gencpp/test/_old/parsed/Array.Parsed.hpp

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#pragma once
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#if GEN_TIME
#define GEN_DEFINE_LIBRARY_CODE_CONSTANTS
#define GEN_ENFORCE_STRONG_CODE_TYPES
#define GEN_EXPOSE_BACKEND
#define GEN_BENCHMARK
#include "gen.hpp"
using namespace gen;
Code gen__array_base()
{
return parse_global_body( code(
struct ArrayHeader
{
AllocatorInfo Allocator;
uw Capacity;
uw Num;
};
static inline uw array_grow_formula( uw value )
{
return 2 * value * 8;
}
));
}
Code gen__array( StrC type )
{
StrC name;
{
char const* name_str = str_fmt_buf( "Array_%s\0", type.Ptr );
s32 name_len = str_len( name_str );
name = { name_len, name_str };
};
CodeStruct array = parse_struct( token_fmt( "ArrayType", name, "type", type,
stringize(
struct <ArrayType>
{
using Header = ArrayHeader;
using Type = <type>;
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static constexpr auto grow_formula = &array_grow_formula;
static
<ArrayType> init( AllocatorInfo allocator )
{
return init_reserve( allocator, grow_formula(0) );
}
static
<ArrayType> init_reserve( AllocatorInfo allocator, sw capacity )
{
Header* header = rcast( Header*, alloc( allocator, sizeof(Header) + sizeof(Type) ));
if ( header == nullptr )
return { nullptr };
header->Allocator = allocator;
header->Capacity = capacity;
header->Num = 0;
return { rcast( Type*, header + 1) };
}
bool append( Type value )
{
Header& header = get_header();
if ( header.Num == header.Capacity )
{
if ( ! grow( header.Capacity ))
return false;
}
Data[ header.Num ] = value;
header.Num++;
return true;
}
Type& back( void )
{
Header& header = get_header();
return Data[ header.Num - 1 ];
}
void clear( void )
{
Header& header = get_header();
header.Num = 0;
}
bool fill( uw begin, uw end, Type value )
{
Header& header = get_header();
if ( begin < 0 || end >= header.Num )
return false;
for ( sw idx = begin; idx < end; idx++ )
{
Data[ idx ] = value;
}
return true;
}
void free( void )
{
Header& header = get_header();
gen::free( header.Allocator, &header );
}
Header& get_header( void )
{
return *( reinterpret_cast< Header* >( Data ) - 1 );
}
bool grow( uw min_capacity )
{
Header& header = get_header();
uw new_capacity = grow_formula( header.Capacity );
if ( new_capacity < min_capacity )
new_capacity = 8;
return set_capacity( new_capacity );
}
uw num( void )
{
return get_header().Num;
}
bool pop( void )
{
Header& header = get_header();
GEN_ASSERT( header.Num > 0 );
header.Num--;
}
void remove_at( uw idx )
{
Header* header = &get_header();
GEN_ASSERT( idx < header->Num );
mem_move( header + idx, header + idx + 1, sizeof( Type ) * ( header->Num - idx - 1 ) );
header->Num--;
}
bool reserve( uw new_capacity )
{
Header& header = get_header();
if ( header.Capacity < new_capacity )
return set_capacity( new_capacity );
return true;
}
bool resize( uw num )
{
Header& header = get_header();
if ( num > header.Capacity )
{
if ( ! grow( header.Capacity ) )
return false;
}
header.Num = num;
return true;
}
bool set_capacity( uw new_capacity )
{
Header& header = get_header();
if ( new_capacity == header.Capacity )
return true;
if ( new_capacity < header.Num )
header.Num = new_capacity;
sw size = sizeof( Header ) + sizeof( Type ) * new_capacity;
Header* new_header = rcast( Header*, alloc( header.Allocator, size ) );
if ( new_header == nullptr )
return false;
mem_move( new_header, &header, sizeof( Header ) + sizeof( Type ) * header.Num );
new_header->Allocator = header.Allocator;
new_header->Num = header.Num;
new_header->Capacity = new_capacity;
gen::free( header.Allocator, &header );
Data = ( Type* )new_header + 1;
return true;
}
Type* Data;
operator Type*()
{
return Data;
}
};
)
));
return array;
}
struct GenArrayRequest
{
StrC Dependency;
StrC Type;
};
Array<GenArrayRequest> GenArrayRequests;
void gen__array_request( StrC type, StrC dep = {} )
{
do_once_start
GenArrayRequests = Array<GenArrayRequest>::init( GlobalAllocator );
do_once_end
// Make sure we don't already have a request for the type.
for ( sw idx = 0; idx < GenArrayRequests.num(); ++idx )
{
StrC const reqest_type = GenArrayRequests[ idx ].Type;
if ( reqest_type.Len != type.Len )
continue;
if ( str_compare( reqest_type.Ptr, type.Ptr, reqest_type.Len ) == 0 )
return;
}
GenArrayRequest request = { dep, type };
GenArrayRequests.append( request );
}
#define gen_array( type ) gen__array_request( code(type) )
u32 gen_array_file()
{
Builder
gen_array_file;
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gen_array_file.open( "array.Parsed.gen.hpp" );
Code include_gen = def_include( txt("gen.hpp") );
gen_array_file.print( include_gen );
gen_array_file.print( def_using_namespace( name(gen)));
Code array_base = gen__array_base();
gen_array_file.print( array_base );
GenArrayRequest* current = GenArrayRequests;
s32 left = GenArrayRequests.num();
while (left--)
{
GenArrayRequest const& request = * current;
Code generated_array = gen__array( request.Type );
if ( request.Dependency )
{
char const* cmt_str = str_fmt_buf( "// Dependency for %s type", request.Type );
s32 cmt_len = str_len( cmt_str );
Code cmt = def_comment( { cmt_len, cmt_str } );
Code include = def_include( request.Dependency );
gen_array_file.print( cmt );
gen_array_file.print( include );
}
gen_array_file.print( generated_array );
current++;
}
gen_array_file.write();
return 0;
}
#endif