ed/gencpp
1
0
Fork 0
mirror of https://github.com/Ed94/gencpp.git synced 2024-09-20 11:27:32 -07:00
Code Issues Packages Projects Releases Wiki Activity

Gutting test code, going to be just doing it proeprly when the library upfornt api is done.

Browse Source
This commit is contained in:
Edward R. Gonzalez 2023-04-09 14:51:37 -04:00
parent 56d7aa1d72
commit f3b5e90ddc
9 changed files with 15 additions and 770 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

3
test/Array.cpp
View File

@ -1,3 +0,0 @@
#include Array.cpp

660
test/Array.hpp
View File

@ -1,660 +0,0 @@
/*
This is based of the array container implementation in the zpl.h library.
This specific header has two implementations of the array generator;
One showing use of the gen api directly, the other using it's DSL.
*/
#pragma once
#include "Bloat.hpp"
#include "gen.hpp"
#ifdef gen_time
Code gen__array_base()
{
# ifndef GEN_DEFINE_DSL
using namespace gen;
Code t_allocator = def_type( txt(allocator) );
Code header;
{
Code num = def_variable( t_uw, "Num" );
Code capacity = def_variable( t_uw, "Capacity" );
Code allocator_var = def_variable( t_allocator, "Allocator" );
Code header_body = def_struct_body( 3, num, capacity, allocator_var );
header = def_struct( "ArrayHeader", header_body );
}
Code grow_formula;
{
Code spec = def_specifiers(1, ESpecifier::Inline);
Code params = def_params(1, t_uw, "value" );
Code body = untyped_str( txt( return 2 * value * 8; ) );
grow_formula = def_function( "grow_formula", spec, params, t_sw, body );
}
Code body = def_struct_body(2, header, grow_formula);
Code ArrayBase = def_struct( "ArrayBase", body );
# else
Code t_allocator = type( allocator );
Code Header;
{
Code Num = variable( uw, Num, );
Code Capacity = variable( uw, Capacity );
Code Allocator = variable( allocator, Allocator );
Code body = struct_body( Num, Capacity, Allocator );
Header = struct( Header, __, __, body );
}
Code test = params( uw, value );
Code grow_formula = function( grow_formula, params( uw, value ), uw, spec_inline,
code_str( return 2 * value * 8 )
);
Code ArrayBase = struct( ArrayBase, __, __, struct_body( Header, grow_formula ) );
# endif
return ArrayBase;
}
Code gen__array( char const* type_str, s32 type_size, Code parent )
{
# ifndef GEN_DEFINE_DSL
// Make these global consts to be accessed anywhere...
Code t_allocator = def_type( txt(allocator) );
Code v_nullptr = untyped_str( "nullptr" );
Code spec_ct = def_specifiers(1, ESpecifier::Constexpr );
Code type = def_type( type_str );
Code ptr_type = def_type( bprintf( "%s*", type_str ) );
Code ref_type = def_type( bprintf( "%s&", type_str ) );
// From ArrayBase
Code t_header = def_type( "Header" );
Code ptr_header = def_type( "Header*" );
Code ref_header = def_type( "Header&" );
Code array_def;
{
Code using_type = def_using( "Type", type );
Code data = def_variable( ptr_type, "Data" );
// This getter is used often in all the member procedures
Code header = def_variable( ref_header, "header", untyped_str( txt( get_header() )));
Code init;
{
Code params = def_params( 1, t_allocator, "mem_handler" );
Code body = untyped_str( txt( return init_reserve( mem_handler, grow_formula(0) ); ) );
init = def_function( "init", UnusedCode, params, t_bool, body );
}
Code init_reserve;
{
Code params = def_params( 2, t_allocator, "mem_handler", t_sw, "capacity" );
Code body;
{
Code header_value = untyped_str( txt(
