gencpp/project/dependencies/parsing.hpp
2024-12-01 21:59:43 -05:00

433 lines
9.0 KiB
C++

#ifdef GEN_INTELLISENSE_DIRECTIVES
# pragma once
#endif
#pragma region ADT
enum ADT_Type : u32
{
EADT_TYPE_UNINITIALISED, /* node was not initialised, this is a programming error! */
EADT_TYPE_ARRAY,
EADT_TYPE_OBJECT,
EADT_TYPE_STRING,
EADT_TYPE_MULTISTRING,
EADT_TYPE_INTEGER,
EADT_TYPE_REAL,
};
enum ADT_Props : u32
{
EADT_PROPS_NONE,
EADT_PROPS_NAN,
EADT_PROPS_NAN_NEG,
EADT_PROPS_INFINITY,
EADT_PROPS_INFINITY_NEG,
EADT_PROPS_FALSE,
EADT_PROPS_TRUE,
EADT_PROPS_NULL,
EADT_PROPS_IS_EXP,
EADT_PROPS_IS_HEX,
// Used internally so that people can fill in real numbers they plan to write.
EADT_PROPS_IS_PARSED_REAL,
};
enum ADT_NamingStyle : u32
{
EADT_NAME_STYLE_DOUBLE_QUOTE,
EADT_NAME_STYLE_SINGLE_QUOTE,
EADT_NAME_STYLE_NO_QUOTES,
};
enum ADT_AssignStyle : u32
{
EADT_ASSIGN_STYLE_COLON,
EADT_ASSIGN_STYLE_EQUALS,
EADT_ASSIGN_STYLE_LINE,
};
enum ADT_DelimStyle : u32
{
EADT_DELIM_STYLE_COMMA,
EADT_DELIM_STYLE_LINE,
EADT_DELIM_STYLE_NEWLINE,
};
enum ADT_Error : u32
{
EADT_ERROR_NONE,
EADT_ERROR_INTERNAL,
EADT_ERROR_ALREADY_CONVERTED,
EADT_ERROR_INVALID_TYPE,
EADT_ERROR_OUT_OF_MEMORY,
};
struct ADT_Node
{
char const* name;
struct ADT_Node* parent;
/* properties */
ADT_Type type : 4;
u8 props : 4;
#ifndef GEN_PARSER_DISABLE_ANALYSIS
u8 cfg_mode : 1;
u8 name_style : 2;
u8 assign_style : 2;
u8 delim_style : 2;
u8 delim_line_width : 4;
u8 assign_line_width : 4;
#endif
/* adt data */
union
{
char const* string;
Array(ADT_Node) nodes; ///< zpl_array
struct
{
union
{
f64 real;
s64 integer;
};
#ifndef GEN_PARSER_DISABLE_ANALYSIS
/* number analysis */
s32 base;
s32 base2;
u8 base2_offset : 4;
s8 exp : 4;
u8 neg_zero : 1;
u8 lead_digit : 1;
#endif
};
};
};
/* ADT NODE LIMITS
* delimiter and assignment segment width is limited to 128 whitespace symbols each.
* real number limits decimal position to 128 places.
* real number exponent is limited to 64 digits.
*/
/**
* @brief Initialise an ADT object or array
*
* @param node
* @param backing Memory allocator used for descendants
* @param name Node's name
* @param is_array
* @return error code
*/
u8 adt_make_branch( ADT_Node* node, AllocatorInfo backing, char const* name, b32 is_array );
/**
* @brief Destroy an ADT branch and its descendants
*
* @param node
* @return error code
*/
u8 adt_destroy_branch( ADT_Node* node );
/**
* @brief Initialise an ADT leaf
*
* @param node
* @param name Node's name
* @param type Node's type (use zpl_adt_make_branch for container nodes)
* @return error code
*/
u8 adt_make_leaf( ADT_Node* node, char const* name, ADT_Type type );
/**
* @brief Fetch a node using provided URI string.
*
* This method uses a basic syntax to fetch a node from the ADT. The following features are available
* to retrieve the data:
*
* - "a/b/c" navigates through objects "a" and "b" to get to "c"
* - "arr/[foo=123]/bar" iterates over "arr" to find any object with param "foo" that matches the value "123", then gets its field called "bar"
* - "arr/3" retrieves the 4th element in "arr"
* - "arr/[apple]" retrieves the first element of value "apple" in "arr"
*
* @param node ADT node
* @param uri Locator string as described above
* @return zpl_adt_node*
*
* @see code/apps/examples/json_get.c
*/
ADT_Node* adt_query( ADT_Node* node, char const* uri );
/**
* @brief Find a field node within an object by the given name.
*
* @param node
* @param name
* @param deep_search Perform search recursively
* @return zpl_adt_node * node
*/
ADT_Node* adt_find( ADT_Node* node, char const* name, b32 deep_search );
/**
* @brief Allocate an unitialised node within a container at a specified index.
*
* @param parent
* @param index
* @return zpl_adt_node * node
*/
ADT_Node* adt_alloc_at( ADT_Node* parent, ssize index );
/**
* @brief Allocate an unitialised node within a container.
*
* @param parent
* @return zpl_adt_node * node
*/
ADT_Node* adt_alloc( ADT_Node* parent );
/**
* @brief Move an existing node to a new container at a specified index.
