mirror of
https://github.com/Ed94/gencpp.git
synced 2024-11-14 04:34:52 -08:00
416 lines
7.5 KiB
C++
416 lines
7.5 KiB
C++
#ifdef GEN_INTELLISENSE_DIRECTIVES
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# pragma once
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# include "hashing.hpp"
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#endif
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#pragma region Strings
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// Constant string with length.
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struct StrC
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{
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sw Len;
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char const* Ptr;
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operator char const* () const { return Ptr; }
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char const& operator[]( sw index ) const { return Ptr[index]; }
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};
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#define cast_to_strc( str ) * rcast( StrC*, (str) - sizeof(sw) )
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#define txt( text ) StrC { sizeof( text ) - 1, ( text ) }
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inline
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StrC to_str( char const* str )
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{
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return { str_len( str ), str };
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}
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// Dynamic String
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// This is directly based off the ZPL string api.
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// They used a header pattern
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// I kept it for simplicty of porting but its not necessary to keep it that way.
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struct String
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{
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struct Header
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{
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AllocatorInfo Allocator;
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sw Capacity;
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sw Length;
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};
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static
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uw grow_formula( uw value )
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{
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// Using a very aggressive growth formula to reduce time mem_copying with recursive calls to append in this library.
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return 4 * value + 8;
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}
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static
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String make( AllocatorInfo allocator, char const* str )
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{
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sw length = str ? str_len( str ) : 0;
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return make_length( allocator, str, length );
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}
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static
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String make( AllocatorInfo allocator, StrC str )
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{
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return make_length( allocator, str.Ptr, str.Len );
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}
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static
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String make_reserve( AllocatorInfo allocator, sw capacity );
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static
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String make_length( AllocatorInfo allocator, char const* str, sw length );
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static
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String fmt( AllocatorInfo allocator, char* buf, sw buf_size, char const* fmt, ... );
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static
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String fmt_buf( AllocatorInfo allocator, char const* fmt, ... );
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static
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String join( AllocatorInfo allocator, char const** parts, sw num_parts, char const* glue )
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{
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String result = make( allocator, "" );
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for ( sw idx = 0; idx < num_parts; ++idx )
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{
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result.append( parts[ idx ] );
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if ( idx < num_parts - 1 )
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result.append( glue );
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}
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return result;
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}
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static
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bool are_equal( String lhs, String rhs )
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{
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if ( lhs.length() != rhs.length() )
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return false;
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for ( sw idx = 0; idx < lhs.length(); ++idx )
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if ( lhs[ idx ] != rhs[ idx ] )
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return false;
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return true;
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}
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static
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bool are_equal( String lhs, StrC rhs )
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{
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if ( lhs.length() != (rhs.Len) )
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return false;
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for ( sw idx = 0; idx < lhs.length(); ++idx )
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if ( lhs[idx] != rhs[idx] )
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return false;
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return true;
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}
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bool make_space_for( char const* str, sw add_len );
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bool append( char c )
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{
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return append( & c, 1 );
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}
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bool append( char const* str )
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{
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return append( str, str_len( str ) );
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}
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bool append( char const* str, sw length )
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{
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if ( sptr(str) > 0 )
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{
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sw curr_len = this->length();
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if ( ! make_space_for( str, length ) )
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return false;
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Header& header = get_header();
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mem_copy( Data + curr_len, str, length );
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Data[ curr_len + length ] = '\0';
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header.Length = curr_len + length;
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}
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return str != nullptr;
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}
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bool append( StrC str)
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{
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return append( str.Ptr, str.Len );
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}
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bool append( const String other )
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{
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return append( other.Data, other.length() );
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}
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bool append_fmt( char const* fmt, ... );
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sw avail_space() const
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{
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Header const&
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header = * rcast( Header const*, Data - sizeof( Header ));
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return header.Capacity - header.Length;
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}
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char& back()
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{
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return Data[ length() - 1 ];
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}
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sw capacity() const
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{
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Header const&
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header = * rcast( Header const*, Data - sizeof( Header ));
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return header.Capacity;
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}
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void clear()
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{
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get_header().Length = 0;
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}
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String duplicate( AllocatorInfo allocator ) const
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{
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return make_length( allocator, Data, length() );
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}
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void free()
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{
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if ( ! Data )
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return;
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Header& header = get_header();
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gen::free( header.Allocator, & header );
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}
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Header& get_header()
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{
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return *(Header*)(Data - sizeof(Header));
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}
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sw length() const
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{
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Header const&
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header = * rcast( Header const*, Data - sizeof( Header ));
