 *
 * Permission is hereby granted, free of charge, to any person
 * obtaining a copy of this software and associated documentation
 * files (the "Software"), to deal in the Software without
 * restriction, including without limitation the rights to use, copy,
 * modify, merge, publish, distribute, sublicense, and/or sell copies
 * of the Software, and to permit persons to whom the Software is
 * furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be
 * included in all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
 * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
 * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
 * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
 * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
 * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
 * SOFTWARE.
 *****************************************************************************/

/**
 * @file   wirish/boards/maple/board.cpp
 * @author Marti Bolivar <mbolivar@leaflabs.com>
 * @brief  Maple board file.
 */

#include <board/board.h>         // For this board's header file

#include <wirish/wirish_types.h> // For stm32_pin_info and its contents
                                 // (these go into PIN_MAP).

#include "boards_private.h"      // For PMAP_ROW(), which makes
                                 // PIN_MAP easier to read.

// boardInit(): nothing special to do for Maple.
//
// When defining your own board.cpp, you can put extra code in this
// function if you have anything you want done on reset, before main()
// or setup() are called.
//
// If there's nothing special you need done, feel free to leave this
// function out, as we do here.
/*
void boardInit(void) {
}
*/

// Pin map: this lets the basic I/O functions (digitalWrite(),
// analogRead(), pwmWrite()) translate from pin numbers to STM32
// peripherals.
//
// PMAP_ROW() lets us specify a row (really a struct stm32_pin_info)
// in the pin map. Its arguments are:
//
// - GPIO device for the pin (GPIOA, etc.)
// - GPIO bit for the pin (0 through 15)
// - Timer device, or NULL if none
// - Timer channel (1 to 4, for PWM), or 0 if none
// - ADC device, or NULL if none
// - ADC channel, or ADCx if none
extern const stm32_pin_info PIN_MAP[BOARD_NR_GPIO_PINS] = {
    PMAP_ROW(GPIOA,   0, NULL,  0, NULL,    ADCx), /* D0/PA0  */
    PMAP_ROW(GPIOA,   1, NULL,  0, NULL,    ADCx), /* D1/PA1  */
    PMAP_ROW(GPIOA,   2, NULL,  0, NULL,    ADCx), /* D2/PA2  */
    PMAP_ROW(GPIOA,   3, NULL,  0, NULL,    ADCx), /* D3/PA3  */
    PMAP_ROW(GPIOA,   4, NULL,  0, NULL,    ADCx), /* D4/PA4  */
    PMAP_ROW(GPIOA,   5, NULL,  0, NULL,    ADCx), /* D5/PA5  */
    PMAP_ROW(GPIOA,   6, NULL,  0, NULL,    ADCx), /* D6/PA6  */
    PMAP_ROW(GPIOA,   7, NULL,  0, NULL,    ADCx), /* D7/PA7  */
    PMAP_ROW(GPIOA,   8, NULL,  0, NULL,    ADCx), /* D8/PA8  */
    PMAP_ROW(GPIOA,   9, NULL,  0, NULL,    ADCx), /* D9/PA9  */
    PMAP_ROW(GPIOA,  10, NULL,  0, NULL,    ADCx), /* D10/PA10  */
    PMAP_ROW(GPIOA,  11, NULL,  0, NULL,    ADCx), /* D11/PA11  */
    PMAP_ROW(GPIOA,  12, NULL,  0, NULL,    ADCx), /* D12/PA12  */
    PMAP_ROW(GPIOA,  13, NULL,  0, NULL,    ADCx), /* D13/PA13  */
    PMAP_ROW(GPIOA,  14, NULL,  0, NULL,    ADCx), /* D14/PA14  */
    PMAP_ROW(GPIOA,  15, NULL,  0, NULL,    ADCx), /* D15/PA15  */

    PMAP_ROW(GPIOB,   0, NULL,  0, NULL,    ADCx), /* D0/PA0  */
    PMAP_ROW(GPIOB,   1, NULL,  0, NULL,    ADCx), /* D1/PA1  */
    PMAP_ROW(GPIOB,   2, NULL,  0, NULL,    ADCx), /* D2/PA2  */
    PMAP_ROW(GPIOB,   3, NULL,  0, NULL,    ADCx), /* D3/PA3  */
    PMAP_ROW(GPIOB,   4, NULL,  0, NULL,    ADCx), /* D4/PA4  */
    PMAP_ROW(GPIOB,   5, NULL,  0, NULL,    ADCx), /* D5/PA5  */
    PMAP_ROW(GPIOB,   6, NULL,  0, NULL,    ADCx), /* D6/PA6  */
    PMAP_ROW(GPIOB,   7, NULL,  0, NULL,    ADCx), /* D7/PA7  */
    PMAP_ROW(GPIOB,   8, NULL,  0, NULL,    ADCx), /* D8/PA8  */
    PMAP_ROW(GPIOB,   9, NULL,  0, NULL,    ADCx), /* D9/PA9  */
    PMAP_ROW(GPIOB,  10, NULL,  0, NULL,    ADCx), /* D10/PA10  */
    PMAP_ROW(GPIOB,  11, NULL,  0, NULL,    ADCx), /* D11/PA11  */
    PMAP_ROW(GPIOB,  12, NULL,  0, NULL,    ADCx), /* D12/PA12  */
    PMAP_ROW(GPIOB,  13, NULL,  0, NULL,    ADCx), /* D13/PA13  */
    PMAP_ROW(GPIOB,  14, NULL,  0, NULL,    ADCx), /* D14/PA14  */
    PMAP_ROW(GPIOB,  15, NULL,  0, NULL,    ADCx), /* D15/PA15  */

