More dependency movement from zpl, incremental design improvements.

Made token_fmt more ergonomic, going to have to use a similar behavior with the upfront body constructors.
This commit is contained in:
Edward R. Gonzalez 2023-07-12 01:33:11 -04:00
parent 20d307759b
commit 7828e6d2ea
26 changed files with 2009 additions and 739 deletions

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@ -1,84 +0,0 @@
import lldb
class String_SyntheticChildrenProvider:
def __init__(self, valobj, internal_dict):
self.valobj = valobj
def num_children(self):
return 3
def get_child_index(self, name):
if name == "Data":
return 0
if name == "Length":
return 1
if name == "Capacity":
return 2
return None
def get_child_at_index(self, index):
if index == 0:
return self.valobj.GetChildMemberWithName("Data")
data = self.valobj.GetChildMemberWithName("Data")
header_ptr = data.GetValueAsUnsigned() - 16
target = self.valobj.GetTarget()
header_type = target.FindFirstType("gen::String::Header")
header = self.valobj.CreateValueFromAddress("Header", header_ptr, header_type)
if index == 1:
return header.GetChildMemberWithName("Length")
if index == 2:
return header.GetChildMemberWithName("Capacity")
return None
def update(self):
pass
def list_synthetic_providers(debugger):
print("Listing synthetic providers (start)")
num_categories = debugger.GetNumCategories()
print("Debugger language categories count:", num_categories)
cpp_category = None
for i in range(num_categories):
print("WERE HERE")
print(debugger)
cat = debugger.GetCategoryAtIndex(i)
print("Category name: {}, language: {}".format(cat.GetName(), cat.GetLanguage()))
if cat.GetLanguage() == lldb.eLanguageTypeC_plus_plus:
cpp_category = cat
break
if not cpp_category:
print("Could not get C++ category")
return
synthetic_providers = cpp_category.GetSyntheticChildren()
if not synthetic_providers:
print("Could not get synthetic children")
return
num_providers = synthetic_providers.GetSize()
print("Number of synthetic providers:", num_providers)
for i in range(num_providers):
provider = synthetic_providers.GetSyntheticChildAtIndex(i)
print("Provider regex: {}, class name: {}".format(provider.GetRegex(), provider.GetDescription()))
print("Listing synthetic providers (finish)")
def __lldb_init_module(debugger, internal_dict):
print("Importing the String visualization")
debugger.HandleCommand("type synthetic add -x '^gen::String$' -l gencpp_libvis.String_SyntheticChildrenProvider")
print("Before list_synthetic_providers")
list_synthetic_providers(debugger)
lldb.debugger = None

12
.vscode/launch.json vendored
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@ -12,7 +12,6 @@
"args": [], "args": [],
"cwd": "${workspaceFolder}/test/gen/", "cwd": "${workspaceFolder}/test/gen/",
"postRunCommands": [ "postRunCommands": [
"command script import \"${workspaceFolder}/.vscode/gencpp_lldbvis.py\""
] ]
}, },
{ {
@ -22,16 +21,7 @@
"program": "${workspaceFolder}/test/gen/build/gencpp.exe", "program": "${workspaceFolder}/test/gen/build/gencpp.exe",
"args": [], "args": [],
"cwd": "${workspaceFolder}/test/gen/", "cwd": "${workspaceFolder}/test/gen/",
"visualizerFile": "${workspaceFolder}/.vscode/gencpp.natvis" "visualizerFile": "${workspaceFolder}/scripts/gencpp.natvis"
},
{
"type": "cppvsdbg",
"request": "launch",
"name": "Debug gentime parsed vsdbg",
"program": "${workspaceFolder}/test/gen/build/gencpp_parsed.exe",
"args": [],
"cwd": "${workspaceFolder}/test/gen/",
"visualizerFile": "${workspaceFolder}/.vscode/gencpp.natvis"
} }
] ]
} }

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@ -204,7 +204,7 @@ Data layout of AST struct:
```cpp ```cpp
union { union {
AST* ArrStatic[AST::ArrS_Cap]; AST* ArrStatic[AST::ArrS_Cap];
Array<AST*> ArrDyn; Array< AST* > ArrDyn;
StringCached Content; StringCached Content;
SpecifierT ArrSpecs[AST::ArrSpecs_Cap]; SpecifierT ArrSpecs[AST::ArrSpecs_Cap];
}; };

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@ -113,12 +113,12 @@
<ClInclude Include="project\Bloat.hpp" /> <ClInclude Include="project\Bloat.hpp" />
<ClInclude Include="project\gen.hpp" /> <ClInclude Include="project\gen.hpp" />
<ClInclude Include="test\DummyInclude.hpp" /> <ClInclude Include="test\DummyInclude.hpp" />
<ClInclude Include="test\NonParsed\Array.NonParsed.hpp" /> <ClInclude Include="test\Upfront\Array.Upfront.hpp" />
<ClInclude Include="test\NonParsed\Buffer.NonParsed.hpp" /> <ClInclude Include="test\Upfront\Buffer.Upfront.hpp" />
<ClInclude Include="test\NonParsed\HashTable.NonParsed.hpp" /> <ClInclude Include="test\Upfront\HashTable.Upfront.hpp" />
<ClInclude Include="test\NonParsed\Memory.NonParsed.hpp" /> <ClInclude Include="test\Upfront\Memory.Upfront.hpp" />
<ClInclude Include="test\NonParsed\Ring.NonParsed.hpp" /> <ClInclude Include="test\Upfront\Ring.Upfront.hpp" />
<ClInclude Include="test\NonParsed\Sanity.NonParsed.hpp" /> <ClInclude Include="test\Upfront\Sanity.Upfront.hpp" />
<ClInclude Include="test\Parsed\Array.Parsed.hpp" /> <ClInclude Include="test\Parsed\Array.Parsed.hpp" />
<ClInclude Include="test\Parsed\Sanity.Parsed.hpp" /> <ClInclude Include="test\Parsed\Sanity.Parsed.hpp" />
<ClInclude Include="thirdparty\zpl.h" /> <ClInclude Include="thirdparty\zpl.h" />
@ -129,7 +129,7 @@
<ClCompile Include="singleheader\gen\gen.singleheader.cpp" /> <ClCompile Include="singleheader\gen\gen.singleheader.cpp" />
<ClCompile Include="test\gen\build\meson-private\sanitycheckc.c" /> <ClCompile Include="test\gen\build\meson-private\sanitycheckc.c" />
<ClCompile Include="test\gen\build\meson-private\sanitycheckcpp.cc" /> <ClCompile Include="test\gen\build\meson-private\sanitycheckcpp.cc" />
<ClCompile Include="test\test.NonParsed.cpp" /> <ClCompile Include="test\test.Upfront.cpp" />
<ClCompile Include="test\test.Parsed.cpp" /> <ClCompile Include="test\test.Parsed.cpp" />
</ItemGroup> </ItemGroup>
<ItemGroup> <ItemGroup>

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@ -50,7 +50,7 @@
<ClInclude Include="thirdparty\zpl.h"> <ClInclude Include="thirdparty\zpl.h">
<Filter>Header Files</Filter> <Filter>Header Files</Filter>
</ClInclude> </ClInclude>
<ClInclude Include="test\NonParsed\Sanity.hpp"> <ClInclude Include="test\Upfront\Sanity.hpp">
<Filter>Header Files</Filter> <Filter>Header Files</Filter>
</ClInclude> </ClInclude>
</ItemGroup> </ItemGroup>

File diff suppressed because it is too large Load Diff

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@ -9,7 +9,7 @@
# define ZPL_IMPLEMENTATION # define ZPL_IMPLEMENTATION
#endif #endif
// TODO: This will be removed when making the library have zero dependencies. // TODO : This will be removed when making the library have zero dependencies.
#pragma region ZPL INCLUDE #pragma region ZPL INCLUDE
#if __clang__ #if __clang__
# pragma clang diagnostic push # pragma clang diagnostic push
@ -27,10 +27,16 @@
# define ZPL_MODULE_HASHING # define ZPL_MODULE_HASHING
#include "zpl.h" #include "zpl.h"
#undef Array
#undef heap
#undef alloc_item #undef alloc_item
#undef alloc_array #undef alloc_array
#undef Array
#undef heap
#undef malloc
#undef mfree
#undef ZPL_ASSERT_MSG
#undef ZPL_ASSERT_NOT_NULL
#undef ZPL_DEBUG_TRAP
#undef ZPL_PANIC
using zpl::b32; using zpl::b32;
using zpl::s8; using zpl::s8;
@ -38,12 +44,15 @@ using zpl::s16;
using zpl::s32; using zpl::s32;
using zpl::s64; using zpl::s64;
using zpl::u8; using zpl::u8;
using zpl::u16;
using zpl::u32; using zpl::u32;
using zpl::u64; using zpl::u64;
using zpl::uw; using zpl::uw;
using zpl::sw; using zpl::sw;
using zpl::sptr; using zpl::sptr;
using zpl::uptr; using zpl::uptr;
using zpl::f32;
using zpl::f64;
// using zpl::AllocType; // using zpl::AllocType;
// using zpl::Arena; // using zpl::Arena;
@ -63,39 +72,40 @@ using zpl::uptr;
// using zpl::ZPL_ALLOCATOR_FLAG_CLEAR_TO_ZERO; // using zpl::ZPL_ALLOCATOR_FLAG_CLEAR_TO_ZERO;
using zpl::align_forward; // using zpl::align_forward;
using zpl::align_forward_i64; // using zpl::align_forward_i64;
// using zpl::alloc; // using zpl::alloc;
// using zpl::alloc_align; // using zpl::alloc_align;
// using zpl::arena_allocator; // using zpl::arena_allocator;
// using zpl::arena_init_from_memory; // using zpl::arena_init_from_memory;
// using zpl::arena_init_from_allocator; // using zpl::arena_init_from_allocator;
// using zpl::arena_free; // using zpl::arena_free;
using zpl::assert_crash; // using zpl::assert_crash;
using zpl::char_first_occurence; // using zpl::char_first_occurence;
using zpl::char_is_alpha; // using zpl::char_is_alpha;
using zpl::char_is_alphanumeric; // using zpl::char_is_alphanumeric;
using zpl::char_is_digit; // using zpl::char_is_digit;
using zpl::char_is_hex_digit; // using zpl::char_is_hex_digit;
using zpl::char_is_space; // using zpl::char_is_space;
using zpl::crc32; // using zpl::crc32;
// using zpl::free_all; // using zpl::free_all;
using zpl::is_power_of_two; // using zpl::is_power_of_two;
using zpl::mem_copy; // using zpl::mem_copy;
using zpl::mem_move; // using zpl::mem_move;
using zpl::mem_set; // using zpl::mem_set;
using zpl::pointer_add; // using zpl::pointer_add;
// using zpl::pool_allocator; // using zpl::pool_allocator;
// using zpl::pool_init; // using zpl::pool_init;
// using zpl::pool_free; // using zpl::pool_free;
using zpl::process_exit; // using zpl::process_exit;
using zpl::str_compare; // using zpl::str_compare;
using zpl::str_copy; // using zpl::str_copy;
using zpl::str_fmt_buf; // using zpl::str_fmt_buf;
using zpl::str_fmt_va; // using zpl::str_fmt_va;
using zpl::str_fmt_out_va; // using zpl::str_fmt_out_va;
using zpl::str_fmt_out_err;
using zpl::str_fmt_out_err_va; using zpl::str_fmt_out_err_va;
using zpl::str_len; // using zpl::str_len;
using zpl::zero_size; using zpl::zero_size;
#if __clang__ #if __clang__
@ -114,6 +124,27 @@ using zpl::zero_size;
#endif #endif
/* Platform compiler */
#if defined( _MSC_VER )
# define ZPL_COMPILER_MSVC 1
#elif defined( __GNUC__ )
# define ZPL_COMPILER_GCC 1
#elif defined( __clang__ )
# define ZPL_COMPILER_CLANG 1
#elif defined( __MINGW32__ )
# define ZPL_COMPILER_MINGW 1
#elif defined( __TINYC__ )
# define ZPL_COMPILER_TINYC 1
#else
# error Unknown compiler
#endif
#ifndef zpl_cast
# define zpl_cast( Type ) ( Type )
#endif
#include "Banned.define.hpp" #include "Banned.define.hpp"
@ -163,8 +194,7 @@ using zpl::zero_size;
#define rcast( Type_, Value_ ) reinterpret_cast< Type_ >( Value_ ) #define rcast( Type_, Value_ ) reinterpret_cast< Type_ >( Value_ )
#define pcast( Type_, Value_ ) ( * (Type_*)( & (Value_) ) ) #define pcast( Type_, Value_ ) ( * (Type_*)( & (Value_) ) )
#define GEN_STRINGIZE_VA( ... ) #__VA_ARGS__ #define GEN_STRINGIZE_VA( ... ) #__VA_ARGS__
#define txt( ... ) GEN_STRINGIZE_VA( __VA_ARGS__ ) #define stringize( ... ) GEN_STRINGIZE_VA( __VA_ARGS__ )
#define txt_to_StrC( ... ) sizeof( GEN_STRINGIZE_VA( __VA_ARGS__ ) ), GEN_STRINGIZE_VA( __VA_ARGS__ )
#define do_once() \ #define do_once() \
do \ do \
{ \ { \
@ -194,7 +224,73 @@ namespace gen
constexpr constexpr
char const* Msg_Invalid_Value = "INVALID VALUE PROVIDED"; char const* Msg_Invalid_Value = "INVALID VALUE PROVIDED";
#pragma region Debug
#ifndef ZPL_DEBUG_TRAP
# if defined( _MSC_VER )
# if _MSC_VER < 1300
# define ZPL_DEBUG_TRAP() __asm int 3 /* Trap to debugger! */
# else
# define ZPL_DEBUG_TRAP() __debugbreak()
# endif
# elif defined( ZPL_COMPILER_TINYC )
# define ZPL_DEBUG_TRAP() process_exit( 1 )
# else
# define ZPL_DEBUG_TRAP() __builtin_trap()
# endif
#endif
#ifndef ZPL_ASSERT_MSG
# define ZPL_ASSERT_MSG( cond, msg, ... ) \
do \
{ \
if ( ! ( cond ) ) \
{ \
assert_handler( #cond, __FILE__, zpl_cast( s64 ) __LINE__, msg, ##__VA_ARGS__ ); \
ZPL_DEBUG_TRAP(); \
} \
} while ( 0 )
#endif
#ifndef ZPL_ASSERT_NOT_NULL
# define ZPL_ASSERT_NOT_NULL( ptr ) ZPL_ASSERT_MSG( ( ptr ) != NULL, #ptr " must not be NULL" )
#endif
// NOTE: Things that shouldn't happen with a message!
#ifndef ZPL_PANIC
# define ZPL_PANIC( msg, ... ) ZPL_ASSERT_MSG( 0, msg, ##__VA_ARGS__ )
#endif
void assert_handler( char const* condition, char const* file, s32 line, char const* msg, ... );
s32 assert_crash( char const* condition );
void process_exit( u32 code );
#pragma endregion Debug
#pragma region Memory #pragma region Memory
//! Checks if value is power of 2.
ZPL_DEF_INLINE b32 is_power_of_two( sw x );
//! Aligns address to specified alignment.
ZPL_DEF_INLINE void* align_forward( void* ptr, sw alignment );
//! Aligns value to a specified alignment.
ZPL_DEF_INLINE s64 align_forward_i64( s64 value, sw alignment );
//! Moves pointer forward by bytes.
ZPL_DEF_INLINE void* pointer_add( void* ptr, sw bytes );
//! Copy non-overlapping memory from source to destination.
void* mem_copy( void* dest, void const* source, sw size );
//! Search for a constant value within the size limit at memory location.
ZPL_DEF void const* mem_find( void const* data, u8 byte_value, sw size );
//! Copy memory from source to destination.
ZPL_DEF_INLINE void* mem_move( void* dest, void const* source, sw size );
//! Set constant value at memory location with specified size.