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return header.Length;
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}
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b32 starts_with( StrC substring ) const
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{
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if (substring.Len > length())
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return false;
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b32 result = str_compare(Data, substring.Ptr, substring.Len ) == 0;
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return result;
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}
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b32 starts_with( String substring ) const
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{
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if (substring.length() > length())
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return false;
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b32 result = str_compare(Data, substring, substring.length() - 1 ) == 0;
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return result;
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}
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void skip_line()
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{
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#define current (*scanner)
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char* scanner = Data;
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while ( current != '\r' && current != '\n' )
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{
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++ scanner;
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}
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s32 new_length = scanner - Data;
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if ( current == '\r' )
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{
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new_length += 1;
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}
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mem_move( Data, scanner, new_length );
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Header* header = & get_header();
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header->Length = new_length;
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#undef current
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}
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void strip_space()
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{
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char* write_pos = Data;
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char* read_pos = Data;
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while ( * read_pos)
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{
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if ( ! char_is_space( *read_pos ))
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{
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*write_pos = *read_pos;
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write_pos++;
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}
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read_pos++;
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}
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write_pos[0] = '\0'; // Null-terminate the modified string
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// Update the length if needed
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get_header().Length = write_pos - Data;
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}
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void trim( char const* cut_set )
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{
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sw len = 0;
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char* start_pos = Data;
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char* end_pos = Data + length() - 1;
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while ( start_pos <= end_pos && char_first_occurence( cut_set, *start_pos ) )
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start_pos++;
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while ( end_pos > start_pos && char_first_occurence( cut_set, *end_pos ) )
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end_pos--;
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len = scast( sw, ( start_pos > end_pos ) ? 0 : ( ( end_pos - start_pos ) + 1 ) );
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if ( Data != start_pos )
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mem_move( Data, start_pos, len );
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Data[ len ] = '\0';
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get_header().Length = len;
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}
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void trim_space()
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{
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return trim( " \t\r\n\v\f" );
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}
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// Debug function that provides a copy of the string with whitespace characters visualized.
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String visualize_whitespace() const
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{
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Header* header = (Header*)(Data - sizeof(Header));
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String result = make_reserve(header->Allocator, length() * 2); // Assume worst case for space requirements.
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for ( char c : *this )
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{
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switch ( c )
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{
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case ' ':
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result.append( txt("·") );
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break;
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case '\t':
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result.append( txt("→") );
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break;
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case '\n':
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result.append( txt("↵") );
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break;
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case '\r':
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result.append( txt("⏎") );
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break;
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case '\v':
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result.append( txt("⇕") );
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break;
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case '\f':
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result.append( txt("⌂") );
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break;
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default:
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result.append(c);
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break;
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}
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}
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return result;
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}
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// For-range support
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char* begin() const
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{
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return Data;
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}
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char* end() const
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{
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Header const&
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header = * rcast( Header const*, Data - sizeof( Header ));
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return Data + header.Length;
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}
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operator bool()
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{
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return Data != nullptr;
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}
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operator char* ()
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{
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return Data;
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}
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operator char const* () const
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{
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return Data;
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}
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operator StrC() const
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{
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return { length(), Data };
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}
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// Used with cached strings
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// Essentially makes the string a string view.
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String const& operator = ( String const& other ) const
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{
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if ( this == & other )
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return *this;
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String& this_ = ccast( String, *this );
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this_.Data = other.Data;
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return this_;
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}
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char& operator [] ( sw index )
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{
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return Data[ index ];
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}
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char const& operator [] ( sw index ) const
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{
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return Data[ index ];
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}
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char* Data;
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};
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struct String_POD
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{
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char* Data;
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};
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static_assert( sizeof( String_POD ) == sizeof( String ), "String is not a POD" );
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// Implements basic string interning. Data structure is based off the ZPL Hashtable.
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using StringTable = HashTable<String const>;
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// Represents strings cached with the string table.
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// Should never be modified, if changed string is desired, cache_string( str ) another.
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using StringCached = String const;
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#pragma endregion Strings
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