rcast( Header*, alloc( mem_handler, sizeof( Header ) + sizeof(Type) + capacity ))
));
Code header = def_variable( ptr_header, "header", header_value );
Code null_check = untyped_str( txt(
if (header == nullptr)
return false;
));
Code header_init = untyped_str( txt(
header->Num = 0;
header->Capacity = capacity;
header->Allocator = mem_handler;
));
Code assign_data = untyped_fmt(
"Data = rcast( %s, header + 1 );", ptr_type
);
Code ret_true = untyped_str( txt(
return true
));
body = def_function_body( 5
, header
, null_check
, header_init
, assign_data
, ret_true
);
}
init_reserve = def_function( "init_reserve", UnusedCode, params, t_bool, body );
}
Code free;
{
Code body = untyped_str( txt(
Header& header = get_header();
::free( header.Allocator, & get_header() );
));
free = def_function( "free", UnusedCode, UnusedCode, t_void, body );
}
Code append = make_function( "append" );
{
append->add( def_params( 1, type, "value") );
append->add( t_bool );
Code
body = append.body();
body->add(
untyped_str( txt(
if ( header.Capacity < header.Num + 1 )
if ( ! grow(0) )
return false;
))
);
body->add( untyped_str( txt(
Data[ header.Num ] = value;
header.Num++;
return true;
)));
append->check();
}
Code back;
{
Code body = untyped_str( txt(
Header& header = get_header();
return data[ header.Num - 1 ];
));
back = def_function( "back", UnusedCode, UnusedCode, type, body );
}
Code clear;
{
Code body = untyped_str( txt( get_header().Num = 0; ));
clear = def_function( "clear", UnusedCode, UnusedCode, t_void, body );
}
Code fill;
{
Code params = def_params( 3, t_uw, "begin", t_uw, "end", type, "value" );
Code body;
{
Code check = untyped_str( txt(
if ( begin < 0 || end >= header.Num )
fatal( "Range out of bounds" );
));
Code iter = untyped_str( txt(
for ( sw index = begin; index < end; index++ )
Data[index] = vallue;
));
body = def_function_body( 3, header, check, iter );
}
fill = def_function( "fill", UnusedCode, params, t_void, body );
}
Code get_header;
{
Code body = untyped_str( txt( return pcast( Header, Data - 1 ); ));
get_header = def_function( "get_header", spec_inline, UnusedCode, ref_header, body );
}
Code grow;
{
Code param = def_params( 1, t_uw, "min_capacity" );
Code body;
{
Code new_capacity = def_variable( t_uw, "new_capacity", untyped_str("grow_formula( header.Capacity )") );
Code check_n_set = untyped_str( txt(
if ( new_capacity < min_capacity )
new_capacity = min_capacity;
));
Code ret = untyped_str( "return set_capacity( new_capacity );" );
body = def_function_body( 4, header, new_capacity, check_n_set, ret );
}
grow = def_function( "grow", UnusedCode, param, t_bool, body );
}
Code pop;
{
Code body;
{
Code assertion = untyped_str( "assert( header.Num > 0 );" );
Code decrement = untyped_str( "header.Num--; " );
body = def_function_body( 3, header, assertion, decrement );
}
pop = def_function( "pop", UnusedCode, UnusedCode, t_void, body );
}
Code reserve;
{
Code params = def_params( 1, t_uw, "new_capacity" );
Code body;
{
Code check_n_set = untyped_str(
"if ( header.Capacity < new_capacity )"
"\n" "return set_capacity( new_capacity );"
);
Code ret = untyped_str( "\t" "return true" );
body = def_function_body( 3, header, check_n_set, ret );
}
reserve = def_function( "reserve", UnusedCode, params, t_bool, body );
}
Code resize;
{
Code param = def_params( 1, t_uw, "new_num" );
Code body;
{
Code check_n_grow = untyped_str( txt(
if ( header.Capacity < new_num )