ZPL_DEF_INLINE void* mem_set( void* data, u8 byte_value, sw size );
enum AllocType : u8 enum AllocType : u8
{ {
@ -246,7 +342,6 @@ namespace gen
# define alloc_array( allocator_, Type, count ) ( Type* )alloc( allocator_, size_of( Type ) * ( count ) ) # define alloc_array( allocator_, Type, count ) ( Type* )alloc( allocator_, size_of( Type ) * ( count ) )
#endif #endif
/* heap memory analysis tools */ /* heap memory analysis tools */
/* define ZPL_HEAP_ANALYSIS to enable this feature */ /* define ZPL_HEAP_ANALYSIS to enable this feature */
/* call zpl_heap_stats_init at the beginning of the entry point */ /* call zpl_heap_stats_init at the beginning of the entry point */
@ -266,17 +361,168 @@ namespace gen
//! The heap allocator backed by operating system's memory manager. //! The heap allocator backed by operating system's memory manager.
constexpr AllocatorInfo heap( void ) { return { heap_allocator_proc, nullptr }; } constexpr AllocatorInfo heap( void ) { return { heap_allocator_proc, nullptr }; }
// #ifndef malloc #ifndef malloc
//! Helper to allocate memory using heap allocator.
# define malloc( sz ) alloc( heap(), sz )
// //! Helper to allocate memory using heap allocator. //! Helper to free memory allocated by heap allocator.
// # define malloc( sz ) ZPL_NS( alloc )( ZPL_NS( heap_allocator )(), sz ) # define mfree( ptr ) free( heap(), ptr )
#endif
// //! Helper to free memory allocated by heap allocator. ZPL_IMPL_INLINE b32 is_power_of_two( sw x )
// # define mfree( ptr ) ZPL_NS( free )( ZPL_NS( heap_allocator )(), ptr ) {
if ( x <= 0 )
return false;
return ! ( x & ( x - 1 ) );
}
// //! Alias to heap allocator. ZPL_IMPL_INLINE void* align_forward( void* ptr, sw alignment )
// # define heap ZPL_NS( heap_allocator ) {
// #endif uptr p;
ZPL_ASSERT( is_power_of_two( alignment ) );
p = zpl_cast( uptr ) ptr;
return zpl_cast( void* )( ( p + ( alignment - 1 ) ) & ~( alignment - 1 ) );
}
ZPL_IMPL_INLINE s64 align_forward_i64( s64 value, sw alignment )
{
return value + ( alignment - value % alignment ) % alignment;
}
ZPL_IMPL_INLINE void* pointer_add( void* ptr, sw bytes )
{
return zpl_cast( void* )( zpl_cast( u8* ) ptr + bytes );
}
ZPL_IMPL_INLINE void* mem_move( void* dest, void const* source, sw n )
{
if ( dest == NULL )
{
return NULL;
}
u8* d = zpl_cast( u8* ) dest;
u8 const* s = zpl_cast( u8 const* ) source;
if ( d == s )
return d;
if ( s + n <= d || d + n <= s ) // NOTE: Non-overlapping
return mem_copy( d, s, n );
if ( d < s )
{
if ( zpl_cast( uptr ) s % size_of( sw ) == zpl_cast( uptr ) d % size_of( sw ) )
{
while ( zpl_cast( uptr ) d % size_of( sw ) )
{
if ( ! n-- )
return dest;
*d++ = *s++;
}
while ( n >= size_of( sw ) )
{
*zpl_cast( sw* ) d = *zpl_cast( sw* ) s;
n -= size_of( sw );
d += size_of( sw );
s += size_of( sw );
}
}
for ( ; n; n-- )
*d++ = *s++;
}
else
{
if ( ( zpl_cast( uptr ) s % size_of( sw ) ) == ( zpl_cast( uptr ) d % size_of( sw ) ) )
{
while ( zpl_cast( uptr )( d + n ) % size_of( sw ) )
{
if ( ! n-- )
return dest;
d[ n ] = s[ n ];
}
while ( n >= size_of( sw ) )
{
n -= size_of( sw );
*zpl_cast( sw* )( d + n ) = *zpl_cast( sw* )( s + n );
}
}
while ( n )
n--, d[ n ] = s[ n ];
}
return dest;
}
ZPL_IMPL_INLINE void* mem_set( void* dest, u8 c, sw n )
{
if ( dest == NULL )
{
return NULL;
}
u8* s = zpl_cast( u8* ) dest;
sw k;
u32 c32 = ( ( u32 )-1 ) / 255 * c;
if ( n == 0 )
return dest;
s[ 0 ] = s[ n - 1 ] = c;
if ( n < 3 )
return dest;
s[ 1 ] = s[ n - 2 ] = c;
s[ 2 ] = s[ n - 3 ] = c;
if ( n < 7 )
return dest;
s[ 3 ] = s[ n - 4 ] = c;
if ( n < 9 )
return dest;
k = -zpl_cast( sptr ) s & 3;
s += k;
n -= k;
n &= -4;
*zpl_cast( u32* )( s + 0 ) = c32;
*zpl_cast( u32* )( s + n - 4 ) = c32;
if ( n < 9 )
return dest;
*zpl_cast( u32* )( s + 4 ) = c32;
*zpl_cast( u32* )( s + 8 ) = c32;
*zpl_cast( u32* )( s + n - 12 ) = c32;
*zpl_cast( u32* )( s + n - 8 ) = c32;
if ( n < 25 )
return dest;
*zpl_cast( u32* )( s + 12 ) = c32;
*zpl_cast( u32* )( s + 16 ) = c32;
*zpl_cast( u32* )( s + 20 ) = c32;
*zpl_cast( u32* )( s + 24 ) = c32;
*zpl_cast( u32* )( s + n - 28 ) = c32;
*zpl_cast( u32* )( s + n - 24 ) = c32;
*zpl_cast( u32* )( s + n - 20 ) = c32;
*zpl_cast( u32* )( s + n - 16 ) = c32;
k = 24 + ( zpl_cast( uptr ) s & 4 );
s += k;
n -= k;
{
u64 c64 = ( zpl_cast( u64 ) c32 << 32 ) | c32;
while ( n > 31 )
{
*zpl_cast( u64* )( s + 0 ) = c64;
*zpl_cast( u64* )( s + 8 ) = c64;
*zpl_cast( u64* )( s + 16 ) = c64;
*zpl_cast( u64* )( s + 24 ) = c64;
n -= 32;
s += 32;
}
}
return dest;
}
ZPL_IMPL_INLINE void* alloc_align( AllocatorInfo a, sw size, sw alignment ) ZPL_IMPL_INLINE void* alloc_align( AllocatorInfo a, sw size, sw alignment )
{ {
@ -338,14 +584,6 @@ namespace gen
} }
} }
// ZPL_IMPL_INLINE AllocatorInfo heap( void )
// {
// AllocatorInfo a;
// a.Proc = heap_allocator_proc;
// a.Data = nullptr;
// return a;
// }
struct Arena struct Arena
{ {
static static
@ -466,9 +704,234 @@ namespace gen
return { allocator_proc, this }; return { allocator_proc, this };
} }
}; };
#pragma endregion Memory #pragma endregion Memory
#pragma region String Ops
ZPL_DEF_INLINE const char* char_first_occurence( const char* str, char c );
ZPL_DEF_INLINE b32 char_is_alpha( char c );
ZPL_DEF_INLINE b32 char_is_alphanumeric( char c );
ZPL_DEF_INLINE b32 char_is_digit( char c );
ZPL_DEF_INLINE b32 char_is_hex_digit( char c );
ZPL_DEF_INLINE b32 char_is_space( char c );
ZPL_DEF_INLINE char char_to_lower( char c );
ZPL_DEF_INLINE char char_to_upper( char c );
ZPL_DEF_INLINE s32 digit_to_int( char c );
ZPL_DEF_INLINE s32 hex_digit_to_int( char c );
ZPL_DEF_INLINE s32 str_compare( const char* s1, const char* s2 );
ZPL_DEF_INLINE s32 str_compare( const char* s1, const char* s2, sw len );
ZPL_DEF_INLINE char* str_copy( char* dest, const char* source, sw len );
ZPL_DEF_INLINE sw str_copy_nulpad( char* dest, const char* source, sw len );
ZPL_DEF_INLINE sw str_len( const char* str );
ZPL_DEF_INLINE sw str_len( const char* str, sw max_len );
ZPL_DEF_INLINE char* str_reverse( char* str ); // NOTE: ASCII only
// NOTE: ASCII only
ZPL_DEF_INLINE void str_to_lower( char* str );
ZPL_DEF_INLINE void str_to_upper( char* str );
s64 str_to_i64( const char* str, char** end_ptr, s32 base ); // TODO : Support more than just decimal and hexadecimal
void i64_to_str( s64 value, char* string, s32 base );
void u64_to_str( u64 value, char* string, s32 base );
ZPL_IMPL_INLINE const char* char_first_occurence( const char* s, char c )
{
char ch = c;
for ( ; *s != ch; s++ )
{
if ( *s == '\0' )
return NULL;
}
return s;
}
ZPL_IMPL_INLINE b32 char_is_alpha( char c )
{
if ( ( c >= 'A' && c <= 'Z' ) || ( c >= 'a' && c <= 'z' ) )
return true;
return false;
}
ZPL_IMPL_INLINE b32 char_is_alphanumeric( char c )
{
return char_is_alpha( c ) || char_is_digit( c );
}
ZPL_IMPL_INLINE b32 char_is_digit( char c )
{
if ( c >= '0' && c <= '9' )
return true;
return false;
}
ZPL_IMPL_INLINE b32 char_is_hex_digit( char c )
{
if ( char_is_digit( c ) || ( c >= 'a' && c <= 'f' ) || ( c >= 'A' && c <= 'F' ) )
return true;
return false;
}
ZPL_IMPL_INLINE b32 char_is_space( char c )
{
if ( c == ' ' || c == '\t' || c == '\n' || c == '\r' || c == '\f' || c == '\v' )
return true;
return false;
}
ZPL_IMPL_INLINE char char_to_lower( char c )
{
if ( c >= 'A' && c <= 'Z' )
return 'a' + ( c - 'A' );
return c;
}
ZPL_IMPL_INLINE char char_to_upper( char c )
{
if ( c >= 'a' && c <= 'z' )
return 'A' + ( c - 'a' );
return c;
}
ZPL_IMPL_INLINE s32 digit_to_int( char c )
{
return char_is_digit( c ) ? c - '0' : c - 'W';
}
ZPL_IMPL_INLINE s32 hex_digit_to_int( char c )
{
if ( char_is_digit( c ) )
return digit_to_int( c );
else if ( is_between( c, 'a', 'f' ) )
return c - 'a' + 10;
else if ( is_between( c, 'A', 'F' ) )
return c - 'A' + 10;
return -1;
}
ZPL_IMPL_INLINE s32 str_compare( const char* s1, const char* s2 )
{
while ( *s1 && ( *s1 == *s2 ) )
{
s1++, s2++;
}
return *( u8* )s1 - *( u8* )s2;
}
ZPL_IMPL_INLINE s32 str_compare( const char* s1, const char* s2, sw len )
{
for ( ; len > 0; s1++, s2++, len-- )
{
if ( *s1 != *s2 )
return ( ( s1 < s2 ) ? -1 : +1 );
else if ( *s1 == '\0' )
return 0;
}
return 0;
}
ZPL_IMPL_INLINE char* str_copy( char* dest, const char* source, sw len )
{
ZPL_ASSERT_NOT_NULL( dest );
if ( source )
{
char* str = dest;
while ( len > 0 && *source )
{
*str++ = *source++;
len--;
}
while ( len > 0 )
{
*str++ = '\0';
len--;
}
}
return dest;
}
ZPL_IMPL_INLINE sw str_copy_nulpad( char* dest, const char* source, sw len )
{
sw result = 0;
ZPL_ASSERT_NOT_NULL( dest );
if ( source )
{
const char* source_start = source;
char* str = dest;
while ( len > 0 && *source )
{
*str++ = *source++;
len--;
}
while ( len > 0 )
{
*str++ = '\0';
len--;
}
result = source - source_start;
}
return result;
}
ZPL_IMPL_INLINE sw str_len( const char* str )
{
if ( str == NULL )
{
return 0;
}
const char* p = str;
while ( *str )
str++;
return str - p;
}
ZPL_IMPL_INLINE sw str_len( const char* str, sw max_len )
{
const char* end = zpl_cast( const char* ) mem_find( str, 0, max_len );
if ( end )
return end - str;
return max_len;
}
ZPL_IMPL_INLINE char* str_reverse( char* str )
{
sw len = str_len( str );
char* a = str + 0;
char* b = str + len - 1;
len /= 2;
while ( len-- )
{
swap( char, *a, *b );
a++, b--;
}
return str;
}
ZPL_IMPL_INLINE void str_to_lower( char* str )
{
if ( ! str )
return;
while ( *str )
{
*str = char_to_lower( *str );
str++;
}
}
ZPL_IMPL_INLINE void str_to_upper( char* str )
{
if ( ! str )
return;
while ( *str )
{
*str = char_to_upper( *str );
str++;
}
}
#pragma endregion String Ops
#pragma region Containers #pragma region Containers
#pragma push_macro("template") #pragma push_macro("template")
#undef template #undef template
@ -551,7 +1014,6 @@ namespace gen
{ {
Data[ idx ] = value; Data[ idx ] = value;
} }
// mem_set( Data + begin, value, end - begin)
return true; return true;
} }
@ -618,6 +1080,8 @@ namespace gen
{ {
if ( ! grow( num ) ) if ( ! grow( num ) )
return false; return false;
header = get_header();
} }
header->Num = num; header->Num = num;
@ -635,7 +1099,7 @@ namespace gen
header.Num = new_capacity; header.Num = new_capacity;
sw size = sizeof( Header ) + sizeof( Type ) * new_capacity; sw size = sizeof( Header ) + sizeof( Type ) * new_capacity;
Header* new_header = reinterpret_cast< Header* >( alloc( header.Allocator, size ) ); Header* new_header = rcast( Header*, alloc( header.Allocator, size ) );
if ( new_header == nullptr ) if ( new_header == nullptr )
return false; return false;
@ -703,6 +1167,19 @@ namespace gen
return result; return result;
} }
static
HashTable init_reserve( AllocatorInfo allocator, sw num )
{
HashTable<Type> result = { { nullptr }, { nullptr } };
result.Hashes = Array<sw>::init_reserve( allocator, num );
result.Hashes.get_header()->Num = num;
result.Entries = Array<Entry>::init_reserve( allocator, num );
return result;
}
void clear( void ) void clear( void )
{ {
for ( sw idx = 0; idx < Hashes.num(); idx++ ) for ( sw idx = 0; idx < Hashes.num(); idx++ )
@ -764,10 +1241,7 @@ namespace gen
sw idx; sw idx;
sw last_added_index; sw last_added_index;
HashTable<Type> new_ht = init( Hashes.get_header()->Allocator ); HashTable<Type> new_ht = init_reserve( Hashes.get_header()->Allocator, new_num );
new_ht.Hashes.resize( new_num );
new_ht.Entries.reserve( new_ht.Hashes.num() );
Array<sw>::Header* hash_header = new_ht.Hashes.get_header(); Array<sw>::Header* hash_header = new_ht.Hashes.get_header();
@ -798,8 +1272,6 @@ namespace gen
} }
destroy(); destroy();
// Hashes = new_ht.Hashes;
// Entries = new_ht.Entries;
*this = new_ht; *this = new_ht;
} }
@ -926,6 +1398,12 @@ namespace gen
#pragma pop_macro("template") #pragma pop_macro("template")
#pragma endregion Containers #pragma endregion Containers
#pragma region Hashing
u32 crc32( void const* data, sw len );
#pragma endregion Hashing
#pragma region String #pragma region String
// Constant string with length. // Constant string with length.
struct StrC struct StrC
@ -933,18 +1411,20 @@ namespace gen
sw Len; sw Len;
char const* Ptr; char const* Ptr;
static constexpr
StrC from( char const* str )
{
return { str_len( str ), str };
}
operator char const* () const operator char const* () const
{ {
return Ptr; return Ptr;
} }
}; };
#define txt_StrC( text ) \
(StrC){ sizeof( text ) - 1, text }
StrC to_StrC( char const* str )
{
return { str_len( str ), str };
}
// Dynamic String // Dynamic String
// This is directly based off the ZPL string api. // This is directly based off the ZPL string api.
