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port_map.hpp
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#pragma once
//=========================================================================//
/*! @file
@brief RX220 グループ・ポート・マッピング
@author 平松邦仁 (hira@rvf-rc45.net)
@copyright Copyright (C) 2022, 2024 Kunihito Hiramatsu @n
Released under the MIT license @n
https://github.com/hirakuni45/RX/blob/master/LICENSE
*/
//=========================================================================//
#include "RX220/peripheral.hpp"
#include "RX220/port.hpp"
#include "RX220/mpc.hpp"
#include "RX600/port_map_order.hpp"
namespace device {
//+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++//
/*!
@brief RX220 ポート・マッピング・ユーティリティー
*/
//+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++//
class port_map : public port_map_order {
static bool sub_1st_(peripheral per, bool enable, OPTIONAL opt) noexcept
{
uint8_t i2c = 0;
bool spi = false;
if(opt == OPTIONAL::SCI_I2C) { i2c = 1; }
else if(opt == OPTIONAL::SCI_SPI) { spi = true; }
switch(per) {
case peripheral::RIIC0:
{
// SCL0: P16 (LQFP64:18)
// SDA0: P17 (LQFP64:17)
uint8_t sel = enable ? 0b0'1111 : 0; // ok
PORT1::PMR.B6 = 0;
MPC::P16PFS.PSEL = sel;
PORT1::PMR.B6 = enable;
PORT1::PMR.B7 = 0;
MPC::P17PFS.PSEL = sel;
PORT1::PMR.B7 = enable;
}
break;
case peripheral::RSPI0:
{
// RSPCKA: PA5
// MOSIA: PA6
// MISOA: PA7
uint8_t sel = enable ? 0b0'1101 : 0; // ok
PORTA::PMR.B5 = 0;
MPC::PA5PFS.PSEL = sel;
PORTA::PMR.B5 = enable;
PORTA::PMR.B6 = 0;
MPC::PA6PFS.PSEL = sel;
PORTA::PMR.B6 = enable;
PORTA::PMR.B7 = 0;
MPC::PA7PFS.PSEL = sel;
PORTA::PMR.B7 = enable;
}
break;
case peripheral::SCI1:
{
// RXD1: P15 (LQFP64:19)
// TXD1: P16 (LQFP64:18)
// SCK1: P17
uint8_t sel = enable ? 0b0'1010 : 0; // ok
PORT1::PMR.B5 = 0;
PORT1::ODR.B5 = i2c;
MPC::P15PFS.PSEL = sel;
PORT1::PMR.B5 = enable;
PORT1::PMR.B6 = 0;
PORT1::ODR.B6 = i2c;
MPC::P16PFS.PSEL = sel;
PORT1::PMR.B6 = enable;
if(spi) {
PORT1::PMR.B7 = 0;
MPC::P17PFS.PSEL = sel;
PORT1::PMR.B7 = enable;
}
}
break;
case peripheral::SCI5:
case peripheral::IrDA:
{
// RXD5: PA2
// TXD5: PA4
// SCK5: PA1
uint8_t sel = enable ? 0b0'1010 : 0; // ok
PORTA::PMR.B2 = 0;
PORTA::ODR.B2 = i2c;
MPC::PA2PFS.PSEL = sel;
PORTA::PMR.B2 = enable;
PORTA::PMR.B4 = 0;
PORTA::ODR.B4 = i2c;
MPC::PA4PFS.PSEL = sel;
PORTA::PMR.B4 = enable;
if(spi) {
PORTA::PMR.B1 = 0;
MPC::PA1PFS.PSEL = sel;
PORTA::PMR.B1 = enable;
}
}
break;
case peripheral::SCI6:
{
// RXD6: P33
// TXD6: P32
// SCK6: P34
uint8_t sel = enable ? 0b0'1011 : 0; // ok
PORT3::PMR.B3 = 0;
PORT3::ODR.B3 = i2c;
