The official Mbed 2 C/C++ SDK provides the software platform and libraries to build your applications.
Dependents: hello SerialTestv11 SerialTestv12 Sierpinski ... more
mbed 2
This is the mbed 2 library. If you'd like to learn about Mbed OS please see the mbed-os docs.
TARGET_RO359B/TOOLCHAIN_GCC_ARM/PeripheralNames.h
- Committer:
- AnnaBridge
- Date:
- 2019-02-20
- Revision:
- 172:65be27845400
- Parent:
- 171:3a7713b1edbc
File content as of revision 172:65be27845400:
/* mbed Microcontroller Library * Copyright (c) 2006-2017 ARM Limited * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef MBED_PERIPHERALNAMES_H #define MBED_PERIPHERALNAMES_H #include "cmsis.h" #ifdef __cplusplus extern "C" { #endif typedef enum { OSC32KCLK = 1, } RTCName; typedef enum { UART_0 = 0, UART_1 = 1, UART_2 = 2, UART_3 = 3, UART_4 = 4, } UARTName; #define STDIO_UART_TX USBTX #define STDIO_UART_RX USBRX #define STDIO_UART UART_0 typedef enum { I2C_0 = 0, I2C_1 = 1, I2C_2 = 2, } I2CName; #define TPM_SHIFT 8 typedef enum { PWM_1 = (0 << TPM_SHIFT) | (0), // FTM0 CH0 PWM_2 = (0 << TPM_SHIFT) | (1), // FTM0 CH1 PWM_3 = (0 << TPM_SHIFT) | (2), // FTM0 CH2 PWM_4 = (0 << TPM_SHIFT) | (3), // FTM0 CH3 PWM_5 = (0 << TPM_SHIFT) | (4), // FTM0 CH4 PWM_6 = (0 << TPM_SHIFT) | (5), // FTM0 CH5 PWM_7 = (0 << TPM_SHIFT) | (6), // FTM0 CH6 PWM_8 = (0 << TPM_SHIFT) | (7), // FTM0 CH7 PWM_9 = (1 << TPM_SHIFT) | (0), // FTM1 CH0 PWM_10 = (1 << TPM_SHIFT) | (1), // FTM1 CH1 PWM_11 = (1 << TPM_SHIFT) | (2), // FTM1 CH2 PWM_12 = (1 << TPM_SHIFT) | (3), // FTM1 CH3 PWM_13 = (1 << TPM_SHIFT) | (4), // FTM1 CH4 PWM_14 = (1 << TPM_SHIFT) | (5), // FTM1 CH5 PWM_15 = (1 << TPM_SHIFT) | (6), // FTM1 CH6 PWM_16 = (1 << TPM_SHIFT) | (7), // FTM1 CH7 PWM_17 = (2 << TPM_SHIFT) | (0), // FTM2 CH0 PWM_18 = (2 << TPM_SHIFT) | (1), // FTM2 CH1 PWM_19 = (2 << TPM_SHIFT) | (2), // FTM2 CH2 PWM_20 = (2 << TPM_SHIFT) | (3), // FTM2 CH3 PWM_21 = (2 << TPM_SHIFT) | (4), // FTM2 CH4 PWM_22 = (2 << TPM_SHIFT) | (5), // FTM2 CH5 PWM_23 = (2 << TPM_SHIFT) | (6), // FTM2 CH6 PWM_24 = (2 << TPM_SHIFT) | (7), // FTM2 CH7 PWM_25 = (3 << TPM_SHIFT) | (0), // FTM3 CH0 PWM_26 = (3 << TPM_SHIFT) | (1), // FTM3 CH1 PWM_27 = (3 << TPM_SHIFT) | (2), // FTM3 CH2 PWM_28 = (3 << TPM_SHIFT) | (3), // FTM3 CH3 PWM_29 = (3 << TPM_SHIFT) | (4), // FTM3 CH4 PWM_30 = (3 << TPM_SHIFT) | (5), // FTM3 CH5 PWM_31 = (3 << TPM_SHIFT) | (6), // FTM3 CH6 PWM_32 = (3 << TPM_SHIFT) | (7), // FTM3 CH7 } PWMName; #define ADC_INSTANCE_SHIFT 8 #define ADC_B_CHANNEL_SHIFT 5 typedef enum { ADC0_SE4b = (0 << ADC_INSTANCE_SHIFT) | (1 << ADC_B_CHANNEL_SHIFT) | 4, ADC0_SE5b = (0 << ADC_INSTANCE_SHIFT) | (1 << ADC_B_CHANNEL_SHIFT) | 5, ADC0_SE6b = (0 << ADC_INSTANCE_SHIFT) | (1 << ADC_B_CHANNEL_SHIFT) | 6, ADC0_SE7b = (0 << ADC_INSTANCE_SHIFT) | (1 << ADC_B_CHANNEL_SHIFT) | 7, ADC0_SE8 = (0 << ADC_INSTANCE_SHIFT) | 8, ADC0_SE9 = (0 << ADC_INSTANCE_SHIFT) | 9, ADC0_SE12 = (0 << ADC_INSTANCE_SHIFT) | 12, ADC0_SE13 = (0 << ADC_INSTANCE_SHIFT) | 13, ADC0_SE14 = (0 << ADC_INSTANCE_SHIFT) | 14, ADC0_SE15 = (0 << ADC_INSTANCE_SHIFT) | 15, ADC0_SE16 = (0 << ADC_INSTANCE_SHIFT) | 16, ADC0_SE17 = (0 << ADC_INSTANCE_SHIFT) | 17, ADC0_SE18 = (0 << ADC_INSTANCE_SHIFT) | 18, ADC0_SE21 = (0 << ADC_INSTANCE_SHIFT) | 21, ADC0_SE22 = (0 << ADC_INSTANCE_SHIFT) | 22, ADC0_SE23 = (0 << ADC_INSTANCE_SHIFT) | 23, ADC1_SE4a = (1 << ADC_INSTANCE_SHIFT) | 4, ADC1_SE5a = (1 << ADC_INSTANCE_SHIFT) | 5, ADC1_SE6a = (1 << ADC_INSTANCE_SHIFT) | 6, ADC1_SE7a = (1 << ADC_INSTANCE_SHIFT) | 7, ADC1_SE4b = (1 << ADC_INSTANCE_SHIFT) | (1 << ADC_B_CHANNEL_SHIFT) | 4, ADC1_SE5b = (1 << ADC_INSTANCE_SHIFT) | (1 << ADC_B_CHANNEL_SHIFT) | 5, ADC1_SE6b = (1 << ADC_INSTANCE_SHIFT) | (1 << ADC_B_CHANNEL_SHIFT) | 6, ADC1_SE7b = (1 << ADC_INSTANCE_SHIFT) | (1 << ADC_B_CHANNEL_SHIFT) | 7, ADC1_SE8 = (1 << ADC_INSTANCE_SHIFT) | 8, ADC1_SE9 = (1 << ADC_INSTANCE_SHIFT) | 9, ADC1_SE12 = (1 << ADC_INSTANCE_SHIFT) | 12, ADC1_SE13 = (1 << ADC_INSTANCE_SHIFT) | 13, ADC1_SE14 = (1 << ADC_INSTANCE_SHIFT) | 14, ADC1_SE15 = (1 << ADC_INSTANCE_SHIFT) | 15, ADC1_SE16 = (1 << ADC_INSTANCE_SHIFT) | 16, ADC1_SE17 = (1 << ADC_INSTANCE_SHIFT) | 17, ADC1_SE18 = (1 << ADC_INSTANCE_SHIFT) | 18, ADC1_SE23 = (1 << ADC_INSTANCE_SHIFT) | 23, } ADCName; typedef enum { DAC_0 = 0 } DACName; typedef enum { SPI_0 = 0, SPI_1 = 1, SPI_2 = 2, } SPIName; #ifdef __cplusplus } #endif #endif