// They used a header pattern // They used a header pattern
@ -1023,29 +1503,10 @@ namespace gen
} }
static static
String fmt( AllocatorInfo allocator, char* buf, sw buf_size, char const* fmt, ... ) String fmt( AllocatorInfo allocator, char* buf, sw buf_size, char const* fmt, ... );
{
va_list va;
va_start( va, fmt );
str_fmt_va( buf, buf_size, fmt, va );
va_end( va );
return make( allocator, buf );
}
static static
String fmt_buf( AllocatorInfo allocator, char const* fmt, ... ) String fmt_buf( AllocatorInfo allocator, char const* fmt, ... );
{
local_persist thread_local
char buf[ ZPL_PRINTF_MAXLEN ] = { 0 };
va_list va;
va_start( va, fmt );
str_fmt_va( buf, ZPL_PRINTF_MAXLEN, fmt, va );
va_end( va );
return make( allocator, buf );
}
static static
String join( AllocatorInfo allocator, char const** parts, sw num_parts, char const* glue ) String join( AllocatorInfo allocator, char const** parts, sw num_parts, char const* glue )
@ -1151,18 +1612,7 @@ namespace gen
return append( other.Data, other.length() ); return append( other.Data, other.length() );
} }
bool append_fmt( char const* fmt, ... ) bool append_fmt( char const* fmt, ... );
{
sw res;
char buf[ ZPL_PRINTF_MAXLEN ] = { 0 };
va_list va;
va_start( va, fmt );
res = str_fmt_va( buf, count_of( buf ) - 1, fmt, va ) - 1;
va_end( va );
return append( buf, res );
}
sw avail_space() const sw avail_space() const
{ {
@ -1424,6 +1874,22 @@ namespace gen
DirEntry* Dir; DirEntry* Dir;
}; };
enum FileStandardType
{
EFileStandard_INPUT,
EFileStandard_OUTPUT,
EFileStandard_ERROR,
EFileStandard_COUNT,
};
/**
* Get standard file I/O.
* @param std Check zpl_file_standard_type
* @return File handle to standard I/O
*/
FileInfo* file_get_standard( FileStandardType std );
/** /**
* Closes the file * Closes the file
* @param file * @param file
@ -1533,6 +1999,7 @@ namespace gen
{ {
if ( ! f->Ops.read_at ) if ( ! f->Ops.read_at )
f->Ops = default_file_operations; f->Ops = default_file_operations;
return f->Ops.write_at( f->FD, buffer, size, offset, bytes_written ); return f->Ops.write_at( f->FD, buffer, size, offset, bytes_written );
} }
@ -1540,6 +2007,17 @@ namespace gen
#pragma endregion File Handling #pragma endregion File Handling
#pragma region Printing
// NOTE: A locally persisting buffer is used internally
char* str_fmt_buf( char const* fmt, ... );
char* str_fmt_buf_va( char const* fmt, va_list va );
sw str_fmt_va( char* str, sw n, char const* fmt, va_list va );
sw str_fmt_out_va( char const* fmt, va_list va );
sw str_fmt_file_va( FileInfo* f, char const* fmt, va_list va );
#pragma endregion Printing
namespace Memory namespace Memory
{ {
// NOTE: This limits the size of the string that can be read from a file or generated to 10 megs. // NOTE: This limits the size of the string that can be read from a file or generated to 10 megs.
@ -1556,7 +2034,6 @@ namespace gen
void cleanup(); void cleanup();
} }
inline inline
sw log_fmt(char const* fmt, ...) sw log_fmt(char const* fmt, ...)
{ {

View File

@ -1097,7 +1097,7 @@ namespace gen
} }
Code::Global = make_code(); Code::Global = make_code();
Code::Global->Name = get_cached_string( name("Global Code") ); Code::Global->Name = get_cached_string( txt_StrC("Global Code") );
Code::Global->Content = Code::Global->Name; Code::Global->Content = Code::Global->Name;
Code::Invalid = make_code(); Code::Invalid = make_code();
@ -1139,34 +1139,34 @@ namespace gen
access_private = make_code(); access_private = make_code();
access_private->Type = ECode::Access_Private; access_private->Type = ECode::Access_Private;
access_private->Name = get_cached_string( StrC::from("private:") ); access_private->Name = get_cached_string( txt_StrC("private:") );
access_private.set_global(); access_private.set_global();
access_protected = make_code(); access_protected = make_code();
access_protected->Type = ECode::Access_Protected; access_protected->Type = ECode::Access_Protected;
access_protected->Name = get_cached_string( StrC::from("protected:") ); access_protected->Name = get_cached_string( txt_StrC("protected:") );
access_protected.set_global(); access_protected.set_global();
access_public = make_code(); access_public = make_code();
access_public->Type = ECode::Access_Public; access_public->Type = ECode::Access_Public;
access_public->Name = get_cached_string( StrC::from("public:") ); access_public->Name = get_cached_string( txt_StrC("public:") );
access_public.set_global(); access_public.set_global();
module_global_fragment = make_code(); module_global_fragment = make_code();
module_global_fragment->Type = ECode::Untyped; module_global_fragment->Type = ECode::Untyped;
module_global_fragment->Name = get_cached_string( StrC::from("module;") ); module_global_fragment->Name = get_cached_string( txt_StrC("module;") );
module_global_fragment->Content = module_global_fragment->Name; module_global_fragment->Content = module_global_fragment->Name;
module_global_fragment.set_global(); module_global_fragment.set_global();
module_private_fragment = make_code(); module_private_fragment = make_code();
module_private_fragment->Type = ECode::Untyped; module_private_fragment->Type = ECode::Untyped;
module_private_fragment->Name = get_cached_string( StrC::from("module : private;") ); module_private_fragment->Name = get_cached_string( txt_StrC("module : private;") );
module_private_fragment->Content = module_private_fragment->Name; module_private_fragment->Content = module_private_fragment->Name;
module_private_fragment.set_global(); module_private_fragment.set_global();
pragma_once = make_code(); pragma_once = make_code();
pragma_once->Type = ECode::Untyped; pragma_once->Type = ECode::Untyped;
pragma_once->Name = get_cached_string( StrC::from("#pragma once") ); pragma_once->Name = get_cached_string( txt_StrC("#pragma once") );
pragma_once->Content = pragma_once->Name; pragma_once->Content = pragma_once->Name;
pragma_once.set_global(); pragma_once.set_global();
@ -1733,13 +1733,13 @@ namespace gen
{ \ { \
if ( Name_.Len <= 0 ) \ if ( Name_.Len <= 0 ) \
{ \ { \
log_failure( "gen::" txt(Context_) ": Invalid name length provided - %d", Name_.Len ); \ log_failure( "gen::" stringize(Context_) ": Invalid name length provided - %d", Name_.Len ); \
return Code::Invalid; \ return Code::Invalid; \
} \ } \
\ \
if ( Name_.Ptr == nullptr ) \ if ( Name_.Ptr == nullptr ) \
{ \ { \
log_failure( "gen::" txt(Context_) ": name is null" ); \ log_failure( "gen::" stringize(Context_) ": name is null" ); \
return Code::Invalid; \ return Code::Invalid; \
} \ } \
} }
@ -1747,7 +1747,7 @@ namespace gen
# define null_check( Context_, Code_ ) \ # define null_check( Context_, Code_ ) \
if ( ! Code_ ) \ if ( ! Code_ ) \
{ \ { \
log_failure( "gen::" txt(Context_) ": " txt(Code_) " provided is null" ); \ log_failure( "gen::" stringize(Context_) ": " stringize(Code_) " provided is null" ); \
return Code::Invalid; \ return Code::Invalid; \
} }
@ -1755,13 +1755,13 @@ namespace gen
{ \ { \
if ( ! Code_ ) \ if ( ! Code_ ) \
{ \ { \
log_failure( "gen::" txt(Context_) ": " txt(Code_) " provided is null" ); \ log_failure( "gen::" stringize(Context_) ": " stringize(Code_) " provided is null" ); \
return Code::Invalid; \ return Code::Invalid; \
} \ } \
\ \
if ( Code_->is_invalid() ) \ if ( Code_->is_invalid() ) \
{ \ { \
log_failure("gen::" txt(Context_) ": " txt(Code_) " provided is invalid" ); \ log_failure("gen::" stringize(Context_) ": " stringize(Code_) " provided is invalid" ); \
return Code::Invalid; \ return Code::Invalid; \
} \ } \
} }
@ -2633,7 +2633,7 @@ namespace gen
\ \
if ( num <= 0 ) \ if ( num <= 0 ) \
{ \ { \
log_failure("gen::" txt(Name_) ": num cannot be zero or negative"); \ log_failure("gen::" stringize(Name_) ": num cannot be zero or negative"); \
return Code::Invalid; \ return Code::Invalid; \
} }
@ -2642,7 +2642,7 @@ namespace gen
\ \
if ( num <= 0 ) \ if ( num <= 0 ) \
{ \ { \
log_failure("gen::" txt(Name_) ": num cannot be zero or negative"); \ log_failure("gen::" stringize(Name_) ": num cannot be zero or negative"); \
return Code::Invalid; \ return Code::Invalid; \
} \ } \
\ \
@ -2660,7 +2660,7 @@ namespace gen
\ \
if ( ! entry ) \ if ( ! entry ) \
{ \ { \
log_failure("gen::" txt(Name_) ": Provided an null entry"); \ log_failure("gen::" stringize(Name_) ": Provided an null entry"); \
return Code::Invalid; \ return Code::Invalid; \
} \ } \
\ \
@ -2674,7 +2674,7 @@ namespace gen
\ \
if ( ! entry ) \ if ( ! entry ) \
{ \ { \
log_failure("gen::" txt(Name_) ": Provided an null entry"); \ log_failure("gen::" stringize(Name_) ": Provided an null entry"); \
return Code::Invalid; \ return Code::Invalid; \
} \ } \
\ \
@ -2682,7 +2682,7 @@ namespace gen
{ {
# define def_body_code_validation_end( Name_ ) \ # define def_body_code_validation_end( Name_ ) \
log_failure("gen::" txt(Name_) ": Entry type is not allowed: %s", entry->debug_str() ); \ log_failure("gen::" stringize(Name_) ": Entry type is not allowed: %s", entry->debug_str() ); \
return Code::Invalid; \ return Code::Invalid; \
\ \
default: \ default: \
@ -3451,7 +3451,7 @@ namespace gen
local_persist thread_local local_persist thread_local
Array<Token> Tokens = { nullptr }; Array<Token> Tokens = { nullptr };
s32 left = content.Len -1; s32 left = content.Len;
char const* scanner = content.Ptr; char const* scanner = content.Ptr;
char const* word = scanner; char const* word = scanner;
@ -3901,12 +3901,12 @@ namespace gen
# define check_parse_args( func, def ) \ # define check_parse_args( func, def ) \
if ( def.Len <= 0 ) \ if ( def.Len <= 0 ) \
{ \ { \
log_failure( "gen::" txt(func) ": length must greater than 0" ); \ log_failure( "gen::" stringize(func) ": length must greater than 0" ); \
return Code::Invalid; \ return Code::Invalid; \
} \ } \
if ( def.Ptr == nullptr ) \ if ( def.Ptr == nullptr ) \
{ \ { \
log_failure( "gen::" txt(func) ": def was null" ); \ log_failure( "gen::" stringize(func) ": def was null" ); \
return Code::Invalid; \ return Code::Invalid; \
} }
@ -3950,13 +3950,13 @@ namespace gen
if ( left == 0 ) if ( left == 0 )
{ {
log_failure( "%s: Error, unexpected end of typedef definition ( '[]' scope started )", txt(parse_typedef) ); log_failure( "%s: Error, unexpected end of typedef definition ( '[]' scope started )", stringize(parse_typedef) );
return Code::Invalid; return Code::Invalid;
} }
if ( currtok.Type == TokType::BraceSquare_Close ) if ( currtok.Type == TokType::BraceSquare_Close )
{ {
log_failure( "%s: Error, empty array expression in typedef definition", txt(parse_typedef) ); log_failure( "%s: Error, empty array expression in typedef definition", stringize(parse_typedef) );
return Code::Invalid; return Code::Invalid;
} }
@ -3973,13 +3973,13 @@ namespace gen
if ( left == 0 ) if ( left == 0 )
{ {
log_failure( "%s: Error, unexpected end of type definition, expected ]", txt(parse_typedef) ); log_failure( "%s: Error, unexpected end of type definition, expected ]", stringize(parse_typedef) );
return Code::Invalid; return Code::Invalid;
} }
if ( currtok.Type != TokType::BraceSquare_Close ) if ( currtok.Type != TokType::BraceSquare_Close )
{ {
log_failure( "%s: Error, expected ] in type definition, not %s", txt(parse_typedef), str_tok_type( currtok.Type ) ); log_failure( "%s: Error, expected ] in type definition, not %s", stringize(parse_typedef), str_tok_type( currtok.Type ) );
return Code::Invalid; return Code::Invalid;
} }
@ -4179,12 +4179,12 @@ namespace gen
{ {
using namespace Parser; using namespace Parser;
Code params = parse_params( toks, txt(parse_function) ); Code params = parse_params( toks, stringize(parse_function) );
Code body = { nullptr }; Code body = { nullptr };
if ( check( TokType::BraceCurly_Open ) ) if ( check( TokType::BraceCurly_Open ) )
{ {
body = parse_function_body( toks, txt(parse_function) ); body = parse_function_body( toks, stringize(parse_function) );
if ( body == Code::Invalid ) if ( body == Code::Invalid )
return Code::Invalid; return Code::Invalid;
} }
@ -4438,13 +4438,13 @@ namespace gen
eat( TokType::Operator ); eat( TokType::Operator );
// Parse Params // Parse Params
Code params = parse_params( toks, txt(parse_operator) ); Code params = parse_params( toks, stringize(parse_operator) );
// Parse Body // Parse Body
Code body = { nullptr }; Code body = { nullptr };
if ( check( TokType::BraceCurly_Open ) ) if ( check( TokType::BraceCurly_Open ) )
{ {
body = parse_function_body( toks, txt(parse_function) ); body = parse_function_body( toks, stringize(parse_function) );
if ( body == Code::Invalid ) if ( body == Code::Invalid )
return Code::Invalid; return Code::Invalid;
} }
@ -4471,7 +4471,7 @@ namespace gen
{ {
using namespace Parser; using namespace Parser;
Code array_expr = parse_array_decl( toks, txt(parse_variable) ); Code array_expr = parse_array_decl( toks, stringize(parse_variable) );
Code expr = Code::Invalid; Code expr = Code::Invalid;
@ -4561,7 +4561,7 @@ namespace gen
Code result = Code::Invalid; Code result = Code::Invalid;
Code type = parse_type( toks, txt(parse_variable) ); Code type = parse_type( toks, stringize(parse_variable) );
if ( type == Code::Invalid ) if ( type == Code::Invalid )
return Code::Invalid; return Code::Invalid;
@ -4569,7 +4569,7 @@ namespace gen
if ( check( TokType::Operator) ) if ( check( TokType::Operator) )
{ {
// Dealing with an operator overload // Dealing with an operator overload
result = parse_operator_after_ret_type( ModuleFlag::None, attributes, specifiers, type, toks, txt(parse_template) ); result = parse_operator_after_ret_type( ModuleFlag::None, attributes, specifiers, type, toks, stringize(parse_template) );
} }
else else
{ {
@ -4580,7 +4580,7 @@ namespace gen
{ {
// Dealing with a function // Dealing with a function