if ( ! grow( new_num) )
return false;
));
Code set_n_ret = untyped_str(
"header.Count = new_num;"
"\n""return true;"
);
body = def_function_body( 3, header, check_n_grow, set_n_ret );
}
resize = def_function( "resize", UnusedCode, param, t_bool, body );
}
Code set_capacity = parse_proc( txt_with_length(
bool set_capacity( sw new_capacity )
{
Header& header = get_header();
if ( capacity == header.Capacity )
return true;
if ( capacity < header.Num )
header.Num = capacity;
sw size = sizeof(Header) + sizeof(Type) * capacity;
Header* new_header = rcast( Header* alloc( header.Allocator, size ));
if ( new_header == nullptr )
return false;
memmove( new_header, & header, sizeof( Header ) + sizeof(Type) * header.Num );
new_header->Allocator = header.Allocator;
new_header->Num = header.Num;
new_header->Capacity = header.Capacity;
free( header );
*Data = new_header + 1;
return true;
}
));
string name = bprintf( "Array_%s", type_str );
Code body = def_struct_body( 15
, using_type
, data
, init
, init_reserve
, append
, back
, clear
, fill
, free
, get_header
, grow
, pop
, reserve
, resize
, set_capacity
);
array_def = def_struct( name, body, parent );
}
# else
type( allocator );
Code v_nullptr = code_str( nullptr );
Code t_elem_type = def_type( type_str );
Code t_ptr_type = def_type( type_str, spec_ptr );
Code t_ref_type = type_fmt( type_str, spec_ref );
// From ArrayBase
Code t_Header = type( Header );
Code t_ref_Header = type( ref_Header, spec_ref );
Code t_ptr_Header = type( ptr_Header, spec_ptr );
# pragma push_macro("rcast")
# undef rcast
Code array_def;
{
Code Type = using( Type, elem_type );
Code Data = variable( ptr_type, Data );
Code header = variable( ref_Header, header, code_str(get_header()) );
Code init;
{
Code body = function_body( code_str(
return init_reserve( mem_handler, grow_formula(0) );
));
init = function( init, params( allocator, mem_handler ), bool, __, body );
}
make( function, init_reserve, params( ref_type, mem_handler ), bool, __);
{
Code
body = init_reserve.body();
body->add( variable( ptr_Header, header,
code_str( rcast( Header*, alloc( mem_handler, sizeof(Header) + sizeof(Type) + capacity)) )
) );
body->add( code_str(
if (header == nullptr)
return false;
));
body->add( code_str(
header->Num = 0;
header->Capacity = capacity;
header->Allocator = mem_handler;
));
body->add( code_str(
Data = rcast( Type*, header + 1 );
return true;
));
}
Code free = function( free, __, void, __, code_str(
Header& header = get_header();
free( header.Allocator, & get_header() );
));
make( function, append )
{
append->add( params( elem_type, value) );
append->add( type( void ) );
Code
body = append.body();
body->add( code_str(
if ( header.Capacity < header.Num + 1 )
if ( ! grow(0) )
return false;
));
body->add( code_str(
Data[ header.Num ] = value;
header.Num++;
return true;
));
}
Code back;
{
Code body = code_str(
Header& header = get_header();
return data[ header.Num - 1 ];
);
back = function( back, __, elem_type, __, body );
}
Code clear;
function( clear, __, t_void, __, untyped_str("get_header().Num = 0;") );
Code fill;
{
Code check = code_str(
if ( begin < 0 || end >= header.Num )
fatal( "Range out of bounds" );
);
Code iter = code_str(
for ( sw index = begin; index < end; index++ )
Data[index] = vallue;
);
Code body = function_body( header, check, iter );
fill = function( fill, params( uw, begin, uw, end, elem_type, value ), void, __, body );