*
* @param node
* @param new_parent
* @param index
* @return zpl_adt_node * node
*/
ADT_Node* adt_move_node_at( ADT_Node* node, ADT_Node* new_parent, ssize index );
/**
* @brief Move an existing node to a new container.
*
* @param node
* @param new_parent
* @return zpl_adt_node * node
*/
ADT_Node* adt_move_node( ADT_Node* node, ADT_Node* new_parent );
/**
* @brief Swap two nodes.
*
* @param node
* @param other_node
* @return
*/
void adt_swap_nodes( ADT_Node* node, ADT_Node* other_node );
/**
* @brief Remove node from container.
*
* @param node
* @return
*/
void adt_remove_node( ADT_Node* node );
/**
* @brief Initialise a node as an object
*
* @param obj
* @param name
* @param backing
* @return
*/
b8 adt_set_obj( ADT_Node* obj, char const* name, AllocatorInfo backing );
/**
* @brief Initialise a node as an array
*
* @param obj
* @param name
* @param backing
* @return
*/
b8 adt_set_arr( ADT_Node* obj, char const* name, AllocatorInfo backing );
/**
* @brief Initialise a node as a string
*
* @param obj
* @param name
* @param value
* @return
*/
b8 adt_set_str( ADT_Node* obj, char const* name, char const* value );
/**
* @brief Initialise a node as a float
*
* @param obj
* @param name
* @param value
* @return
*/
b8 adt_set_flt( ADT_Node* obj, char const* name, f64 value );
/**
* @brief Initialise a node as a signed integer
*
* @param obj
* @param name
* @param value
* @return
*/
b8 adt_set_int( ADT_Node* obj, char const* name, s64 value );
/**
* @brief Append a new node to a container as an object
*
* @param parent
* @param name
* @return*
*/
ADT_Node* adt_append_obj( ADT_Node* parent, char const* name );
/**
* @brief Append a new node to a container as an array
*
* @param parent
* @param name
* @return*
*/
ADT_Node* adt_append_arr( ADT_Node* parent, char const* name );
/**
* @brief Append a new node to a container as a string
*
* @param parent
* @param name
* @param value
* @return*
*/
ADT_Node* adt_append_str( ADT_Node* parent, char const* name, char const* value );
/**
* @brief Append a new node to a container as a float
*
* @param parent
* @param name
* @param value
* @return*
*/
ADT_Node* adt_append_flt( ADT_Node* parent, char const* name, f64 value );
/**
* @brief Append a new node to a container as a signed integer
*
* @param parent
* @param name
* @param value
* @return*
*/
ADT_Node* adt_append_int( ADT_Node* parent, char const* name, s64 value );
/* parser helpers */
/**
* @brief Parses a text and stores the result into an unitialised node.
*
* @param node
* @param base
* @return*
*/
char* adt_parse_number( ADT_Node* node, char* base );
/**
* @brief Parses a text and stores the result into an unitialised node.
* This function expects the entire input to be a number.
*
* @param node
* @param base
* @return*
*/
char* adt_parse_number_strict( ADT_Node* node, char* base_str );
/**
* @brief Parses and converts an existing string node into a number.
*
* @param node
* @return
*/
ADT_Error adt_str_to_number( ADT_Node* node );
/**
* @brief Parses and converts an existing string node into a number.
* This function expects the entire input to be a number.
*
* @param node
* @return
*/
ADT_Error adt_str_to_number_strict( ADT_Node* node );
/**
* @brief Prints a number into a file stream.
*
* The provided file handle can also be a memory mapped stream.
*
* @see zpl_file_stream_new
* @param file
* @param node
* @return
*/
ADT_Error adt_print_number( FileInfo* file, ADT_Node* node );
/**
* @brief Prints a string into a file stream.
*
* The provided file handle can also be a memory mapped stream.
*
* @see zpl_file_stream_new
* @param file
* @param node
* @param escaped_chars
* @param escape_symbol
* @return
*/
ADT_Error adt_print_string( FileInfo* file, ADT_Node* node, char const* escaped_chars, char const* escape_symbol );
#pragma endregion ADT
#pragma region CSV
enum CSV_Error : u32
{
ECSV_Error__NONE,
ECSV_Error__INTERNAL,
ECSV_Error__UNEXPECTED_END_OF_INPUT,
ECSV_Error__MISMATCHED_ROWS,
};
typedef ADT_Node CSV_Object;
u8 csv_parse( CSV_Object* root, char* text, AllocatorInfo allocator, b32 has_header );
u8 csv_parse_delimiter( CSV_Object* root, char* text, AllocatorInfo allocator, b32 has_header, char delim );
void csv_free( CSV_Object* obj );
void csv_write( FileInfo* file, CSV_Object* obj );
String csv_write_string( AllocatorInfo a, CSV_Object* obj );
void csv_write_delimiter( FileInfo* file, CSV_Object* obj, char delim );
String csv_write_string_delimiter( AllocatorInfo a, CSV_Object* obj, char delim );
/* inline */
inline
u8 csv_parse( CSV_Object* root, char* text, AllocatorInfo allocator, b32 has_header )
{
return csv_parse_delimiter( root, text, allocator, has_header, ',' );
}
inline
void csv_write( FileInfo* file, CSV_Object* obj )
{
csv_write_delimiter( file, obj, ',' );
}
inline
String csv_write_string( AllocatorInfo a, CSV_Object* obj )
{
return csv_write_string_delimiter( a, obj, ',' );
}
#pragma endregion CSV