result = parse_function_after_name( ModuleFlag::None, attributes, specifiers, type, name, toks, txt(parse_template) ); result = parse_function_after_name( ModuleFlag::None, attributes, specifiers, type, name, toks, stringize(parse_template) );
} }
else else
{ {
@ -4591,7 +4591,7 @@ namespace gen
} }
// Dealing with a variable // Dealing with a variable
result = parse_variable_after_name( ModuleFlag::None, attributes, specifiers, type, name, toks, txt(parse_template) ); result = parse_variable_after_name( ModuleFlag::None, attributes, specifiers, type, name, toks, stringize(parse_template) );
} }
} }
@ -4746,7 +4746,7 @@ namespace gen
break; break;
default: default:
log_failure( "gen::parse_class_struct_body: invalid specifier " txt(spec) " for variable" ); log_failure( "gen::parse_class_struct_body: invalid specifier " "%s" " for variable", ESpecifier::to_str(spec) );
return Code::Invalid; return Code::Invalid;
} }
@ -4948,7 +4948,7 @@ namespace gen
case TokType::Decl_Extern_Linkage: case TokType::Decl_Extern_Linkage:
if ( which == Extern_Linkage_Body ) if ( which == Extern_Linkage_Body )
log_failure( "gen::parse_extern_link_body: nested extern linkage" ); log_failure( "gen::parse_global_nspace: nested extern linkage" );
member = parse_extern_link_body( toks, context ); member = parse_extern_link_body( toks, context );
break; break;
@ -4979,7 +4979,7 @@ namespace gen
case TokType::Module_Export: case TokType::Module_Export:
if ( which == Export_Body ) if ( which == Export_Body )
log_failure( "gen::parse_extern_link_body: nested export declaration" ); log_failure( "gen::parse_global_nspace: nested export declaration" );
member = parse_export_body( toks, context ); member = parse_export_body( toks, context );
break; break;
@ -5054,7 +5054,7 @@ namespace gen
break; break;
default: default:
log_failure( "gen::parse_class_struct_body: invalid specifier " txt(spec) " for variable" ); log_failure( "gen::parse_global_nspace: invalid specifier " "%s" " for variable", ESpecifier::to_str(spec) );
return Code::Invalid; return Code::Invalid;
} }
@ -5110,7 +5110,7 @@ namespace gen
if ( toks.Arr == nullptr ) if ( toks.Arr == nullptr )
return Code::Invalid; return Code::Invalid;
return parse_class_struct( TokType::Decl_Class, toks, txt(parse_class) ); return parse_class_struct( TokType::Decl_Class, toks, stringize(parse_class) );
} }
internal internal
@ -5155,7 +5155,7 @@ namespace gen
{ {
eat( TokType::Assign_Classifer ); eat( TokType::Assign_Classifer );
type = parse_type( toks, txt(parse_enum) ); type = parse_type( toks, stringize(parse_enum) );
if ( type == Code::Invalid ) if ( type == Code::Invalid )
return Code::Invalid; return Code::Invalid;
} }
@ -5229,7 +5229,7 @@ namespace gen
if ( toks.Arr == nullptr ) if ( toks.Arr == nullptr )
return Code::Invalid; return Code::Invalid;
return parse_enum( toks, txt(parse_enum) ); return parse_enum( toks, stringize(parse_enum) );
} }
internal inline internal inline
@ -5247,7 +5247,7 @@ namespace gen
if ( toks.Arr == nullptr ) if ( toks.Arr == nullptr )
return Code::Invalid; return Code::Invalid;
return parse_export_body( toks, txt(parse_export_body) ); return parse_export_body( toks, stringize(parse_export_body) );
} }
internal inline internal inline
@ -5295,7 +5295,7 @@ namespace gen
if ( toks.Arr == nullptr ) if ( toks.Arr == nullptr )
return Code::Invalid; return Code::Invalid;
return parse_extern_link( toks, txt(parse_extern_link) ); return parse_extern_link( toks, stringize(parse_extern_link) );
} }
internal internal
@ -5309,7 +5309,7 @@ namespace gen
Code function = { nullptr }; Code function = { nullptr };
// Type declaration or return type // Type declaration or return type
Code type = parse_type( toks, txt(parse_friend) ); Code type = parse_type( toks, stringize(parse_friend) );
if ( type == Code::Invalid ) if ( type == Code::Invalid )
return Code::Invalid; return Code::Invalid;
@ -5317,10 +5317,10 @@ namespace gen
if ( currtok.Type == TokType::Identifier ) if ( currtok.Type == TokType::Identifier )
{ {
// Name // Name
Token name = parse_identifier( toks, txt(parse_friend) ); Token name = parse_identifier( toks, stringize(parse_friend) );
// Parameter list // Parameter list
Code params = parse_params( toks, txt(parse_friend) ); Code params = parse_params( toks, stringize(parse_friend) );
function = make_code(); function = make_code();
function->Type = Function_Fwd; function->Type = Function_Fwd;
@ -5355,7 +5355,7 @@ namespace gen
if ( toks.Arr == nullptr ) if ( toks.Arr == nullptr )
return Code::Invalid; return Code::Invalid;
return parse_friend( toks, txt(parse_friend) ); return parse_friend( toks, stringize(parse_friend) );
} }
internal internal
@ -5388,7 +5388,7 @@ namespace gen
break; break;
default: default:
log_failure( "gen::parse_variable: invalid specifier " txt(spec) " for variable" ); log_failure( "gen::parse_functon: invalid specifier " "%s" " for functon", ESpecifier::to_str(spec) );
return Code::Invalid; return Code::Invalid;
} }
@ -5402,11 +5402,11 @@ namespace gen
specifiers = def_specifiers( num_specifiers, specs_found ); specifiers = def_specifiers( num_specifiers, specs_found );
} }
Code ret_type = parse_type( toks, txt(parse_function) ); Code ret_type = parse_type( toks, stringize(parse_function) );
if ( ret_type == Code::Invalid ) if ( ret_type == Code::Invalid )
return Code::Invalid; return Code::Invalid;
Token name = parse_identifier( toks, txt(parse_function) ); Token name = parse_identifier( toks, stringize(parse_function) );
if ( ! name ) if ( ! name )
return Code::Invalid; return Code::Invalid;
@ -5425,7 +5425,7 @@ namespace gen
if ( toks.Arr == nullptr ) if ( toks.Arr == nullptr )
return Code::Invalid; return Code::Invalid;
return parse_functon( toks, txt(parse_function) ); return parse_functon( toks, stringize(parse_function) );
} }
Code parse_global_body( StrC def ) Code parse_global_body( StrC def )
@ -5437,7 +5437,7 @@ namespace gen
if ( toks.Arr == nullptr ) if ( toks.Arr == nullptr )
return Code::Invalid; return Code::Invalid;
return parse_global_nspace( ECode::Global_Body, toks, txt(parse_global_body) ); return parse_global_nspace( ECode::Global_Body, toks, stringize(parse_global_body) );
} }
internal internal
@ -5446,9 +5446,9 @@ namespace gen
using namespace Parser; using namespace Parser;
eat( TokType::Decl_Namespace ); eat( TokType::Decl_Namespace );
Token name = parse_identifier( toks, txt(parse_namespace) ); Token name = parse_identifier( toks, stringize(parse_namespace) );
Code body = parse_global_nspace( ECode::Namespace_Body, toks, txt(parse_namespace) ); Code body = parse_global_nspace( ECode::Namespace_Body, toks, stringize(parse_namespace) );
if ( body == Code::Invalid ) if ( body == Code::Invalid )
return Code::Invalid; return Code::Invalid;
@ -5471,7 +5471,7 @@ namespace gen
if ( toks.Arr == nullptr ) if ( toks.Arr == nullptr )
return Code::Invalid; return Code::Invalid;
return parse_namespace( toks, txt(parse_namespace) ); return parse_namespace( toks, stringize(parse_namespace) );
} }
internal internal
@ -5500,7 +5500,7 @@ namespace gen
break; break;
default: default:
log_failure( "gen::parse_variable: invalid specifier " txt(spec) " for variable" ); log_failure( "gen::parse_operator: invalid specifier " "%s" " for operator", ESpecifier::to_str(spec) );
return Code::Invalid; return Code::Invalid;
} }
@ -5515,7 +5515,7 @@ namespace gen
} }
// Parse Return Type // Parse Return Type
Code ret_type = parse_type( toks, txt(parse_operator) ); Code ret_type = parse_type( toks, stringize(parse_operator) );
Code result = parse_operator_after_ret_type( ModuleFlag::None, attributes, specifiers, ret_type, toks, context ); Code result = parse_operator_after_ret_type( ModuleFlag::None, attributes, specifiers, ret_type, toks, context );
return result; return result;
@ -5530,7 +5530,7 @@ namespace gen
if ( toks.Arr == nullptr ) if ( toks.Arr == nullptr )
return Code::Invalid; return Code::Invalid;
return parse_operator( toks, txt(parse_operator) ); return parse_operator( toks, stringize(parse_operator) );
} }
Code parse_operator_cast( Parser::TokArray& toks, char const* context ) Code parse_operator_cast( Parser::TokArray& toks, char const* context )
@ -5539,7 +5539,7 @@ namespace gen
eat( TokType::Decl_Operator ); eat( TokType::Decl_Operator );
Code type = parse_type( toks, txt(parse_operator_cast) ); Code type = parse_type( toks, stringize(parse_operator_cast) );
eat( TokType::Capture_Start ); eat( TokType::Capture_Start );
eat( TokType::Capture_End ); eat( TokType::Capture_End );
@ -5597,13 +5597,13 @@ namespace gen
if ( toks.Arr == nullptr ) if ( toks.Arr == nullptr )
return Code::Invalid; return Code::Invalid;
return parse_operator_cast( toks, txt(parse_operator_cast) ); return parse_operator_cast( toks, stringize(parse_operator_cast) );
} }
internal inline internal inline
Code parse_struct( Parser::TokArray& toks, char const* context ) Code parse_struct( Parser::TokArray& toks, char const* context )
{ {
return parse_class_struct( Parser::TokType::Decl_Struct, toks, txt(parse_struct) ); return parse_class_struct( Parser::TokType::Decl_Struct, toks, stringize(parse_struct) );
} }
Code parse_struct( StrC def ) Code parse_struct( StrC def )
@ -5615,7 +5615,7 @@ namespace gen
if ( toks.Arr == nullptr ) if ( toks.Arr == nullptr )
return Code::Invalid; return Code::Invalid;
return parse_class_struct( TokType::Decl_Struct, toks, txt(parse_struct) ); return parse_class_struct( TokType::Decl_Struct, toks, stringize(parse_struct) );
} }
internal internal
@ -5629,7 +5629,7 @@ namespace gen
eat( TokType::Decl_Template ); eat( TokType::Decl_Template );
Code params = parse_params( toks, txt(parse_template), UseTemplateCapture ); Code params = parse_params( toks, stringize(parse_template), UseTemplateCapture );
if ( params == Code::Invalid ) if ( params == Code::Invalid )
return Code::Invalid; return Code::Invalid;
@ -5639,19 +5639,19 @@ namespace gen
{ {
if ( check( TokType::Decl_Class ) ) if ( check( TokType::Decl_Class ) )
{ {
definition = parse_class( toks, txt(parse_template) ); definition = parse_class( toks, stringize(parse_template) );
break; break;
} }
if ( check( TokType::Decl_Struct ) ) if ( check( TokType::Decl_Struct ) )
{ {
definition = parse_enum( toks, txt(parse_template) ); definition = parse_enum( toks, stringize(parse_template) );
break; break;
} }
if ( check( TokType::Decl_Using )) if ( check( TokType::Decl_Using ))
{ {
definition = parse_using( toks, txt(parse_template) ); definition = parse_using( toks, stringize(parse_template) );
break; break;
} }
@ -5693,7 +5693,7 @@ namespace gen
break; break;
default: default:
log_failure( "gen::parse_template: invalid specifier " txt(spec) " for variable or function" ); log_failure( "gen::parse_template: invalid specifier %s for variable or function", ESpecifier::to_str( spec ) );
return Code::Invalid; return Code::Invalid;
} }
@ -5711,7 +5711,7 @@ namespace gen
specifiers = def_specifiers( num_specifiers, specs_found ); specifiers = def_specifiers( num_specifiers, specs_found );
} }
definition = parse_operator_function_or_variable( expects_function, attributes, specifiers, toks, txt(parse_template) ); definition = parse_operator_function_or_variable( expects_function, attributes, specifiers, toks, stringize(parse_template) );
break; break;
} }
@ -5734,7 +5734,7 @@ namespace gen
if ( toks.Arr == nullptr ) if ( toks.Arr == nullptr )
return Code::Invalid; return Code::Invalid;
return parse_template( toks, txt(parse_template) ); return parse_template( toks, stringize(parse_template) );
} }
internal internal
@ -5915,7 +5915,7 @@ namespace gen
if ( toks.Arr == nullptr ) if ( toks.Arr == nullptr )
return Code::Invalid; return Code::Invalid;
Code result = parse_type( toks, txt(parse_type) ); Code result = parse_type( toks, stringize(parse_type) );
return result; return result;
} }
@ -5931,7 +5931,7 @@ namespace gen
eat( TokType::Decl_Typedef ); eat( TokType::Decl_Typedef );
type = parse_type( toks, txt(parse_typedef) ); type = parse_type( toks, stringize(parse_typedef) );
if ( ! check( TokType::Identifier ) ) if ( ! check( TokType::Identifier ) )
{ {
@ -5942,7 +5942,7 @@ namespace gen
name = currtok; name = currtok;
eat( TokType::Identifier ); eat( TokType::Identifier );
array_expr = parse_array_decl( toks, txt(parse_typedef) ); array_expr = parse_array_decl( toks, stringize(parse_typedef) );
eat( TokType::Statement_End ); eat( TokType::Statement_End );
@ -5970,7 +5970,7 @@ namespace gen
if ( toks.Arr == nullptr ) if ( toks.Arr == nullptr )
return Code::Invalid; return Code::Invalid;
return parse_typedef( toks, txt(parse_typedef) ); return parse_typedef( toks, stringize(parse_typedef) );
} }
internal internal
@ -6002,7 +6002,7 @@ namespace gen
while ( ! check( TokType::BraceCurly_Close ) ) while ( ! check( TokType::BraceCurly_Close ) )
{ {
Code entry = parse_variable( toks, txt(parse_union) ); Code entry = parse_variable( toks, stringize(parse_union) );
if ( entry ) if ( entry )
body->add_entry( entry ); body->add_entry( entry );
@ -6036,7 +6036,7 @@ namespace gen
if ( toks.Arr == nullptr ) if ( toks.Arr == nullptr )
return Code::Invalid; return Code::Invalid;
return parse_union( toks, txt(parse_union) ); return parse_union( toks, stringize(parse_union) );
} }
internal internal
@ -6072,10 +6072,10 @@ namespace gen
eat( TokType::Operator ); eat( TokType::Operator );
type = parse_type( toks, txt(parse_typedef) ); type = parse_type( toks, stringize(parse_typedef) );
} }
array_expr = parse_array_decl( toks, txt(parse_typedef) ); array_expr = parse_array_decl( toks, stringize(parse_typedef) );
eat( TokType::Statement_End ); eat( TokType::Statement_End );
@ -6104,7 +6104,7 @@ namespace gen
if ( toks.Arr == nullptr ) if ( toks.Arr == nullptr )
return Code::Invalid; return Code::Invalid;
