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package structure:

Packrat
Packrat.Errors (nested)
Packrat.Tokens (nested, generic over contained array)
Packrat.Util
Packrat.Parse_Graphs (generic over memoize enum, tokens)
Packrat.Lexer (generic over stamp enum, input item type, array of input items, array of output items wrapped as tokens)
Packrat.Parser (generic over memoize enum, input item type, array of input items, graph of output item subarrays)
Packrat.Text
Packrat.Text.No_Lex (generic over parser label enum)
Packrat.Text.Standard (generic over parser/lexer label enums)
Packrat.Text.Wide (generic over parser/lexer label enums)
Packrat.Text.Wide_Wide (generic over parser/lexer label enums)

Ratnest.Tests
Ratnest.Examples

Calculator
Tomita
Off_Side




planned order of writing:
(in all cases notes here, then spec, then tests, then body)
(Ratnest not mentioned since that's where all the testing functions will go)

Packrat.Util
Packrat
Packrat.Errors
Packrat.Tokens
Packrat.Lexer
Packrat.Parse_Graphs
Packrat.Parser
Packrat.Text
Packrat.Text.No_Lex
Packrat.Text.Standard
Packrat.Text.Wide
Packrat.Text.Wide_Wide
Calculator
Tomita
Off_Side






Packrat
 - main package
 - defines exceptions, some common enumeration types that are used throughout
 - contains Errors and Tokens as nested packages
 - has some protected utility functions to convert between String and Unbounded_String types
 - intended usage mode is (token_array -> lexer -> token_array -> parser -> parse_graph) although
   it is also possible for (token_array -> parser -> parse_graph)

List of types:
 Result_Status
 Parser_Error
 Lexer_Error




Packrat.Errors
 - nested package, as this functionality is important to parsers/lexers
 - functions to handle and process exception messages
 - exception messages take the form of one or more "s<SYMBOLNAME>p<POSITION>" substrings joined together,
   with each symbol name being in all capitals and each position being a positive integer
 - this message represents the list of expected symbols at particular positions that would have resulted in a
   more complete parse
 - one of these messages will be raised with an exception if no valid parse is possible with a given input

List of datatypes:
 Error_Message (the errors encoded into a String)
 Error_Info (containing a string of the symbol name expected, and a natural of the position)
 Error_Info_Array

List of funcs:
 Valid_Message
 Valid_Identifier
 Valid_Identifier_Array
 Debug_String

Join
 Encode
 Encode_Array
 Decode
(the message format ensures that using "&" to join messages will still result in a valid message)




Packrat.Tokens
 - nested package, defines a datatype important throughout lexing/parsing
 - generic over the array type of whatever is being lexed/parsed and the enum of valid token labels
 - contains an enum identifier, the start position, and the token value
 - cannot contain the finish position of a token because that would make it impossible
   to avoid exponential blowup in parse graphs for ambiguous grammars

List of datatypes:
 Token

List of funcs:
 Create
 Debug_String

 Label
 Value
 Start




Packrat.Util
 - contains predicates to use in Satisfy parser components and similar

List of funcs:
 In_Set
 Not_In_Set
 Is_Digit
 Is_Hex
 Is_Letter
 Is_Alphanumeric
 Is_Punctuation
 Is_ASCII
 Is_Extended_ASCII
 Is_Space
 Is_Linespace
 Is_End_Of_Line
 Is_Whitespace
 Not_Whitespace




Packrat.Lexer
 - generic over the enum used for labeling lexemes, the input element list, and an instantiated Packrat.Tokens
 - contains all datatypes and functions for lexing

List of types:
 Combinator
 Combinator_Result
 Combinator_Array
 Lexer_Context
 Component
 Component_Result
 Component_Array
 With_Input

List of funcs:
(Component functions)
 Stamp (will store a token for the input recognised by its combinators)
 Ignore (won't store a token)

(Lexing functions)
 Scan (can be fed input in chunks, will keep continuing until fed a zero-length array)
 Scan_Only (will assume that the input given is all there is, without considering the possibility of more input)
 Scan_With (takes a function that supplies input when called, processes input the same as Scan)
 Scan_Set (fed input in constant size chunks with a specified padding character)
 Scan_Set_With (a combination of the functionality of Scan_Set and Scan_With)

