svd2cpp/README.md

# svd2cpp
Zero-cost abstraction register library generator.
## What is *svd2cpp*?
*svd2cpp* is a generator that parses .svd files provided by ARM chip vendor.
It generates header file that allows for reading and writing to microcontroller's registers with zero overhead.

### Benefits
1. **Compile-time checking.** This is an aspect that is making this solution better than any other parser/pre-generated header.
    * You won't be able to write to wrong register.
    * You won't be able to write wrong value (i.e. 0b1011 to 3-bit field) to register.
    * You can't read from write-only or write to read-only register.
  Any attempt to do something wrong will succeed in error at **compile-time** - no more runtime debugging to find out misspelling errors!
2. **Zero-cost abstraction.** Another strong aspect of headers generated by *svd2cpp* is that using it in code will result in zero overhead because all of the checking is done at compile-time.
3. **Portability.** As long as manufacturer provides .svd files in CMSIS-SVD format (and most major manufacturers of Cortex-M based chips does), you can use it with this parser.

## How to get *svd2cpp*?
  Download source code and compile it. Note that this repo uses submodules thus do not forget to `git submodule init` and `git submodule update` after cloning.

OR

  Download precompiled parser.

## How to use *svd2cpp*?
That's super easy:
```console
./svd2cpp -i svdFile.svd -o generatedHeader.hpp
```

## How to use generated header?
After including header in your code, you can use all features such as *set*, *reset*, *read*.

Syntax is quite simple and easy to use:
```cpp
operation<PERIPHERAL::REGISTER::FIELD>();
```
### Examples:
In peripheral USART1: Set bit UE(USART enable) in CR1(Control Register 1):
```cpp
set<USART1::CR1::UE>();
```

In peripheral USART1: Reset bit UE(USART enable) in CR1(Control Register 1):
```cpp
reset<USART1::CR1::UE>();
```

In peripheral DMA1: Read TCIF1(Channel 1 Transfer Complete flag) in ISR:
```cpp
bool transferComplete = read<DMA1::ISR::TCIF1>();
```

In peripheral DMA1: Set MA(Memory address) for CMAR2(DMA channel 2 memory address register):
```cpp
set<DMA1::CMAR2::MA>(0xDEADBEEF);
```
Create README.md 2019-12-02 10:57:23 +00:00			`# svd2cpp`
			`Zero-cost abstraction register library generator.`
			`## What is svd2cpp?`
			`svd2cpp is a generator that parses .svd files provided by ARM chip vendor.`
			`It generates header file that allows for reading and writing to microcontroller's registers with zero overhead.`

Update README.md 2019-12-02 11:30:07 +00:00			`### Benefits`
			`1. Compile-time checking. This is an aspect that is making this solution better than any other parser/pre-generated header.`
			`* You won't be able to write to wrong register.`
			`* You won't be able to write wrong value (i.e. 0b1011 to 3-bit field) to register.`
			`* You can't read from write-only or write to read-only register.`
			`Any attempt to do something wrong will succeed in error at compile-time - no more runtime debugging to find out misspelling errors!`
			`2. Zero-cost abstraction. Another strong aspect of headers generated by svd2cpp is that using it in code will result in zero overhead because all of the checking is done at compile-time.`
			`3. Portability. As long as manufacturer provides .svd files in CMSIS-SVD format (and most major manufacturers of Cortex-M based chips does), you can use it with this parser.`

Create README.md 2019-12-02 10:57:23 +00:00			`## How to get svd2cpp?`
			Download source code and compile it. Note that this repo uses submodules thus do not forget to `git submodule init` and `git submodule update` after cloning.

			`OR`

			`Download precompiled parser.`

			`## How to use svd2cpp?`
			`That's super easy:`
			```console
			`./svd2cpp -i svdFile.svd -o generatedHeader.hpp`
			```
Update README.md 2019-12-02 11:11:43 +00:00
			`## How to use generated header?`
			`After including header in your code, you can use all features such as set, reset, read.`

			`Syntax is quite simple and easy to use:`
			```cpp
Update README.md 2019-12-02 11:33:24 +00:00			`operation<PERIPHERAL::REGISTER::FIELD>();`
Update README.md 2019-12-02 11:11:43 +00:00			```
Update README.md 2019-12-02 11:30:07 +00:00			`### Examples:`
Update README.md 2019-12-02 11:33:24 +00:00			`In peripheral USART1: Set bit UE(USART enable) in CR1(Control Register 1):`
Update README.md 2019-12-02 11:11:43 +00:00			```cpp
			`set<USART1::CR1::UE>();`
			```

Update README.md 2019-12-02 11:33:24 +00:00			`In peripheral USART1: Reset bit UE(USART enable) in CR1(Control Register 1):`
Update README.md 2019-12-02 11:11:43 +00:00			```cpp
			`reset<USART1::CR1::UE>();`
			```

Update README.md 2019-12-02 11:33:24 +00:00			`In peripheral DMA1: Read TCIF1(Channel 1 Transfer Complete flag) in ISR:`
Update README.md 2019-12-02 11:11:43 +00:00			```cpp
			`bool transferComplete = read<DMA1::ISR::TCIF1>();`
			```

Update README.md 2019-12-02 11:33:24 +00:00			`In peripheral DMA1: Set MA(Memory address) for CMAR2(DMA channel 2 memory address register):`
Update README.md 2019-12-02 11:11:43 +00:00			```cpp
			`set<DMA1::CMAR2::MA>(0xDEADBEEF);`
			```