}
Code get_header;
function( get_header, __, ref_Header, spec_inline, code_str( return pcast( Header, Data - 1); ) );
Code test = function( test, __, void, __, __ );
Code grow;
{
Code body;
{
variable( uw, new_capacity, code_str( grow_formula( header.Capacity) ));
Code check_n_set = code_str(
if ( new_capacity < min_capacity )
new_capacity = min_capacity;
);
Code ret = code_str( return set_capacity( new_capacity ); );
body = function_body( header, new_capacity, check_n_set, ret );
}
grow = function( grow, params( uw, min_capacity ), bool, body );
}
Code pop;
{
Code assertion = code_str( assert( header.Num > 0 ); );
Code decrement = code_str( header.Num--; );
Code body = function_body( header, assertion, decrement );
pop = function( pop, __, void, __, body );
}
Code reserve;
{
Code check_n_set = code_str(
if ( header.Capacity < new_capacity )
return set_capacity( new_capacity );
);
Code ret = code_str( return true );
Code body = function_body( header, check_n_set, ret );
reserve = function( reserve, params( uw, new_capacity ), bool, __, body );
}
Code resize;
{
Code body;
{
Code check_n_grow = code_str(
if ( header.Capacity < new_num )
if ( ! grow( new_num) )
return false;
);
Code set_n_ret = code_str(
header.Count = new_num;
return true;
);
body = function_body( header, check_n_grow, set_n_ret );
}
resize = function( resize, params( uw, new_num ), bool, __, body );
}
Code set_capacity = function_code(
bool set_capacity( new_capacity )
{
Header& header = get_header();
if ( capacity == header.Capacity )
return true;
if ( capacity < header.Num )
header.Num = capacity;
uw size = sizeof(Header) + sizeof(Type) * capacity;
Header* new_header = rcast( Header*, alloc( header.Allocator, size ));
if ( new_header == nullptr )
return false;
memmove( new_header, & header, sizeof( Header ) + sizeof(Type) * header.Num );
new_header->Allocator = header.Allocator;
new_header->Num = header.Num;
new_header->Capacity = header.Capacity;
free( header );
*Data = new_header + 1;
return true;
}
);
char const* name = bprintf( "Array_%s", type_str );
Code body = struct_body(
Type
, Data
, init
, init_reserve
, append
, back
, clear
, fill
, free
, get_header
, grow
, pop
, reserve
, resize
, set_capacity
);
array_def = struct( name, parent, body );
}
# pragma pop_macro("rcast")
# endif
return array_def;
}
struct ArrayRequest
{
char const* Name;
sw Size;
};
array(ArrayRequest) UserArrayGenQueue;
#define gen_array( Type_ ) add_gen_array_request( #Type_, sizeof(Type_) )
void add_gen_array_request( const char* type_str, sw type_size )
{
ArrayRequest request = { type_str, type_size };
array_append( UserArrayGenQueue, request );
}
u32 gen_array_file()
{
Code a_base = gen__array_base();
add_gen_array_request( "u32", sizeof(u32) );
gen_array( char const* );
array(Code) array_asts;
array_init( array_asts, g_allocator );
sw left = array_count( UserArrayGenQueue );
sw index = 0;
while( left -- )
{
ArrayRequest request = UserArrayGenQueue[index];
Code result = gen__array( request.Name, request.Size, a_base );
array_append( array_asts, result );
}
Builder
arraygen;
arraygen.open( "Array.gen.hpp" );
left = array_count( array_asts );
index = 0;
while( left-- )
{
Code code = array_asts[index];
arraygen.print( code );
}
arraygen.write();
return 0;
}
#endif
#ifndef gen_time
# include "Array.gen.hpp"
# define array( Type_ ) array_##Type_
#endif