return parse_using( toks, txt(parse_using) ); return parse_using( toks, stringize(parse_using) );
} }
internal internal
@ -6144,7 +6144,7 @@ namespace gen
break; break;
default: default:
log_failure( "gen::parse_variable: invalid specifier " txt(spec) " for variable" ); log_failure( "gen::parse_variable: invalid specifier %s for variable", ESpecifier::to_str( spec ) );
return Code::Invalid; return Code::Invalid;
} }
@ -6162,7 +6162,7 @@ namespace gen
specifiers = def_specifiers( num_specifiers, specs_found ); specifiers = def_specifiers( num_specifiers, specs_found );
} }
Code type = parse_type( toks, txt(parse_variable) ); Code type = parse_type( toks, stringize(parse_variable) );
if ( type == Code::Invalid ) if ( type == Code::Invalid )
return Code::Invalid; return Code::Invalid;
@ -6170,7 +6170,7 @@ namespace gen
name = currtok; name = currtok;
eat( TokType::Identifier ); eat( TokType::Identifier );
Code result = parse_variable_after_name( ModuleFlag::None, attributes, specifiers, type, name, toks, txt(parse_variable) ); Code result = parse_variable_after_name( ModuleFlag::None, attributes, specifiers, type, name, toks, stringize(parse_variable) );
return result; return result;
} }
@ -6184,7 +6184,7 @@ namespace gen
if ( toks.Arr == nullptr ) if ( toks.Arr == nullptr )
return Code::Invalid; return Code::Invalid;
return parse_variable( toks, txt(parse_variable) ); return parse_variable( toks, stringize(parse_variable) );
} }
// Undef helper macros // Undef helper macros
@ -6197,41 +6197,30 @@ namespace gen
#pragma endregion Parsing Constructors #pragma endregion Parsing Constructors
#pragma region Untyped Constructors #pragma region Untyped Constructors
struct TokEntry sw token_fmt_va( char* buf, uw buf_size, s32 num_tokens, va_list va )
{
char const* Str;
sw Length;
};
sw token_fmt_va( char* buf, uw buf_size, char const* fmt, s32 num_tokens, va_list va )
{ {
char const* buf_begin = buf; char const* buf_begin = buf;
sw remaining = buf_size; sw remaining = buf_size;
HashTable<TokEntry> tok_map; HashTable<StrC> tok_map;
{ {
// TODO : Switch this to use an arena that makes use of the stack (cap the size of the token table to around 4096 bytes) // TODO : Switch this to use an arena that makes use of the stack (cap the size of the token table to around 4096 bytes)
tok_map = HashTable<TokEntry>::init( Memory::GlobalAllocator ); tok_map = HashTable<StrC>::init( Memory::GlobalAllocator );
s32 left = num_tokens; s32 left = num_tokens - 1;
while ( left-- ) while ( left-- )
{ {
char const* token = va_arg( va, char const* ); char const* token = va_arg( va, char const* );
char const* value = va_arg( va, char const* ); StrC value = va_arg( va, StrC );
TokEntry entry u32 key = crc32( token, str_len(token) );
{
value,
str_len(value, (sw)128)
};
u32 key = crc32( token, str_len(token, 32) ); tok_map.set( key, value );
tok_map.set( key, entry );
} }
} }
char const* fmt = va_arg( va, char const* );
char current = *fmt; char current = *fmt;
while ( current ) while ( current )
@ -6263,12 +6252,12 @@ namespace gen
char const* token = fmt + 1; char const* token = fmt + 1;
u32 key = crc32( token, tok_len ); u32 key = crc32( token, tok_len );
TokEntry* value = tok_map.get( key ); StrC* value = tok_map.get( key );
if ( value ) if ( value )
{ {
sw left = value->Length; sw left = value->Len;
char const* str = value->Str; char const* str = value->Ptr;
while ( left-- ) while ( left-- )
{ {
@ -6295,7 +6284,7 @@ namespace gen
tok_map.clear(); tok_map.clear();
sw result = buf_size - remaining + 1; sw result = buf_size - remaining;
return result; return result;
} }
@ -6330,21 +6319,21 @@ namespace gen
return result; return result;
} }
Code untyped_token_fmt( char const* fmt, s32 num_tokens, ... ) Code untyped_token_fmt( s32 num_tokens, ... )
{ {
local_persist thread_local local_persist thread_local
char buf[ZPL_PRINTF_MAXLEN] = { 0 }; char buf[ZPL_PRINTF_MAXLEN] = { 0 };
va_list va; va_list va;
va_start(va, fmt); va_start(va, num_tokens);
sw length = token_fmt_va(buf, ZPL_PRINTF_MAXLEN, fmt, num_tokens, va); sw length = token_fmt_va(buf, ZPL_PRINTF_MAXLEN, num_tokens, va);
va_end(va); va_end(va);
Code Code
result = make_code(); result = make_code();
result->Name = get_cached_string( { str_len(fmt, MaxNameLength), fmt } ); result->Name = get_cached_string( { length, buf } );
result->Type = ECode::Untyped; result->Type = ECode::Untyped;
result->Content = get_cached_string( { length, buf } ); result->Content = result->Name;
return result; return result;
} }

View File

@ -97,7 +97,7 @@ namespace gen
{ {
static static
StrC lookup[Num_Types] = { StrC lookup[Num_Types] = {
# define Entry( Type ) { txt_to_StrC( Type ) }, # define Entry( Type ) { sizeof(stringize(Type)), stringize(Type) },
Define_Types Define_Types
# undef Entry # undef Entry
}; };
@ -189,7 +189,7 @@ namespace gen
{ {
local_persist local_persist
char const* lookup[ Num_Ops ] = { char const* lookup[ Num_Ops ] = {
# define Entry( Type_, Token_ ) txt(Token_), # define Entry( Type_, Token_ ) stringize(Token_),
Define_Operators Define_Operators
# undef Entry # undef Entry
"," ","
@ -252,7 +252,7 @@ namespace gen
# define internal internal # define internal internal
# define local_persist local_persist # define local_persist local_persist
# define Entry( Spec_, Code_ ) { txt_to_StrC(Code_) }, # define Entry( Spec_, Code_ ) { sizeof(stringize(Code_)), stringize(Code_) },
Define_Specifiers Define_Specifiers
# undef Entry # undef Entry
@ -352,9 +352,9 @@ namespace gen
# define GEN_API_Import_Code __declspec(dllimport) # define GEN_API_Import_Code __declspec(dllimport)
# define GEN_Attribute_Keyword __declspec # define GEN_Attribute_Keyword __declspec
constexpr char const* API_Export = txt( GEN_API_Export_Code ); constexpr char const* API_Export = stringize( GEN_API_Export_Code );
constexpr char const* API_Import = txt( GEN_API_Import_Code ); constexpr char const* API_Import = stringize( GEN_API_Import_Code );
constexpr char const* Keyword = txt( GEN_Attribute_Keyword); constexpr char const* Keyword = stringize( GEN_Attribute_Keyword);
#elif ZPL_HAS_ATTRIBUTE( visibility ) || ZPL_GCC_VERSION_CHECK( 3, 3, 0 ) || ZPL_INTEL_VERSION_CHECK( 13, 0, 0 ) #elif ZPL_HAS_ATTRIBUTE( visibility ) || ZPL_GCC_VERSION_CHECK( 3, 3, 0 ) || ZPL_INTEL_VERSION_CHECK( 13, 0, 0 )
# define GEN_API_Export_Code __attribute__ ((visibility ("default"))) # define GEN_API_Export_Code __attribute__ ((visibility ("default")))
@ -501,7 +501,7 @@ namespace gen
char const* debug_str() char const* debug_str()
{ {
char const* fmt = txt( char const* fmt = stringize(
\nCode Debug: \nCode Debug:
\nType : %s \nType : %s
\nParent : %s \nParent : %s
@ -773,26 +773,26 @@ namespace gen
, ModuleFlag mflags = ModuleFlag::None ); , ModuleFlag mflags = ModuleFlag::None );
Code def_class_body ( s32 num, ... ); Code def_class_body ( s32 num, ... );
Code def_class_body ( s32 num, Code* codes );
Code def_enum_body ( s32 num, ... ); Code def_enum_body ( s32 num, ... );
Code def_enum_body ( s32 num, Code* codes );
Code def_export_body ( s32 num, ... ); Code def_export_body ( s32 num, ... );
Code def_export_body ( s32 num, Code* codes);
Code def_extern_link_body( s32 num, ... ); Code def_extern_link_body( s32 num, ... );
Code def_extern_link_body( s32 num, Code* codes );
Code def_function_body ( s32 num, ... ); Code def_function_body ( s32 num, ... );
Code def_function_body ( s32 num, Code* codes );
Code def_global_body ( s32 num, ... ); Code def_global_body ( s32 num, ... );
Code def_global_body ( s32 num, Code* codes );
Code def_namespace_body ( s32 num, ... ); Code def_namespace_body ( s32 num, ... );
Code def_namespace_body ( s32 num, Code* codes );
Code def_params ( s32 num, ... ); Code def_params ( s32 num, ... );
Code def_params ( s32 num, Code* params ); Code def_specifiers ( s32 num, ... );
Code def_specifiers ( s32 num , ... );
Code def_specifiers ( s32 num, SpecifierT* specs );
Code def_struct_body ( s32 num, ... ); Code def_struct_body ( s32 num, ... );
Code def_struct_body ( s32 num, Code* codes );
Code def_union_body ( s32 num, ... ); Code def_union_body ( s32 num, ... );
Code def_class_body ( s32 num, Code* codes );
Code def_enum_body ( s32 num, Code* codes );
Code def_export_body ( s32 num, Code* codes);
Code def_extern_link_body( s32 num, Code* codes );
Code def_function_body ( s32 num, Code* codes );
Code def_global_body ( s32 num, Code* codes );
Code def_namespace_body ( s32 num, Code* codes );
Code def_params ( s32 num, Code* params );
Code def_specifiers ( s32 num, SpecifierT* specs );
Code def_struct_body ( s32 num, Code* codes );
Code def_union_body ( s32 num, Code* codes ); Code def_union_body ( s32 num, Code* codes );
# pragma endregion Upfront # pragma endregion Upfront
@ -819,18 +819,20 @@ namespace gen
# pragma endregion Parsing # pragma endregion Parsing
# pragma region Untyped text # pragma region Untyped text
sw token_fmt_va( char* buf, uw buf_size, char const* fmt, s32 num_tokens, va_list va ); sw token_fmt_va( char* buf, uw buf_size, s32 num_tokens, va_list va );
//! Do not use directly. Use the token_fmt macro instead.
// Takes a format string (char const*) and a list of tokens (StrC) and returns a StrC of the formatted string.
inline inline
StrC token_fmt( char const* fmt, sw num_tokens, ... ) StrC _token_fmt( sw num, ... )
{ {
local_persist thread_local local_persist thread_local
char buf[ZPL_PRINTF_MAXLEN] = { 0 }; char buf[ZPL_PRINTF_MAXLEN] = { 0 };
mem_set( buf, 0, ZPL_PRINTF_MAXLEN ); mem_set( buf, 0, ZPL_PRINTF_MAXLEN );
va_list va; va_list va;
va_start(va, fmt); va_start(va, num );
sw result = token_fmt_va(buf, ZPL_PRINTF_MAXLEN, fmt, num_tokens, va); sw result = token_fmt_va(buf, ZPL_PRINTF_MAXLEN, num, va);
va_end(va); va_end(va);
return { result, buf }; return { result, buf };
@ -969,10 +971,15 @@ namespace gen
// Convienence for defining any name used with the gen api. // Convienence for defining any name used with the gen api.
// Lets you provide the length and string literal to the functions without the need for the DSL. // Lets you provide the length and string literal to the functions without the need for the DSL.
# define name( Id_ ) { txt_to_StrC( Id_ ) } # define name( Id_ ) { sizeof(stringize( Id_ )) - 1, stringize(Id_) }
// Same as name just used to indicate intention of literal for code instead of names. // Same as name just used to indicate intention of literal for code instead of names.
# define code( ... ) { txt_to_StrC( __VA_ARGS__ ) } # define code( ... ) { sizeof(stringize(__VA_ARGS__)) - 1, stringize( __VA_ARGS__ ) }
# define args( ... ) macro_num_args( __VA_ARGS__ ), __VA_ARGS__
// Takes a format string (char const*) and a list of tokens (StrC) and returns a StrC of the formatted string.
# define token_fmt( ... ) _token_fmt( (macro_num_args( __VA_ARGS__ ) + 1) / 2, __VA_ARGS__ )
#pragma endregion Macros #pragma endregion Macros
#pragma region Constants #pragma region Constants

View File

@ -13,51 +13,45 @@ foreach ( $arg in $args )
} }
} }
$path_root = git rev-parse --show-toplevel $path_root = git rev-parse --show-toplevel
$path_build = Join-Path $path_root build $path_build = Join-Path $path_root build
$path_scripts = Join-Path $path_root scripts $path_scripts = Join-Path $path_root scripts
$path_test = Join-Path $path_root test
$path_gen = Join-Path $path_test gen
$path_test_build = Join-Path $path_test build
$path_gen_build = Join-Path $path_gen build
write-host "`n`nBuilding Test`n"
# if ( $test -eq $true ) if ( -not( Test-Path $path_gen_build ) )
# { {
#region Test Build # Generate build files for meta-program
write-host "`n`nBuilding Test`n" Push-Location $path_gen
$path_test = Join-Path $path_root test
$path_gen = Join-Path $path_test gen
$path_test_build = Join-Path $path_test build
$path_gen_build = Join-Path $path_gen build
# Generate files using metaprogram.
if ( -not( Test-Path $path_gen_build ) )
{
$args_meson = @() $args_meson = @()
$args_meson += "setup" $args_meson += "setup"
$args_meson += $path_gen_build $args_meson += $path_gen_build
Push-Location $path_gen
& meson $args_meson & meson $args_meson
Pop-Location Pop-Location
} }
# Compile meta-program
Push-Location $path_root
$args_ninja = @() $args_ninja = @()
$args_ninja += "-C" $args_ninja += "-C"
$args_ninja += $path_gen_build $args_ninja += $path_gen_build
Push-Location $path_root
& ninja $args_ninja & ninja $args_ninja
Pop-Location Pop-Location
# Test NonParsed Push-location $path_gen
if ($true) { # Run meta-program
$gencpp = Join-Path $path_gen_build gencpp.exe $gencpp = Join-Path $path_gen_build gencpp.exe
Push-location $path_gen Write-Host `nGenerating files -- Parsed...
Write-Host `nGenerating files...
& $gencpp & $gencpp
# Format generated files
Write-Host `nBeginning format... Write-Host `nBeginning format...
$formatParams = @( $formatParams = @(
'-i' # In-place '-i' # In-place
@ -72,60 +66,30 @@ $path_scripts = Join-Path $path_root scripts
clang-format $formatParams $targetFiles clang-format $formatParams $targetFiles
Write-Host "`nFormatting complete" Write-Host "`nFormatting complete"
Pop-Location Pop-Location
}
# Test Parsed # Build the program depending on generated files.
if ($true) { if ( -not( Test-Path $path_test_build ) )
$gencpp = Join-Path $path_gen_build gencpp_parsed.exe {
Push-Location $path_test
$args_meson = @()
$args_meson += "setup"
$args_meson += $path_test_build
Push-location $path_gen # & meson $args_meson
Pop-Location
}
Write-Host `nGenerating files -- using Parse API... Push-Location $path_root
& $gencpp $args_ninja = @()
$args_ninja += "-C"
$args_ninja += $path_test_build
Write-Host `nBeginning format...
$formatParams = @(
'-i' # In-place
'-style=file' # Search for a .clang-format file in the parent directory of the source file.
