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# Features in Position
To use higher level features in TNSL, an implimentation of libtnsl must be in place with a minimum set of features. This document outlines what concepts are and are not considered "higher level". This document also covers what the minimum set of features are for a given implimentation of libtnsl. Finally, this document covers how to call between TNSL and other programming languages.
## Section 1 - Bare Metal
## Section 2 - libtnsl and Types
`libtnsl` has the authority to define how types are stored in memory (to some extent) and how method resolution works on static and dynamic structs. `libtnsl` *must* provide certain methods for some language features to be available. These functions, and their uses are now listed, but a comprehensive list of language keywords can be found in Appendix B.
### 2.1 - The libtnsl Type Extension
`tnsl.reflect._type` *must* be defined as a raw struct which contains minimum information for type identification. This information is stored with every static or dynamic struct so that programs can reflect type information.
`tnsl.reflect._member` *must* be defined as a raw struct which contains minimum information for member variable identification within a type. The information need not be stored with every member variable, but should be stored somewhere such that the `tnsl.reflect._get` method can make use of it.
`tnsl.reflect._method` *must* be defined as a raw struct which contains minimum information for method identification within a type. The information need not be stored with every member function, but should be stored somewhere such that the `tnsl.reflect._call` method can make use of it.
`tnsl.reflect._is` *must* be defined as a function taking two parameters of type `tnsl.reflect._type` and returning a single `bool` as output. This function is called when the `is` operator is envoked.
`tnsl.reflect._get` *must* be defined as a function taking three parameters. The first parameter will be of type `tnsl.reflect._type`, the second parameter will be of type `~void`, and the third parameter will be of type `tnsl.reflect._member`. The function will return a single `~void` as output.
In the parameters, the first relates to the type of the struct given, or at least how the callee views the struct. The second is a pointer to the struct itself. The third is the requested member to get. The `~void` returned must point to the requested value.
`tnsl.reflect._call` *must* be defined as a function taking four parameters. The first parameter will be of type `tnsl.reflect._type`, the second parameter will be of type `~void`, the third parameter will be of type `tnsl.reflect._method`, and the fourth parameter will be of type `~void`. The function will return a single `~void` as output.
In the parameters, the first relates to the type of the struct given, or at least how the callee views the struct. The second is a pointer to the struct itself. The third is the requested method to call. The fourth is a pointer to the parameters for the method. The `~void` returned must point to the return value of the method.
### 2.2 - Memory allocation and de-allocation
`tnsl.algo._alloc` *must* be defined as a function taking a single parameter of type `uint` as the number of bytes to allocate and returning a single `~void` as the pointer to the allocated memory. The memory must be allocated from the heap.
`tnsl.algo._salloc` *should* be defined as a function taking a single parameter of type `uint` as the number of bytes to allocate and returning a single `~void` as the pointer to the allocated memory. The memory must be allocated from the stack.
`tnsl.algo._dealloc` *must* be defined as a function taking a single parameter of type `~void` as the pointer to a chunk of allocated memory. The function should deallocate the memory.
### 2.3 - Extra Types Extension
`tnsl.box._vect` *must* be a raw struct which vector or simd instructions can be preformed on.
`tnsl.box._string` *must* be a raw struct which stores a string of text. This text may be ASCII or Unicode, but reguardless must be stored as `charp` values internally.
## Section 3 - Cross calling C
### Credits
Copyright 2021 Kyle Gunger
This file is licensed under the CDDL 1.0 (the License)
and may only be used in accordance with the License.
You should have received a copy of the License with this
software/source code. If you did not, a copy can be found
at the following URL:
https://opensource.org/licenses/CDDL-1.0
THIS SOFTWARE/SOURCE CODE IS PROVIDED "AS IS" WITH NO
WARRANTY, GUARANTEE, OR CLAIM OF FITNESS FOR ANY PURPOSE
EXPRESS OR IMPLIED
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