MPC::P33PFS.PSEL = sel;
PORT3::PMR.B3 = enable;
PORT3::PMR.B2 = 0;
PORT3::ODR.B2 = i2c;
MPC::P32PFS.PSEL = sel;
PORT3::PMR.B2 = enable;
if(spi) {
PORT3::PMR.B4 = 0;
MPC::P34PFS.PSEL = sel;
PORT3::PMR.B4 = enable;
}
}
break;
case peripheral::SCI9:
{
// RXD9: PB6
// TXD9: PB7
// SCK9: PB5
uint8_t sel = enable ? 0b0'1010 : 0; // ok
PORTB::PMR.B6 = 0;
PORTB::ODR.B6 = i2c;
MPC::PB6PFS.PSEL = sel;
PORTB::PMR.B6 = enable;
PORTB::PMR.B7 = 0;
PORTB::ODR.B7 = i2c;
MPC::PB7PFS.PSEL = sel;
PORTB::PMR.B7 = enable;
if(spi) {
PORTB::PMR.B5 = 0;
MPC::PB5PFS.PSEL = sel;
PORTB::PMR.B5 = enable;
}
}
break;
case peripheral::SCI12:
{
// RXD12: PE2
// TXD12: PE1
// SCK12: PE0
uint8_t sel = enable ? 0b0'1100 : 0; // ok
PORTE::PMR.B2 = 0;
PORTE::ODR.B2 = i2c;
MPC::PE2PFS.PSEL = sel;
PORTE::PMR.B2 = enable;
PORTE::PMR.B1 = 0;
PORTE::ODR.B1 = i2c;
MPC::PE1PFS.PSEL = sel;
PORTE::PMR.B1 = enable;
if(spi) {
PORTE::PMR.B0 = 0;
MPC::PE0PFS.PSEL = sel;
PORTE::PMR.B0 = enable;
}
}
break;
default:
return false;
break;
}
return true;
}
static bool sub_2nd_(peripheral per, bool enable, OPTIONAL opt) noexcept
{
uint8_t i2c = 0;
bool spi = false;
if(opt == OPTIONAL::SCI_I2C) { i2c = 1; }
else if(opt == OPTIONAL::SCI_SPI) { spi = true; }
switch(per) {
case peripheral::RIIC0:
{
// SCL0: P12
// SDA0: P13
uint8_t sel = enable ? 0b0'1111 : 0; // ok
PORT1::PMR.B2 = 0;
MPC::P12PFS.PSEL = sel;
PORT1::PMR.B2 = enable;
PORT1::PMR.B3 = 0;
MPC::P13PFS.PSEL = sel;
PORT1::PMR.B3 = enable;
}
break;
case peripheral::RSPI0:
{
// RSPCKA: PB0
// MOSIA: P16
// MISOA: P17
uint8_t sel = enable ? 0b0'1101 : 0; // ok
PORTB::PMR.B0 = 0;
MPC::PB0PFS.PSEL = sel;
PORTB::PMR.B0 = enable;
PORT1::PMR.B6 = 0;
MPC::P16PFS.PSEL = sel;
PORT1::PMR.B6 = enable;
PORT1::PMR.B7 = 0;
MPC::P17PFS.PSEL = sel;
PORT1::PMR.B7 = enable;
}
break;
case peripheral::SCI1: // for BOOT serial port
{
// RXD1: P30
// TXD1: P26
// SCK1: P27
uint8_t sel = enable ? 0b0'1010 : 0; // ok
PORT3::PMR.B0 = 0;
PORT3::ODR.B0 = i2c;
MPC::P30PFS.PSEL = sel;
PORT3::PMR.B0 = enable;
PORT2::PMR.B6 = 0;
PORT2::ODR.B6 = i2c;
MPC::P26PFS.PSEL = sel;
PORT2::PMR.B6 = enable;
if(spi) {
PORT2::PMR.B7 = 0;
MPC::P27PFS.PSEL = sel;
PORT2::PMR.B7 = enable;
}
}
break;
case peripheral::SCI5:
case peripheral::IrDA:
{
// RXD5: PA3
// TXD5: PA4
// SCK5: PA1
uint8_t sel = enable ? 0b0'1010 : 0; // ok
PORTA::PMR.B3 = 0;
PORTA::ODR.B3 = i2c;
MPC::PA3PFS.PSEL = sel;
PORTA::PMR.B3 = enable;
PORTA::PMR.B4 = 0;
PORTA::ODR.B4 = i2c;
MPC::PA4PFS.PSEL = sel;
PORTA::PMR.B4 = enable;
if(spi) {
PORTA::PMR.B1 = 0;
MPC::PA1PFS.PSEL = sel;
PORTA::PMR.B1 = enable;
}
}
break;