'-verbose'
)
$include = @('*.gen.hpp', '*.gen.cpp')
$exclude = $null
$targetFiles = @(Get-ChildItem -Recurse -Path $path_gen -Include $include -Exclude $exclude | Select-Object -ExpandProperty FullName)
clang-format $formatParams $targetFiles
Write-Host "`nFormatting complete"
Pop-Location
}
# Build the program depending on generated files.
# if ( -not( Test-Path $path_test_build ) )k
# {
# $args_meson = @()
# $args_meson += "setup"
# $args_meson += $path_test_build
# Push-Location $path_test
# & meson $args_meson
# Pop-Location
# }
# $args_ninja = @()
# $args_ninja += "-C"
# $args_ninja += $path_test_build
# Push-Location $path_root
# ninja $args_ninja # ninja $args_ninja
# Pop-Location Pop-Location
# $testcpp = Join-Path $path_test_build testcpp.exe Push-Location $path_test
$testcpp = Join-Path $path_test_build testcpp.exe
# Push-Location $path_test
# & $testcpp # & $testcpp
# Pop-Location Pop-Location
# endregion Test Build
# }

View File

@ -32,8 +32,8 @@ Code gen__array( StrC type )
name = { name_len, name_str }; name = { name_len, name_str };
}; };
Code array = parse_struct( token_fmt( Code array = parse_struct( token_fmt( "ArrayType", name, "type", type,
txt( stringize(
struct <ArrayType> struct <ArrayType>
{ {
using Header = ArrayHeader; using Header = ArrayHeader;
@ -208,11 +208,7 @@ Code gen__array( StrC type )
return Data; return Data;
} }
}; };
), )
// Tokens
2
, "ArrayType", (char const*) name
, "type", (char const*) type
)); ));
return array; return array;
@ -226,7 +222,7 @@ struct GenArrayRequest
}; };
Array<GenArrayRequest> GenArrayRequests; Array<GenArrayRequest> GenArrayRequests;
void gen__array_request( StrC type, sw size, StrC dep = {} ) void gen__array_request( StrC type, StrC dep = {} )
{ {
do_once_start do_once_start
GenArrayRequests = Array<GenArrayRequest>::init( Memory::GlobalAllocator ); GenArrayRequests = Array<GenArrayRequest>::init( Memory::GlobalAllocator );
@ -247,7 +243,7 @@ void gen__array_request( StrC type, sw size, StrC dep = {} )
GenArrayRequest request = { dep, type }; GenArrayRequest request = { dep, type };
GenArrayRequests.append( request ); GenArrayRequests.append( request );
} }
#define gen_array( type ) gen__array_request( { txt_to_StrC(type) }, sizeof(type) ) #define gen_array( type ) gen__array_request( code(type) )
u32 gen_array_file() u32 gen_array_file()
{ {
@ -255,9 +251,11 @@ u32 gen_array_file()
gen_array_file; gen_array_file;
gen_array_file.open( "array.Parsed.gen.hpp" ); gen_array_file.open( "array.Parsed.gen.hpp" );
Code include_zpl = def_include( StrC::from("Bloat.hpp") ); Code include_zpl = def_include( txt_StrC("Bloat.hpp") );
gen_array_file.print( include_zpl ); gen_array_file.print( include_zpl );
gen_array_file.print( def_using_namespace( name(gen)));
Code array_base = gen__array_base(); Code array_base = gen__array_base();
gen_array_file.print( array_base ); gen_array_file.print( array_base );

View File

@ -27,8 +27,8 @@ Code gen__buffer( StrC type )
name = { name_len, name_str }; name = { name_len, name_str };
}; };
Code buffer = parse_struct( token_fmt( Code buffer = parse_struct( token_fmt( "BufferName", name, "type", type,
txt( stringize(
struct <BufferName> struct <BufferName>
{ {
using Header = BufferHeader; using Header = BufferHeader;
@ -123,10 +123,7 @@ Code gen__buffer( StrC type )
Type* Data; Type* Data;
}; };
), )
2
, "BufferName", (char const*) name
, "type", (char const*) type
)); ));
return buffer; return buffer;
@ -160,7 +157,7 @@ void gen__buffer_request( StrC type, StrC dep = {} )
GenBufferRequest request = { dep, type }; GenBufferRequest request = { dep, type };
GenBufferRequests.append( request ); GenBufferRequests.append( request );
} }
#define gen_buffer( type ) gen__buffer_request( { txt_to_StrC(type) } ) #define gen_buffer( type ) gen__buffer_request( code(type) )
u32 gen_buffer_file() u32 gen_buffer_file()
{ {
@ -168,7 +165,9 @@ u32 gen_buffer_file()
gen_buffer_file; gen_buffer_file;
gen_buffer_file.open( "buffer.Parsed.gen.hpp" ); gen_buffer_file.open( "buffer.Parsed.gen.hpp" );
gen_buffer_file.print( def_include( StrC::from("Bloat.hpp")) ); gen_buffer_file.print( def_include( txt_StrC("Bloat.hpp")) );
gen_buffer_file.print( def_using_namespace( name(gen)));
gen_buffer_file.print( gen__buffer_base() ); gen_buffer_file.print( gen__buffer_base() );
GenBufferRequest* current = GenBufferRequests; GenBufferRequest* current = GenBufferRequests;

View File

@ -18,7 +18,7 @@ Code gen__hashtable_base()
)); ));
} }
Code gen__hashtable( StrC type, sw type_size ) Code gen__hashtable( StrC type )
{ {
StringCached name; StringCached name;
{ {
@ -28,26 +28,23 @@ Code gen__hashtable( StrC type, sw type_size )
name = get_cached_string({ len, name_str }); name = get_cached_string({ len, name_str });
} }
Code ht_entry = parse_struct( token_fmt( Code ht_entry = parse_struct( token_fmt( "HashTableName", (StrC)name, "type", type,
txt( stringize(
struct <HashTableName>_Entry struct <HashTableName>_Entry
{ {
u64 Key; u64 Key;
sw Next; sw Next;
<type> Value; <type> Value;
}; };
), )
2
, "HashTableName", (char const*) name
, "type", (char const*) type
)); ));
StringCached ht_entry_name = get_cached_string( token_fmt( "<HashTableName>_Entry", 1, "HashTableName", name ) ); StringCached ht_entry_name = get_cached_string( token_fmt( "HashTableName", (StrC)name, "<HashTableName>_Entry" ));
Code array_ht_entry = gen__array( ht_entry_name ); Code array_ht_entry = gen__array( ht_entry_name );
Code hashtable = parse_struct( token_fmt( Code hashtable = parse_struct( token_fmt( "HashTableName", (StrC)name, "type", type,
txt( stringize(
struct <HashTableName> struct <HashTableName>
{ {
using Type = <type>; using Type = <type>;
@ -275,10 +272,7 @@ Code gen__hashtable( StrC type, sw type_size )
return 0.75f * Hashes.num() < Entries.num(); return 0.75f * Hashes.num() < Entries.num();
} }
}; };
), )
2
, "HashTableName", (char const*) name
, "type", (char const*) type
)); ));
return def_global_body( 3, ht_entry, array_ht_entry, hashtable ); return def_global_body( 3, ht_entry, array_ht_entry, hashtable );
@ -288,11 +282,10 @@ struct GenHashTableRequest
{ {
StrC Dependency; StrC Dependency;
StrC Type; StrC Type;
sw TypeSize;
}; };
Array<GenHashTableRequest> GenHashTableRequests; Array<GenHashTableRequest> GenHashTableRequests;
void gen__hashtable_request( StrC type, sw size, StrC dep = {} ) void gen__hashtable_request( StrC type, StrC dep = {} )
{ {
do_once_start do_once_start
GenHashTableRequests = Array<GenHashTableRequest>::init( Memory::GlobalAllocator ); GenHashTableRequests = Array<GenHashTableRequest>::init( Memory::GlobalAllocator );
@ -312,21 +305,24 @@ void gen__hashtable_request( StrC type, sw size, StrC dep = {} )
return; return;
} }
GenHashTableRequest request = { dep, type, size}; GenHashTableRequest request = { dep, type };
GenHashTableRequests.append( request ); GenHashTableRequests.append( request );
} }
#define gen_hashtable( type ) gen__hashtable_request( { txt_to_StrC(type) }, sizeof( type )) #define gen_hashtable( type ) gen__hashtable_request( code(type) )
u32 gen_hashtable_file() u32 gen_hashtable_file()
{ {
Builder Builder
gen_buffer_file; gen_hashtable_file;
gen_buffer_file.open( "hashtable.Parsed.gen.hpp" ); gen_hashtable_file.open( "hashtable.Parsed.gen.hpp" );
gen_buffer_file.print( def_include( StrC::from("Bloat.hpp")) ); gen_hashtable_file.print( def_include( txt_StrC("Bloat.hpp")) );
gen_buffer_file.print( def_include( StrC::from("Array.Parsed.hpp")) ); gen_hashtable_file.print( def_include( txt_StrC("Array.Parsed.hpp")) );
gen_buffer_file.print( def_include( StrC::from("array.Parsed.gen.hpp")) ); gen_hashtable_file.print( def_include( txt_StrC("array.Parsed.gen.hpp")) );
gen_buffer_file.print( gen__hashtable_base());
gen_hashtable_file.print( def_using_namespace( name(gen)));
gen_hashtable_file.print( gen__hashtable_base());
GenHashTableRequest* current = GenHashTableRequests; GenHashTableRequest* current = GenHashTableRequests;
s32 left = GenHashTableRequests.num(); s32 left = GenHashTableRequests.num();
@ -334,7 +330,7 @@ u32 gen_hashtable_file()
{ {
GenHashTableRequest const& request = * current; GenHashTableRequest const& request = * current;
Code generated_buffer = gen__hashtable( current->Type, current->TypeSize ); Code generated_buffer = gen__hashtable( current->Type );
if ( request.Dependency ) if ( request.Dependency )
{ {
@ -344,15 +340,15 @@ u32 gen_hashtable_file()
Code cmt = def_comment( { cmt_len, cmt_str } ); Code cmt = def_comment( { cmt_len, cmt_str } );
Code include = def_include( request.Dependency ); Code include = def_include( request.Dependency );
gen_buffer_file.print( cmt ); gen_hashtable_file.print( cmt );
gen_buffer_file.print( include ); gen_hashtable_file.print( include );
} }
gen_buffer_file.print( generated_buffer ); gen_hashtable_file.print( generated_buffer );
current++; current++;
} }
gen_buffer_file.write(); gen_hashtable_file.write();
return 0; return 0;
} }

View File

@ -10,7 +10,7 @@ Code gen__ring( StrC type )
{ {
static Code t_allocator_info = def_type( name(AllocatorInfo) ); static Code t_allocator_info = def_type( name(AllocatorInfo) );
String name; StringCached name;
{ {
char const* name_str = str_fmt_buf( "Ring_%s\0", type.Ptr ); char const* name_str = str_fmt_buf( "Ring_%s\0", type.Ptr );
s32 name_len = str_len( name_str ); s32 name_len = str_len( name_str );
@ -18,8 +18,10 @@ Code gen__ring( StrC type )
name = get_cached_string({ name_len, name_str }); name = get_cached_string({ name_len, name_str });
}; };
Code ring = parse_struct( token_fmt( StrC buffer_name = to_StrC( str_fmt_buf( "Buffer_%s", type.Ptr ));
txt(
Code ring = parse_struct( token_fmt( "RingName", (StrC)name, "type", type, "BufferName", buffer_name,
stringize(
struct <RingName> struct <RingName>
{ {
using Type = <type>; using Type = <type>;
@ -87,11 +89,7 @@ Code gen__ring( StrC type )
uw Tail; uw Tail;
<BufferName> Buffer; <BufferName> Buffer;
}; };
), )
3
, "RingName", (char const*) name
, "type", (char const*) type
, "BufferName", str_fmt_buf( "Buffer_%s", type.Ptr )
)); ));
return ring; return ring;
@ -104,7 +102,7 @@ struct GenRingRequest
}; };
Array<GenRingRequest> GenRingRequests; Array<GenRingRequest> GenRingRequests;
void gen__ring_request( StrC type, sw size, StrC dep = {} ) void gen__ring_request( StrC type, StrC dep = {} )
{ {
do_once_start do_once_start
GenRingRequests = Array<GenRingRequest>::init( Memory::GlobalAllocator ); GenRingRequests = Array<GenRingRequest>::init( Memory::GlobalAllocator );
@ -128,7 +126,7 @@ void gen__ring_request( StrC type, sw size, StrC dep = {} )
GenRingRequest request = { dep, type }; GenRingRequest request = { dep, type };
GenRingRequests.append( request ); GenRingRequests.append( request );
} }
#define gen_ring( type ) gen__ring_request( { txt_to_StrC(type) }, sizeof( type )) #define gen_ring( type ) gen__ring_request( code(type) )
u32 gen_ring_file() u32 gen_ring_file()
{ {
@ -136,10 +134,12 @@ u32 gen_ring_file()
gen_ring_file; gen_ring_file;
gen_ring_file.open( "ring.Parsed.gen.hpp" ); gen_ring_file.open( "ring.Parsed.gen.hpp" );
gen_ring_file.print( def_include( StrC::from("Bloat.hpp")) ); gen_ring_file.print( def_include( txt_StrC("Bloat.hpp")) );
gen_ring_file.print( def_include( StrC::from("buffer.Parsed.gen.hpp")) ); gen_ring_file.print( def_include( txt_StrC("buffer.Parsed.gen.hpp")) );
// gen_ring_file.print( gen__ring_base() ); // gen_ring_file.print( gen__ring_base() );
gen_ring_file.print( def_using_namespace( name(gen)));
GenRingRequest* current = GenRingRequests; GenRingRequest* current = GenRingRequests;
s32 left = GenRingRequests.num(); s32 left = GenRingRequests.num();
while (left--) while (left--)

View File

@ -10,7 +10,7 @@ u32 gen_sanity()
gen_sanity_file; gen_sanity_file;
gen_sanity_file.open("./sanity.Parsed.gen.hpp"); gen_sanity_file.open("./sanity.Parsed.gen.hpp");
gen_sanity_file.print( def_comment( StrC::from( gen_sanity_file.print( def_comment( txt_StrC(
"The following will show a series of base cases for the gen parsed api.\n" "The following will show a series of base cases for the gen parsed api.\n"
))); )));
@ -36,7 +36,7 @@ u32 gen_sanity()
{}; {};
)); ));
empty_body.body()->add_entry( def_comment( StrC::from("Empty class body") ) ); empty_body.body()->add_entry( def_comment( txt_StrC("Empty class body") ) );
gen_sanity_file.print(fwd); gen_sanity_file.print(fwd);
gen_sanity_file.print(empty_body); gen_sanity_file.print(empty_body);
@ -72,7 +72,7 @@ u32 gen_sanity()
// External Linkage // External Linkage
{ {
Code empty_comment = def_comment( StrC::from("Empty external linkage") ); Code empty_comment = def_comment( txt_StrC("Empty external linkage") );
Code c_extern = parse_extern_link( code( Code c_extern = parse_extern_link( code(
extern "C" extern "C"
@ -118,7 +118,7 @@ u32 gen_sanity()
} }
)); ));
def.body()->add_entry( def_comment( StrC::from("Empty function body") ) ); def.body()->add_entry( def_comment( txt_StrC("Empty function body") ) );
gen_sanity_file.print(fwd); gen_sanity_file.print(fwd);
gen_sanity_file.print(def); gen_sanity_file.print(def);
@ -134,7 +134,7 @@ u32 gen_sanity()
} }
)); ));
def.body()->add_entry( def_comment( StrC::from("Empty namespace body") ) ); def.body()->add_entry( def_comment( txt_StrC("Empty namespace body") ) );
gen_sanity_file.print(def); gen_sanity_file.print(def);
} }
@ -201,7 +201,7 @@ u32 gen_sanity()
} }
)); ));
def.body()->add_entry( def_comment( StrC::from("Empty function body") ) ); def.body()->add_entry( def_comment( txt_StrC("Empty function body") ) );
gen_sanity_file.print(fwd); gen_sanity_file.print(fwd);
gen_sanity_file.print(def); gen_sanity_file.print(def);
@ -237,7 +237,7 @@ u32 gen_sanity()
{}; {};
)); ));
empty_body.body()->add_entry( def_comment( StrC::from("Empty struct body") ) ); empty_body.body()->add_entry( def_comment( txt_StrC("Empty struct body") ) );
gen_sanity_file.print(fwd); gen_sanity_file.print(fwd);
gen_sanity_file.print(empty_body); gen_sanity_file.print(empty_body);
@ -253,7 +253,7 @@ u32 gen_sanity()
}; };
)); ));
empty.body()->add_entry( def_comment( StrC::from("Empty union body") ) ); empty.body()->add_entry( def_comment( txt_StrC("Empty union body") ) );
gen_sanity_file.print( parse_typedef( code( typedef unsigned short u16; )) ); gen_sanity_file.print( parse_typedef( code( typedef unsigned short u16; )) );
gen_sanity_file.print( parse_typedef( code( typedef unsigned long u32; )) ); gen_sanity_file.print( parse_typedef( code( typedef unsigned long u32; )) );
@ -330,7 +330,7 @@ u32 gen_sanity()
gen_sanity_file.print_fmt("\n"); gen_sanity_file.print_fmt("\n");
gen_sanity_file.print( def_comment( StrC::from( gen_sanity_file.print( def_comment( txt_StrC(
"End of base case tests\n" "End of base case tests\n"
))); )));

View File

@ -8,7 +8,4 @@ be better on in c++ as templates, since the templates they generate are trivial
An exmaple of a non-trival generation is a container for elements with SOA or AOS policy for layout. An exmaple of a non-trival generation is a container for elements with SOA or AOS policy for layout.