    PMAP_ROW(GPIOC,   0, NULL,  0, NULL,    ADCx), /* D0/PA0  */
    PMAP_ROW(GPIOC,   1, NULL,  0, NULL,    ADCx), /* D1/PA1  */
    PMAP_ROW(GPIOC,   2, NULL,  0, NULL,    ADCx), /* D2/PA2  */
    PMAP_ROW(GPIOC,   3, NULL,  0, NULL,    ADCx), /* D3/PA3  */
    PMAP_ROW(GPIOC,   4, NULL,  0, NULL,    ADCx), /* D4/PA4  */
    PMAP_ROW(GPIOC,   5, NULL,  0, NULL,    ADCx), /* D5/PA5  */
    PMAP_ROW(GPIOC,   6, NULL,  0, NULL,    ADCx), /* D6/PA6  */
    PMAP_ROW(GPIOC,   7, NULL,  0, NULL,    ADCx), /* D7/PA7  */
    PMAP_ROW(GPIOC,   8, NULL,  0, NULL,    ADCx), /* D8/PA8  */
    PMAP_ROW(GPIOC,   9, NULL,  0, NULL,    ADCx), /* D9/PA9  */
    PMAP_ROW(GPIOC,  10, NULL,  0, NULL,    ADCx), /* D10/PA10  */
    PMAP_ROW(GPIOC,  11, NULL,  0, NULL,    ADCx), /* D11/PA11  */
    PMAP_ROW(GPIOC,  12, NULL,  0, NULL,    ADCx), /* D12/PA12  */
    PMAP_ROW(GPIOC,  13, NULL,  0, NULL,    ADCx), /* D13/PA13  */
    PMAP_ROW(GPIOC,  14, NULL,  0, NULL,    ADCx), /* D14/PA14  */
    PMAP_ROW(GPIOC,  15, NULL,  0, NULL,    ADCx), /* D15/PA15  */

    PMAP_ROW(GPIOD,   0, NULL,  0, NULL,    ADCx), /* D0/PA0  */
    PMAP_ROW(GPIOD,   1, NULL,  0, NULL,    ADCx), /* D1/PA1  */
    PMAP_ROW(GPIOD,   2, NULL,  0, NULL,    ADCx), /* D2/PA2  */
    PMAP_ROW(GPIOD,   3, NULL,  0, NULL,    ADCx), /* D3/PA3  */
    PMAP_ROW(GPIOD,   4, NULL,  0, NULL,    ADCx), /* D4/PA4  */
    PMAP_ROW(GPIOD,   5, NULL,  0, NULL,    ADCx), /* D5/PA5  */
    PMAP_ROW(GPIOD,   6, NULL,  0, NULL,    ADCx), /* D6/PA6  */
    PMAP_ROW(GPIOD,   7, NULL,  0, NULL,    ADCx), /* D7/PA7  */
    PMAP_ROW(GPIOD,   8, NULL,  0, NULL,    ADCx), /* D8/PA8  */
    PMAP_ROW(GPIOD,   9, NULL,  0, NULL,    ADCx), /* D9/PA9  */
    PMAP_ROW(GPIOD,  10, NULL,  0, NULL,    ADCx), /* D10/PA10  */
    PMAP_ROW(GPIOD,  11, NULL,  0, NULL,    ADCx), /* D11/PA11  */
    PMAP_ROW(GPIOD,  12, NULL,  0, NULL,    ADCx), /* D12/PA12  */
    PMAP_ROW(GPIOD,  13, NULL,  0, NULL,    ADCx), /* D13/PA13  */
    PMAP_ROW(GPIOD,  14, NULL,  0, NULL,    ADCx), /* D14/PA14  */
    PMAP_ROW(GPIOD,  15, NULL,  0, NULL,    ADCx), /* D15/PA15  */
};

// Array of pins you can use for pwmWrite(). Keep it in Flash because
// it doesn't change, and so we don't waste RAM.
extern const uint8 boardPWMPins[] __FLASH__ = {
    0, 1, 2, 3, 5, 6, 7, 8, 9, 11, 12, 14, 24, 27, 28
};

// Array of pins you can use for analogRead().
extern const uint8 boardADCPins[] __FLASH__ = {
    0,
};

// Array of pins that the board uses for something special. Other than
// the button and the LED, it's usually best to leave these pins alone
// unless you know what you're doing.
extern const uint8 boardUsedPins[] __FLASH__ = {
    BOARD_LED_PIN, BOARD_BUTTON_PIN, BOARD_JTMS_SWDIO_PIN,
    BOARD_JTCK_SWCLK_PIN, BOARD_JTDI_PIN, BOARD_JTDO_PIN, BOARD_NJTRST_PIN
};