8
test/c99/meson.build
View File

@ -2,10 +2,10 @@ project( 'test', 'c', default_options : ['buildtype=debug'] )
# add_global_arguments('-E', language : 'cpp')
includes = include_directories(
[
includes = include_directories(
[
'../gen',
'../../singleheader'
'../../singleheader'
])
# get_sources = files('./get_sources.ps1')
@ -19,4 +19,6 @@ if get_option('buildtype').startswith('debug')
endif
add_project_arguments('-Dgentime', language : ['c', 'cpp'])
executable( 'test_c99', sources, include_directories : includes )

2
test/c99/table.h
View File

@ -5,7 +5,7 @@
typedef u64(*)(void*) HashingFn;
#if gen_time
# define gen_table( Type_, HashingFn_ ) gen_request_table( #Type_, sizeof(Type_), HashingFn_ )
# define gen_table( Type_, HashingFn_ ) gen_request_table( #Type_, sizeof(Type_), HashingFn_ )
u64 table_default_hash_fn( void* address )
{

2
test/gen/meson.build
View File

@ -22,6 +22,6 @@ endif
# add_project_arguments('-E', language : ['c', 'cpp'])
# add_global_arguments( '-E', language : ['cpp'])
add_project_arguments('-Dgen_time', language : ['c', 'cpp'])
add_project_arguments('-Dgentime', language : ['c', 'cpp'])
executable( 'gencpp', sources, include_directories : includes )

86
test/math.hpp
View File

@ -1,86 +0,0 @@
#pragma once
#include "Bloat.hpp"
#include "gen.hpp"
#ifdef gen_time
using namespace gen;
char* sprintf_buf[ZPL_PRINTF_MAXLEN];
/*
What it should generate:
inline
type square( type value )
{
return value * value;
}
*/
#define gen_square( Type_ ) gen__square( #Type_ )
Code gen__square( char const* type )
{
Code t_integral_type = def_type( type );
#ifndef GEN_DEFINE_DSL
string name = string_sprintf( g_allocator, (char*)sprintf_buf, ZPL_PRINTF_MAXLEN, "square", type );
#if 1
Code square;
{
Code params = def_params( 1, integral_type, "value" );
Code specifiers = def_specifiers( 1, SpecifierT::Inline );
Code ret_stmt = untyped_str( txt( return value * value; ));
square = def_function( name, specifiers, params, integral_type, ret_stmt );
}
#else
// Test of token template str.
char const* tmpl = txt(
{type} square( {type} value )
{
return value * value;
}
);
char const* gen_code = token_fmt( tmpl, 1, "type", type );
Code square = parse_function(gen_code, strlen(gen_code));
#endif
#else
Code square = function( square, params( integral_type, value), integral_type, __,
code_str(return value * value)
);
#endif
if ( ! square )
fatal( "Failed to generate square function for: %s", type );
return square;
}
u32 gen_math()
{
Code fadd_u8 = gen_square( u8 );
Code fadd_u16 = gen_square( u16 );
Code fadd_u32 = gen_square( u32 );
Code fadd_u64 = gen_square( u64 );
Builder
mathgen;
mathgen.open( "math.gen.hpp" );
mathgen.print( fadd_u8 );
mathgen.print( fadd_u16 );
mathgen.print( fadd_u32 );
mathgen.print( fadd_u64 );
mathgen.write();
return 0;
}
#endif
#ifndef gen_time
# include "math.gen.hpp"
# undef square
#endif

8
test/meson.build
View File

@ -2,11 +2,11 @@ project( 'test', 'c', 'cpp', default_options : ['buildtype=debug'] )
# add_global_arguments('-E', language : 'cpp')
includes = include_directories(
[
includes = include_directories(
[
'./gen',
'../project',
'../thirdparty'
'../thirdparty'
])
# get_sources = files('./get_sources.ps1')
@ -20,4 +20,6 @@ if get_option('buildtype').startswith('debug')
endif
add_project_arguments('-Druntime', language : ['c', 'cpp'])
executable( 'testcpp', sources, include_directories : includes )

16
test/test.cpp
View File

@ -1,9 +1,7 @@
#include "Bloat.cpp"
#include "math.hpp"
#include "Array.hpp"
#ifdef gen_time
#ifdef gentime
#include "gen.cpp"
int gen_main()
@ -15,23 +13,15 @@ int gen_main()
gen::init();
int
result = gen_math();
// result = gen_array_file();
Memory::cleanup();
return result;
}
#endif
#ifndef gen_time
#include "math.hpp"
#ifdef runtime
int main()
{
u32 result = square( 5U );
zpl_printf("TEST RESULT: %d", result);
return 0;
}
#endif

0
test/test.singleheader.cpp
View File