(If a unified element syntax is desired) (If a unified element syntax is desired)
The test is divided between two major sets of tests: Parsed and Nonparsed. The test is divided between two major sets of tests: Parsed and Upfront.
Parsed uses the parsing api strictly.
NonParsed only uses the upfront and incremental constructors.

View File

@ -30,17 +30,15 @@ Code gen_SOA( Code struct_def, bool use_dynamic = false )
Code entry_arr = { nullptr }; Code entry_arr = { nullptr };
if ( use_dynamic) if ( use_dynamic)
{ {
entry_arr = parse_variable( token_fmt( "Array<<type>> <name>;", 2 entry_arr = parse_variable( token_fmt( "type", (StrC)var_type->Name, "name", (StrC)struct_mem->Name,
, "type", (char const*)var_type->Name stringize( Array<<type>> <name>; )
, "name", (char const*)struct_mem->Name ) ));
);
} }
else else
{ {
entry_arr = parse_variable( token_fmt( "<type> <name>[100];", 2 entry_arr = parse_variable( token_fmt( "type", (StrC)var_type->Name, "name", (StrC)struct_mem->Name,
, "type", (char const*)var_type->Name stringize( <type> <name>[100]; )
, "name", (char const*)struct_mem->Name ) ));
);
} }
vars.append( entry_arr ); vars.append( entry_arr );
@ -51,15 +49,14 @@ Code gen_SOA( Code struct_def, bool use_dynamic = false )
Code make; Code make;
{ {
make = parse_function( token_fmt( make = parse_function( token_fmt("SOA_Type", name,
txt( stringize(
static static
<SOA_Type> make( AllocatorInfo allocator ) <SOA_Type> make( AllocatorInfo allocator )
{ {
<SOA_Type> soa = {}; <SOA_Type> soa = {};
} }
), )
1, "SOA_Type", (char const*)name
)); ));
if ( use_dynamic ) if ( use_dynamic )
@ -68,9 +65,8 @@ Code gen_SOA( Code struct_def, bool use_dynamic = false )
{ {
Code member = vars[idx]; Code member = vars[idx];
Code arr_init = def_execution( token_fmt( "soa.<var_name> = <var_type>::init( allocator );", 2 Code arr_init = def_execution( token_fmt( "var_name", (StrC)member->Name, "var_type", (StrC)member->entry(0)->Name,
, "var_name", (char const*)member->Name stringize( soa.<var_name> = <var_type>::init( allocator ); )
, "var_type", (char const*)member->entry(0)->Name
)); ));
make.body()->add_entry( arr_init ); make.body()->add_entry( arr_init );
@ -94,8 +90,8 @@ Code gen_SOA( Code struct_def, bool use_dynamic = false )
{ {
Code member = vars[idx]; Code member = vars[idx];
content.append_fmt( token_fmt( "<var_name>[idx],", 1 content.append_fmt( token_fmt( "var_name", (StrC)member->Name,
, "var_name", (char const*)member->Name "<var_name>[idx],"
)); ));
} }

View File

@ -94,16 +94,18 @@ Code gen__array( StrC type )
Code append = def_function( name(append), def_param(t_alias, name(value)), t_bool Code append = def_function( name(append), def_param(t_alias, name(value)), t_bool
, def_execution( code( , def_execution( code(
Header& header = get_header(); Header* header = get_header();
if ( header.Num == header.Capacity ) if ( header->Num == header->Capacity )
{ {
if ( ! grow( header.Capacity )) if ( ! grow( header->Capacity ))
return false; return false;
header = get_header();
} }
Data[ header.Num ] = value; Data[ header->Num ] = value;
header.Num++; header->Num++;
return true; return true;
)) ))
@ -111,14 +113,14 @@ Code gen__array( StrC type )
Code back = def_function( name(back), __, t_alias_ref Code back = def_function( name(back), __, t_alias_ref
, def_execution( code( , def_execution( code(
Header& header = get_header(); Header& header = * get_header();
return Data[ header.Num - 1 ]; return Data[ header.Num - 1 ];
)) ))
); );
Code clear = def_function( name(clear), __, t_void Code clear = def_function( name(clear), __, t_void
, def_execution( code( , def_execution( code(
Header& header = get_header(); Header& header = * get_header();
header.Num = 0; header.Num = 0;
)) ))
); );
@ -132,7 +134,7 @@ Code gen__array( StrC type )
); );
Code body = untyped_str( code( Code body = untyped_str( code(
Header& header = get_header(); Header& header = * get_header();
if ( begin < 0 || end >= header.Num ) if ( begin < 0 || end >= header.Num )
return false; return false;
@ -150,20 +152,20 @@ Code gen__array( StrC type )
Code free = def_function( name(free), __, t_void Code free = def_function( name(free), __, t_void
, def_execution( code( , def_execution( code(
Header& header = get_header(); Header* header = get_header();
zpl::free( header.Allocator, & header ); gen::free( header->Allocator, header );
)) ))
); );
Code get_header = def_function( name(get_header), __, t_header_ref Code get_header = def_function( name(get_header), __, t_header_ptr
, def_execution( code( , def_execution( code(
return * ( rcast( Header*, Data ) - 1 ); return rcast( Header*, Data ) - 1;
)) ))
); );
Code grow = def_function( name(grow), def_param( t_uw, name(min_capacity)), t_bool Code grow = def_function( name(grow), def_param( t_uw, name(min_capacity)), t_bool
, def_execution( code( , def_execution( code(
Header& header = get_header(); Header& header = * get_header();
uw new_capacity = grow_formula( header.Capacity ); uw new_capacity = grow_formula( header.Capacity );
@ -176,13 +178,13 @@ Code gen__array( StrC type )
Code num = def_function( name(num), __, t_uw Code num = def_function( name(num), __, t_uw
, def_execution( code( , def_execution( code(
return get_header().Num; return get_header()->Num;
)) ))
); );
Code pop = def_function( name(pop), __, t_bool Code pop = def_function( name(pop), __, t_bool
, def_execution( code( , def_execution( code(
Header& header = get_header(); Header& header = * get_header();
ZPL_ASSERT( header.Num > 0 ); ZPL_ASSERT( header.Num > 0 );
header.Num--; header.Num--;
@ -191,7 +193,7 @@ Code gen__array( StrC type )
Code remove_at = def_function( name(remove_at), def_param( t_uw, name(idx)), t_void Code remove_at = def_function( name(remove_at), def_param( t_uw, name(idx)), t_void
, def_execution( code( , def_execution( code(
Header* header = & get_header(); Header* header = get_header();
ZPL_ASSERT( idx < header->Num ); ZPL_ASSERT( idx < header->Num );
mem_move( header + idx, header + idx + 1, sizeof( Type ) * ( header->Num - idx - 1 ) ); mem_move( header + idx, header + idx + 1, sizeof( Type ) * ( header->Num - idx - 1 ) );
@ -201,7 +203,7 @@ Code gen__array( StrC type )
Code reserve = def_function( name(reserve), def_param( t_uw, name(new_capacity)), t_bool Code reserve = def_function( name(reserve), def_param( t_uw, name(new_capacity)), t_bool
, def_execution( code( , def_execution( code(
Header& header = get_header(); Header& header = * get_header();
if ( header.Capacity < new_capacity ) if ( header.Capacity < new_capacity )
return set_capacity( new_capacity ); return set_capacity( new_capacity );
@ -212,15 +214,17 @@ Code gen__array( StrC type )
Code resize = def_function( name(resize), def_param( t_uw, name(num)), t_bool Code resize = def_function( name(resize), def_param( t_uw, name(num)), t_bool
, def_execution( code( , def_execution( code(
Header& header = get_header(); Header* header = get_header();
if ( num > header.Capacity ) if ( num > header->Capacity )
{ {
if ( ! grow( header.Capacity )) if ( ! grow( header->Capacity ))
return false; return false;
header = get_header();
} }
header.Num = num; header->Num = num;
return true; return true;
)) ))
); );
@ -228,7 +232,7 @@ Code gen__array( StrC type )
Code set_capacity; Code set_capacity;
{ {
Code body = def_execution( code( Code body = def_execution( code(
Header& header = get_header(); Header& header = * get_header();
if ( new_capacity == header.Capacity ) if ( new_capacity == header.Capacity )
return true; return true;
@ -244,13 +248,11 @@ Code gen__array( StrC type )
mem_move( new_header, & header, sizeof( Header ) + sizeof(Type) * header.Num ); 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; new_header->Capacity = new_capacity;
zpl::free( header.Allocator, & header ); gen::free( header.Allocator, & header );
Data = (Type*) new_header + 1; Data = rcast( Type*, new_header + 1);
return true; return true;
)); ));
@ -323,17 +325,19 @@ void gen__array_request( StrC type, StrC dep = {} )
GenArrayRequest request = { dep, type }; GenArrayRequest request = { dep, type };
GenArrayRequests.append( request ); GenArrayRequests.append( request );
} }
#define gen_array( type ) gen__array_request( { txt_to_StrC(type) } ) #define gen_array( type ) gen__array_request( code(type) )
u32 gen_array_file() u32 gen_array_file()
{ {
Builder Builder
gen_array_file; gen_array_file;
gen_array_file.open( "array.NonParsed.gen.hpp" ); gen_array_file.open( "array.Upfront.gen.hpp" );
Code include_zpl = def_include( StrC::from("Bloat.hpp") ); Code include_zpl = def_include( txt_StrC("Bloat.hpp") );
gen_array_file.print( include_zpl ); gen_array_file.print( include_zpl );
gen_array_file.print( def_using_namespace( name(gen)));
Code array_base = gen__array_base(); Code array_base = gen__array_base();
gen_array_file.print( array_base ); gen_array_file.print( array_base );

View File

@ -208,7 +208,7 @@ struct GenBufferRequest
}; };
Array<GenBufferRequest> GenBufferRequests; Array<GenBufferRequest> GenBufferRequests;
void gen__buffer_request( StrC type, sw size, StrC dep = {} ) void gen__buffer_request( StrC type, StrC dep = {} )
{ {
do_once_start do_once_start
GenBufferRequests = Array<GenBufferRequest>::init( Memory::GlobalAllocator ); GenBufferRequests = Array<GenBufferRequest>::init( Memory::GlobalAllocator );
@ -226,18 +226,20 @@ void gen__buffer_request( StrC type, sw size, StrC dep = {} )
return; return;
} }
GenBufferRequest request = { dep, type, size}; GenBufferRequest request = { dep, type};
GenBufferRequests.append( request ); GenBufferRequests.append( request );
} }
#define gen_buffer( type ) gen__buffer_request( { txt_to_StrC(type) }, sizeof( type )) #define gen_buffer( type ) gen__buffer_request( code(type))
u32 gen_buffer_file() u32 gen_buffer_file()
{ {
Builder Builder
gen_buffer_file; gen_buffer_file;
gen_buffer_file.open( "buffer.NonParsed.gen.hpp" ); gen_buffer_file.open( "buffer.Upfront.gen.hpp" );
gen_buffer_file.print( def_include( txt_StrC("Bloat.hpp")) );
gen_buffer_file.print( def_using_namespace( name(gen)) );
gen_buffer_file.print( def_include( StrC::from("Bloat.hpp")) );
gen_buffer_file.print( gen__buffer_base() ); gen_buffer_file.print( gen__buffer_base() );
GenBufferRequest* current = GenBufferRequests; GenBufferRequest* current = GenBufferRequests;

View File

@ -2,7 +2,7 @@
#if gen_time #if gen_time
#include "gen.hpp" #include "gen.hpp"
#include "Array.NonParsed.hpp" #include "Array.Upfront.hpp"
using namespace gen; using namespace gen;
@ -74,7 +74,7 @@ Code gen__hashtable( StrC type )
Code init; Code init;
{ {
char const* tmpl = txt( char const* tmpl = stringize(
<type> result = { 0 }; <type> result = { 0 };
result.Hashes = Array_sw ::init( allocator ); result.Hashes = Array_sw ::init( allocator );
@ -82,11 +82,31 @@ Code gen__hashtable( StrC type )
return result; return result;
); );
Code body = def_execution( token_fmt( tmpl, 1, "type", name ) ); Code body = def_execution( token_fmt( "type", (StrC)name, tmpl ) );
init = def_function( name(init), def_param( t_allocator_info, name(allocator)), t_ht_type, body, spec_static_member ); init = def_function( name(init), def_param( t_allocator_info, name(allocator)), t_ht_type, body, spec_static_member );
} }
Code init_reserve;
{
char const* tmpl = stringize(
<type> result = { { nullptr }, { nullptr } };
result.Hashes = Array_sw::init_reserve( allocator, num );
result.Hashes.get_header()->Num = num;
result.Entries = Array_Entry::init_reserve( allocator, num );
return result;
);
Code body = def_execution( token_fmt( "type", (StrC)name, tmpl ) );
Code params = def_params( 2, def_param( t_allocator_info, name(allocator)), def_param( t_sw, name(num)));
init_reserve = def_function( name(init_reserve), params, t_ht_type, body, spec_static_member );
}
Code clear = def_function( name(clear), __, t_void Code clear = def_function( name(clear), __, t_void
, def_execution( code( , def_execution( code(
for ( s32 idx = 0; idx < Hashes.num(); idx++ ) for ( s32 idx = 0; idx < Hashes.num(); idx++ )
@ -98,9 +118,9 @@ Code gen__hashtable( StrC type )
Code destroy = def_function( name(destroy), __, t_void Code destroy = def_function( name(destroy), __, t_void
, def_execution( code( , def_execution( code(
if ( Hashes ) if ( Hashes && Hashes.get_header()->Capacity )
Hashes.free(); Hashes.free();
if ( Entries ) if ( Entries && Hashes.get_header()->Capacity )
Entries.free(); Entries.free();
)) ))
); );
@ -108,7 +128,7 @@ Code gen__hashtable( StrC type )
Code get = def_function( name(get), def_param( t_u64, name(key)), t_type_ptr Code get = def_function( name(get), def_param( t_u64, name(key)), t_type_ptr
, def_execution( code( , def_execution( code(
sw idx = find( key ).EntryIndex; sw idx = find( key ).EntryIndex;
if ( idx > 0 ) if ( idx >= 0 )
return & Entries[ idx ].Value; return & Entries[ idx ].Value;
return nullptr; return nullptr;
@ -117,10 +137,10 @@ Code gen__hashtable( StrC type )
Code using_map_proc; Code using_map_proc;
{ {
char const* tmpl = txt( char const* tmpl = stringize(
void (*) ( u64 key, <type> value ) void (*) ( u64 key, <type> value )
); );
Code value = untyped_str( token_fmt( tmpl, 1, "type", t_type.to_string() ) ); Code value = untyped_str( token_fmt( "type", (StrC)t_type.to_string(), tmpl ) );
using_map_proc = def_using ( name(MapProc), value); using_map_proc = def_using ( name(MapProc), value);
} }
@ -143,10 +163,10 @@ Code gen__hashtable( StrC type )
Code using_map_mut_proc; Code using_map_mut_proc;
{ {
char const* tmpl = txt( char const* tmpl = stringize(
void (*) ( u64 key, <type> value ) void (*) ( u64 key, <type> value )
); );
Code value = untyped_str( token_fmt( tmpl, 1, "type", t_type_ptr.to_string() ) ); Code value = untyped_str( token_fmt( "type", (StrC)t_type_ptr.to_string(), tmpl ) );
using_map_mut_proc = def_using ( name(MapMutProc), value); using_map_mut_proc = def_using ( name(MapMutProc), value);
} }
@ -176,14 +196,13 @@ Code gen__hashtable( StrC type )