case peripheral::SCI6:
{
// RXD6: PB0
// TXD6: PB1
// SCK6: PB3
uint8_t sel = enable ? 0b0'1011 : 0;
PORTB::PMR.B0 = 0;
PORTB::ODR.B0 = i2c;
MPC::PB0PFS.PSEL = sel;
PORTB::PMR.B0 = enable;
PORTB::PMR.B1 = 0;
PORTB::ODR.B1 = i2c;
MPC::PB1PFS.PSEL = sel;
PORTB::PMR.B1 = enable;
if(spi) {
PORTB::PMR.B3 = 0;
MPC::PB3PFS.PSEL = sel;
PORTB::PMR.B3 = enable;
}
}
break;
default:
return false;
break;
}
return true;
}
static bool sub_3rd_(peripheral per, bool enable, OPTIONAL opt) noexcept
{
uint8_t i2c = 0;
bool spi = false;
if(opt == OPTIONAL::SCI_I2C) { i2c = 1; }
else if(opt == OPTIONAL::SCI_SPI) { spi = true; }
switch(per) {
case peripheral::RSPI0:
{
// RSPCKA: PC5
// MOSIA: PC6
// MISOA: PC7
uint8_t sel = enable ? 0b0'1101 : 0;
PORTC::PMR.B5 = 0;
MPC::PC5PFS.PSEL = sel;
PORTC::PMR.B5 = enable;
PORTC::PMR.B6 = 0;
MPC::PC6PFS.PSEL = sel;
PORTC::PMR.B6 = enable;
PORTC::PMR.B7 = 0;
MPC::PC7PFS.PSEL = sel;
PORTC::PMR.B7 = enable;
}
break;
case peripheral::SCI5:
case peripheral::IrDA:
{
// RXD5: PC2
// TXD5: PC3
// SCK5: PC4
uint8_t sel = enable ? 0b0'1010 : 0; // ok
PORTA::PMR.B3 = 0;
PORTA::ODR.B3 = i2c;
MPC::PA3PFS.PSEL = sel;
PORTA::PMR.B3 = enable;
PORTA::PMR.B4 = 0;
PORTA::ODR.B4 = i2c;
MPC::PA4PFS.PSEL = sel;
PORTA::PMR.B4 = enable;
if(spi) {
PORTC::PMR.B4 = 0;
MPC::PC4PFS.PSEL = sel;
PORTC::PMR.B4 = enable;
}
}
break;
default:
return false;
break;
}
return true;
}
static inline USER_FUNC_TYPE user_func_;
public:
//-----------------------------------------------------------------//
/*!
@brief ユーザー設定関数設定
@param[in] func ユーザー設定関数
*/
//-----------------------------------------------------------------//
static void set_user_func(USER_FUNC_TYPE func) noexcept { user_func_ = func; }
//-----------------------------------------------------------------//
/*!
@brief 周辺機器別ポート切り替え
@param[in] per 周辺機器タイプ
@param[in] ena 無効にする場合「false」
@param[in] odr 候補を選択する場合
@param[in] opt オプショナル設定を行う場合
@return 無効な周辺機器の場合「false」
*/
//-----------------------------------------------------------------//
static bool turn(peripheral per, bool ena = true, ORDER odr = ORDER::FIRST, OPTIONAL opt = OPTIONAL::NONE) noexcept
{
if(odr == ORDER::BYPASS) return true;
MPC::PWPR.B0WI = 0; // PWPR 書き込み許可
MPC::PWPR.PFSWE = 1; // PxxPFS 書き込み許可
bool ret = false;
switch(odr) {
case ORDER::FIRST:
ret = sub_1st_(per, ena, opt);
break;
case ORDER::SECOND:
ret = sub_2nd_(per, ena, opt);
break;
case ORDER::THIRD:
ret = sub_3rd_(per, ena, opt);
break;
case ORDER::USER:
ret = user_func_(per, ena);
break;
default:
ret = false;
break;
}
MPC::PWPR = device::MPC::PWPR.B0WI.b();
return ret;
}
};
}