(Combinator functions)
 Sequence
 Count
 Many
 Many_Until

 Satisfy
 Satisfy_With
 Match
 Match_With
 Multimatch
 Take
 Take_While
 Take_Until

 Line_End
 Input_End




Packrat.Parse_Graphs
 - generic over an instantiated Packrat.Tokens and associated types
 - based on Ada.Containers.Directed_Graphs in the directed-graph repo
 - sets up the above directed graph lib for use as a parse graph that will avoid exponential blowup
 - provides extra functions to merge graphs and iterate specific parsing choices






Packrat.Parser
 - generic over the enum used for memoizing and the input token_list as well as token elements

List of funcs:
Parse
 - may return partial results if incomplete input supplied
 - new input can then be fed back in with the parse_context and initial results to continue parsing
Parse_Only
 - will not return partial results and will always attempt a complete parse
Parse_With
 - must be supplied with a function to acquire more input
Parse_Full
 - will not return partial results and will always require there to be no more input remaining at end
Memoize




Packrat.Parser.Combinators
 - all higher order functions/procedures go in here
 - updating memo_table should be done by overwriting in order to accommodate left recursion
   unwinding properly

List of funcs:
(these are combinators that arrange nodes produced by parsers but do not produce nodes themselves)
Sequence (one of the two that require passing in an array of function accesses)
 - takes an array of component accesses and adds whatever subtrees they produce in order as
   children of the current position on the output structure
Choice (the other that requires passing in an array of function accesses)
 - takes an array of component accesses and trys them in order, first one to succeed has the
   subtree it produces added as a child of the current position on the output structure
Count
 - 
Many
Many_Until
Separate_By
Separate_End_By

(these are parser components that create nodes from input)
Satisfy
 - takes a predicate and if that predicate applied to the next input token is true, creates a
   node with the next input token
Satisfy_With
 - takes a predicate and a transforming function, applies the transform to the next input token
   then tests it with the predicate as above
 - the node created uses the *un*transformed input
Default
 - takes a default argument (same type as input tokens) and a parser component, and either
   returns the subresult from the component if it succeeds, or creates a node with the default
   argument if the component fails
Match
 - for matching one item, eg a char in a string input, or a string in a lex'd string token array
 - checks a supplied argument against the next input token, and if they match, creates a node
   with the next input token
Match_With
 - first uses a transforming function on the next input token then tests against a supplied
   argument as above, creating a node with the untransformed input if there is a match
Multimatch
 - for matching multiple successive items, eg a substring in a string input
 - checks an array argument against the same length subarray of input tokens for a match, if
   successful creates a node with that subarray
Multimatch_With
 - applies a transforming function before the check as above
Take
 - creates a node with the next input token
Take_While
 - takes a predicate and creates a node with the subarray of input tokens corresponding to
   the next N input where the predicate succeeds
Take_Until
 - takes a predicate and creates a node with the subarray of input tokens corresponding to
   the next N input where the predicate fails

(these are recogniser combinators that discard nodes produced by other components)
Skip
 - takes a parser component, executes it, and if it succeeds the result is discarded
   instead of becoming part of the output

(these are recogniser components that do not create nodes)
Empty
End_Of_Input








Ratnest

List of funcs:
Run_Tests




Ratnest.Tests

List of funcs:
Valid_Message_Check
Valid_Identifier_Check
Join_Check
Encode_1_Check
Encode_2_Check
Encode_3_Check
Encode_4_Check
Decode_Check

Token_Adjust_Check
Token_Store_Check

In_Set_Check
Not_In_Set_Check

Is_Digit_Check
Is_Hex_Check
Is_Letter_Check
Is_Alphanumeric_Check
Is_ASCII_Check
Is_Extended_ASCII_Check
Is_Space_Check
Is_Linespace_Check
Is_End_Of_Line_Check
Is_Whitespace_Check
Is_Not_Whitespace_Check




Ratnest.Examples
 - some parser examples

List of funcs:
Scientific
Signed
Decimal
Hexadecimal
Double






Miscellanea:

Where to place C export binding?

Recognisers/combinators implemented as generic functions/procedures if they require more than just input/output.
This is done to get around the lack of first class functions, as combinators usually take the form of higher order functions.

eg Term, Sequence, Choice, Some, Many

How to force functions/procedures of a particular type to be referentially transparent?

Want support for incremental input, so will need Parse function that can return a partially parsed state that can be
supplied with more input.