Code rehash; Code rehash;
{ {
char const* tmpl = txt( char const* tmpl = stringize(
sw idx; sw idx;
sw last_added_index; sw last_added_index;
<type> new_ht = <type>::init( Hashes.get_header().Allocator ); <type> new_ht = init_reserve( Hashes.get_header()->Allocator, new_num );
new_ht.Hashes.resize( new_num ); Array_sw::Header* hash_header = new_ht.Hashes.get_header();
new_ht.Entries.reserve( new_ht.Hashes.num() );
for ( idx = 0; idx < new_ht.Hashes.num(); ++idx ) for ( idx = 0; idx < new_ht.Hashes.num(); ++idx )
new_ht.Hashes[ idx ] = -1; new_ht.Hashes[ idx ] = -1;
@ -211,22 +230,17 @@ Code gen__hashtable( StrC type )
new_ht.Entries[ last_added_index ].Value = entry.Value; new_ht.Entries[ last_added_index ].Value = entry.Value;
} }
// *this = new_ht;
// old_ht.destroy();
destroy(); destroy();
Hashes = new_ht.Hashes; *this = new_ht;
Entries = new_ht.Entries;
); );
Code body = def_execution( token_fmt( tmpl, 1, "type", name ) ); Code body = def_execution( token_fmt( "type", (StrC)name, tmpl ) );
rehash = def_function( name(rehash), def_param( t_sw, name(new_num)), t_void, body ); rehash = def_function( name(rehash), def_param( t_sw, name(new_num)), t_void, body );
} }
Code rehash_fast; Code rehash_fast;
{ {
char const* tmpl = txt( char const* tmpl = stringize(
sw idx; sw idx;
for ( idx = 0; idx < Entries.num(); idx++ ) for ( idx = 0; idx < Entries.num(); idx++ )
@ -242,7 +256,7 @@ Code gen__hashtable( StrC type )
FindResult find_result; FindResult find_result;
} }
); );
Code body = def_execution( token_fmt( tmpl, 1, "type", name ) ); Code body = def_execution( token_fmt( "type", name, tmpl ) );
rehash_fast = def_function( name(rehash_fast), __, t_void, body ); rehash_fast = def_function( name(rehash_fast), __, t_void, body );
} }
@ -358,7 +372,7 @@ Code gen__hashtable( StrC type )
)) ))
); );
hashtable = def_struct( name, def_struct_body( 24 hashtable = def_struct( name, def_struct_body( 25
, using_entry , using_entry
, using_array_entry , using_array_entry
, using_find_result , using_find_result
@ -366,6 +380,7 @@ Code gen__hashtable( StrC type )
, using_map_mut_proc , using_map_mut_proc
, init , init
, init_reserve
, clear , clear
, destroy , destroy
@ -423,19 +438,21 @@ void gen__hashtable_request( StrC type, StrC dep = {} )
GenHashTableRequest request = { dep, type }; GenHashTableRequest request = { dep, type };
GenHashTableRequests.append( request ); GenHashTableRequests.append( request );
} }
#define gen_hashtable( type ) gen__hashtable_request( { txt_to_StrC(type) } ) #define gen_hashtable( type ) gen__hashtable_request( code(type))
u32 gen_hashtable_file() u32 gen_hashtable_file()
{ {
Builder Builder
gen_buffer_file; gen_hashtable_file;
gen_buffer_file.open( "hashtable.NonParsed.gen.hpp" ); gen_hashtable_file.open( "hashtable.Upfront.gen.hpp" );
gen_buffer_file.print( def_include( StrC::from("Bloat.hpp")) ); gen_hashtable_file.print( def_include( txt_StrC("Bloat.hpp")) );
gen_buffer_file.print( def_include( StrC::from("Array.NonParsed.hpp")) ); gen_hashtable_file.print( def_include( txt_StrC("Array.Upfront.hpp")) );
gen_buffer_file.print( def_include( StrC::from("array.NonParsed.gen.hpp")) ); gen_hashtable_file.print( def_include( txt_StrC("array.Upfront.gen.hpp")) );
gen_buffer_file.print( gen__hashtable_base()); gen_hashtable_file.print( def_using_namespace( name(gen)));
gen_hashtable_file.print( gen__hashtable_base());
GenHashTableRequest* current = GenHashTableRequests; GenHashTableRequest* current = GenHashTableRequests;
s32 left = GenHashTableRequests.num(); s32 left = GenHashTableRequests.num();
@ -453,15 +470,15 @@ u32 gen_hashtable_file()
Code cmt = def_comment( { cmt_len, cmt_str } ); Code cmt = def_comment( { cmt_len, cmt_str } );
Code include = def_include( request.Dependency ); Code include = def_include( request.Dependency );
gen_buffer_file.print( cmt ); gen_hashtable_file.print( cmt );
gen_buffer_file.print( include ); gen_hashtable_file.print( include );
} }
gen_buffer_file.print( generated_buffer ); gen_hashtable_file.print( generated_buffer );
current++; current++;
} }
gen_buffer_file.write(); gen_hashtable_file.write();
return 0; return 0;
} }

View File

@ -2,11 +2,11 @@
#if gen_time #if gen_time
#include "gen.hpp" #include "gen.hpp"
#include "Buffer.NonParsed.hpp" #include "Buffer.Upfront.hpp"
using namespace gen; using namespace gen;
Code gen__ring( StrC type, sw type_size ) Code gen__ring( StrC type )
{ {
static Code t_allocator_info = def_type( name(AllocatorInfo) ); static Code t_allocator_info = def_type( name(AllocatorInfo) );
@ -50,7 +50,7 @@ Code gen__ring( StrC type, sw type_size )
, def_param( t_uw, name(max_size) ) , def_param( t_uw, name(max_size) )
); );
char const* tmpl = txt( char const* tmpl = stringize(
<type> result = { 0 }; <type> result = { 0 };
result.Backing = allocator; result.Backing = allocator;
@ -64,10 +64,7 @@ Code gen__ring( StrC type, sw type_size )
return result; return result;
); );
Code body = def_execution( token_fmt( tmpl, 2 Code body = def_execution( token_fmt( "type", (StrC)name, "data_type", type, tmpl ));
, "type", (char const*)name
, "data_type", (char const*)type
));
init = def_function( name(init), params, t_ring_type, body, spec_static_member ); init = def_function( name(init), params, t_ring_type, body, spec_static_member );
} }
@ -160,11 +157,10 @@ struct GenRingRequest
{ {
StrC Dependency; StrC Dependency;
StrC Type; StrC Type;
sw TypeSize;
}; };
Array<GenRingRequest> GenRingRequests; Array<GenRingRequest> GenRingRequests;
void gen__ring_request( StrC type, sw size, StrC dep = {} ) void gen__ring_request( StrC type, StrC dep = {} )
{ {
do_once_start do_once_start
GenRingRequests = Array<GenRingRequest>::init( Memory::GlobalAllocator ); GenRingRequests = Array<GenRingRequest>::init( Memory::GlobalAllocator );
@ -183,22 +179,23 @@ void gen__ring_request( StrC type, sw size, StrC dep = {} )
} }
// Ring definition depends on a array and buffer definition. // Ring definition depends on a array and buffer definition.
gen__buffer_request( type, size, dep ); gen__buffer_request( type, dep );
GenRingRequest request = { dep, type, size}; GenRingRequest request = { dep, type };
GenRingRequests.append( request ); GenRingRequests.append( request );
} }
#define gen_ring( type ) gen__ring_request( { txt_to_StrC(type) }, sizeof( type )) #define gen_ring( type ) gen__ring_request( code(type) )
u32 gen_ring_file() u32 gen_ring_file()
{ {
Builder Builder
gen_ring_file; gen_ring_file;
gen_ring_file.open( "ring.NonParsed.gen.hpp" ); gen_ring_file.open( "ring.Upfront.gen.hpp" );
gen_ring_file.print( def_include( StrC::from("Bloat.hpp")) ); gen_ring_file.print( def_include( txt_StrC("Bloat.hpp")) );
gen_ring_file.print( def_include( StrC::from("buffer.NonParsed.gen.hpp")) ); gen_ring_file.print( def_include( txt_StrC("buffer.Upfront.gen.hpp")) );
// gen_ring_file.print( gen__ring_base() );
gen_ring_file.print( def_using_namespace( name(gen)));
GenRingRequest* current = GenRingRequests; GenRingRequest* current = GenRingRequests;
s32 left = GenRingRequests.num(); s32 left = GenRingRequests.num();
@ -206,7 +203,7 @@ u32 gen_ring_file()
{ {
GenRingRequest const& request = * current; GenRingRequest const& request = * current;
Code generated_ring = gen__ring( current->Type, current->TypeSize ); Code generated_ring = gen__ring( current->Type );
if ( request.Dependency ) if ( request.Dependency )
{ {

View File

@ -7,17 +7,17 @@ u32 gen_sanity()
{ {
Builder Builder
gen_sanity_file; gen_sanity_file;
gen_sanity_file.open("./sanity.NonParsed.gen.hpp"); gen_sanity_file.open("./sanity.Upfront.gen.hpp");
// Comment // Comment
{ {
Code comment_test = def_comment( StrC::from("Sanity check: def_comment test") ); Code comment_test = def_comment( txt_StrC("Sanity check: def_comment test") );
gen_sanity_file.print(comment_test); gen_sanity_file.print(comment_test);
} }
gen_sanity_file.print_fmt("\n"); gen_sanity_file.print_fmt("\n");
gen_sanity_file.print( def_comment( StrC::from( gen_sanity_file.print( def_comment( txt_StrC(
"The following will show a series of base cases for the gen api.\n" "The following will show a series of base cases for the gen api.\n"
))); )));
@ -26,7 +26,7 @@ u32 gen_sanity()
Code fwd = def_class( name(TestEmptyClass) ); Code fwd = def_class( name(TestEmptyClass) );
Code empty_body; Code empty_body;
{ {
Code cmt = def_comment( StrC::from("Empty class body") ); Code cmt = def_comment( txt_StrC("Empty class body") );
Code body = def_class_body( 1, cmt ); Code body = def_class_body( 1, cmt );
empty_body = def_class( name(TestEmptyClass), body ); empty_body = def_class( name(TestEmptyClass), body );
@ -74,7 +74,7 @@ u32 gen_sanity()
// External Linkage // External Linkage
{ {
Code body = def_extern_link_body( 1 Code body = def_extern_link_body( 1
, def_comment( StrC::from("Empty extern body") ) , def_comment( txt_StrC("Empty extern body") )
); );
Code c_extern = def_extern_link( name(C), body ); Code c_extern = def_extern_link( name(C), body );
@ -102,7 +102,7 @@ u32 gen_sanity()
Code def; Code def;
{ {
Code body = def_function_body( 1 Code body = def_function_body( 1
, def_comment( StrC::from("Empty function body") ) , def_comment( txt_StrC("Empty function body") )
); );
def = def_function( name(test_function), __, __, body ); def = def_function( name(test_function), __, __, body );
@ -116,7 +116,7 @@ u32 gen_sanity()
// Include // Include
{ {
Code include = def_include( StrC::from("../DummyInclude.hpp") ); Code include = def_include( txt_StrC("../DummyInclude.hpp") );
gen_sanity_file.print(include); gen_sanity_file.print(include);
} }
@ -144,7 +144,7 @@ u32 gen_sanity()
Code namespace_def; Code namespace_def;
{ {
Code body = def_namespace_body( 1 Code body = def_namespace_body( 1
, def_comment( StrC::from("Empty namespace body") ) , def_comment( txt_StrC("Empty namespace body") )
); );
namespace_def = def_namespace( name(TestNamespace), body ); namespace_def = def_namespace( name(TestNamespace), body );
@ -215,7 +215,7 @@ u32 gen_sanity()
Code def, def2; Code def, def2;
{ {
Code body = def_function_body( 1 Code body = def_function_body( 1
, def_comment( StrC::from("Empty function body") ) , def_comment( txt_StrC("Empty function body") )
); );
Code params = def_params( 2 Code params = def_params( 2
@ -261,7 +261,7 @@ u32 gen_sanity()
Code fwd = def_class( name(TestEmptyStruct) ); Code fwd = def_class( name(TestEmptyStruct) );
Code empty_body; Code empty_body;
{ {
Code cmt = def_comment( StrC::from("Empty struct body") ); Code cmt = def_comment( txt_StrC("Empty struct body") );
Code body = def_class_body( 1, cmt ); Code body = def_class_body( 1, cmt );
empty_body = def_class( name(TestEmptyStruct), body ); empty_body = def_class( name(TestEmptyStruct), body );
@ -276,7 +276,7 @@ u32 gen_sanity()
// Union // Union
{ {
Code body = def_union_body( 1 Code body = def_union_body( 1
, def_comment( StrC::from("Empty union body") ) , def_comment( txt_StrC("Empty union body") )
); );
Code def = def_union( name(TestEmptyUnion), body ); Code def = def_union( name(TestEmptyUnion), body );
@ -314,7 +314,7 @@ u32 gen_sanity()
Code tmpl = def_template( def_param( t_class, name(Type) ) Code tmpl = def_template( def_param( t_class, name(Type) )
, def_function( name(test_template), def_param( t_Type, name(a) ), __ , def_function( name(test_template), def_param( t_Type, name(a) ), __
, def_function_body(1, def_comment( StrC::from("Empty template function body"))) , def_function_body(1, def_comment( txt_StrC("Empty template function body")))
) )
); );
@ -323,7 +323,7 @@ u32 gen_sanity()
gen_sanity_file.print_fmt("\n"); gen_sanity_file.print_fmt("\n");
gen_sanity_file.print( def_comment( StrC::from( gen_sanity_file.print( def_comment( txt_StrC(
"End of base case tests.\n" "End of base case tests.\n"
))); )));

View File

@ -11,8 +11,7 @@ includes = include_directories(
# get_sources = files('./get_sources.ps1') # get_sources = files('./get_sources.ps1')
# sources = files(run_command('powershell', get_sources, check: true).stdout().strip().split('\n')) # sources = files(run_command('powershell', get_sources, check: true).stdout().strip().split('\n'))
sources = [ '../test.NonParsed.cpp' ] sources = [ '../test.cpp' ]
sources_parsed = [ '../test.Parsed.cpp' ]
if get_option('buildtype').startswith('debug') if get_option('buildtype').startswith('debug')
@ -26,4 +25,3 @@ endif
add_project_arguments('-Dgen_time', language : ['c', 'cpp']) add_project_arguments('-Dgen_time', language : ['c', 'cpp'])
executable( 'gencpp', sources, include_directories : includes ) executable( 'gencpp', sources, include_directories : includes )
executable( 'gencpp_parsed', sources_parsed, include_directories : includes )

View File

@ -1,9 +1,9 @@
#include "Bloat.cpp" #include "Bloat.cpp"
#include "NonParsed\Array.NonParsed.hpp" #include "Upfront\Array.Upfront.hpp"
#include "NonParsed\Buffer.NonParsed.hpp" #include "Upfront\Buffer.Upfront.hpp"
#include "NonParsed\HashTable.NonParsed.hpp" #include "Upfront\HashTable.Upfront.hpp"
#include "NonParsed\Ring.NonParsed.hpp" #include "Upfront\Ring.Upfront.hpp"
#include "NonParsed\Sanity.NonParsed.hpp" #include "Upfront\Sanity.Upfront.hpp"
#ifdef gen_time #ifdef gen_time
@ -20,7 +20,7 @@ int gen_main()
gen_sanity(); gen_sanity();
gen_array( u8 ); gen_array( u8 );
// gen_array( sw ); gen_array( sw );
gen_buffer( u8 ); gen_buffer( u8 );

View File

@ -12,6 +12,7 @@
using namespace gen; using namespace gen;
// TODO : Rewrite this to include both upfront and parsed testing.
int gen_main() int gen_main()
{ {
@ -41,7 +42,7 @@ int gen_main()
using u16 = unsigned short; using u16 = unsigned short;
))); )));
soa_test.print( def_include( StrC::from("Bloat.hpp"))); soa_test.print( def_include( txt_StrC("Bloat.hpp")));
soa_test.print( def_using_namespace( name(gen) ) ); soa_test.print( def_using_namespace( name(gen) ) );
@ -55,7 +56,7 @@ int gen_main()
u64 D; u64 D;
}; };
)), )),
true false
)); ));
soa_test.write(); soa_test.write();