gencpp/project/components/inlines.hpp

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#ifdef GEN_INTELLISENSE_DIRECTIVES
#pragma once
#include "interface.hpp"
#endif
#pragma region Code
inline
void append( Code self, Code other )
{
GEN_ASSERT(self.ast != nullptr);
GEN_ASSERT(other.ast != nullptr);
if ( other->Parent )
other = duplicate(other);
other->Parent = self;
if ( self->Front == nullptr )
{
self->Front = other;
self->Back = other;
self->NumEntries++;
return;
}
Code
Current = self->Back;
Current->Next = other;
other->Prev = Current;
self->Back = other;
self->NumEntries++;
}
inline
bool is_body(Code self)
{
GEN_ASSERT(self != nullptr);
switch (self->Type)
{
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case CT_Enum_Body:
case CT_Class_Body:
case CT_Union_Body:
case CT_Export_Body:
case CT_Global_Body:
case CT_Struct_Body:
case CT_Function_Body:
case CT_Namespace_Body:
case CT_Extern_Linkage_Body:
return true;
}
return false;
}
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inline
Code* entry( Code self, u32 idx )
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{
GEN_ASSERT(self.ast != nullptr);
Code* current = & self->Front;
while ( idx >= 0 && current != nullptr )
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{
if ( idx == 0 )
return rcast( Code*, current);
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current = & ( * current )->Next;
idx--;
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}
return rcast( Code*, current);
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}
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inline
bool is_valid(Code self)
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{
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return self.ast != nullptr && self.ast->Type != CT_Invalid;
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}
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inline
bool has_entries(AST* self)
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{
GEN_ASSERT(self != nullptr);
return self->NumEntries > 0;
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}
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inline
void set_global(Code self)
{
if ( self.ast == nullptr )
{
log_failure("Code::set_global: Cannot set code as global, AST is null!");
return;
}
self->Parent.ast = Code_Global.ast;
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}
inline
Code& Code::operator ++()
{
if ( ast )
ast = ast->Next.ast;
return * this;
}
inline
char const* type_str(Code self)
{
GEN_ASSERT(self != nullptr);
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return to_str( self->Type );
}
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#pragma endregion Code
#pragma region CodeBody
inline
void append( CodeBody self, Code other )
{
GEN_ASSERT(other.ast != nullptr);
if (is_body(other)) {
append( self, cast(CodeBody, other) );
return;
}
append( cast(Code, self), other );
}
inline
void append( CodeBody self, CodeBody body )
{
GEN_ASSERT(self.ast != nullptr);
for ( Code entry : body ) {
append( self, entry );
}
}
inline
Code begin( CodeBody body) {
if ( body.ast )
return { rcast( AST*, body.ast)->Front };
return { nullptr };
}
inline
Code end(CodeBody body ){
return { rcast(AST*, body.ast)->Back->Next };
}
#pragma endregion CodeBody
#pragma region CodeClass
inline
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void add_interface( CodeClass self, CodeTypename type )
{
GEN_ASSERT(self.ast !=nullptr);
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CodeTypename possible_slot = self->ParentType;
if ( possible_slot.ast )
{
// Were adding an interface to parent type, so we need to make sure the parent type is public.
self->ParentAccess = AccessSpec_Public;
// If your planning on adding a proper parent,
// then you'll need to move this over to ParentType->next and update ParentAccess accordingly.
}
while ( possible_slot.ast != nullptr )
{
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possible_slot.ast = (AST_Typename*) possible_slot->Next.ast;
}
possible_slot.ast = type.ast;
}
#pragma endregion CodeClass
#pragma region CodeParam
inline
void append( CodeParam appendee, CodeParam other )
{
GEN_ASSERT(appendee.ast != nullptr);
Code self = cast(Code, appendee);
Code entry = cast(Code, other);
if ( entry->Parent )
entry = GEN_NS duplicate( entry );
entry->Parent = self;
if ( self->Last == nullptr )
{
self->Last = entry;
self->Next = entry;
self->NumEntries++;
return;
}
self->Last->Next = entry;
self->Last = entry;
self->NumEntries++;
}
inline
CodeParam get(CodeParam self, s32 idx )
{
GEN_ASSERT(self.ast != nullptr);
CodeParam param = * self;
do
{
if ( ! ++ param )
return { nullptr };
param = cast(Code, param)->Next;
}
while ( --idx );
return param;
}
inline
bool has_entries(CodeParam self)
{
GEN_ASSERT(self.ast != nullptr);
return self->NumEntries > 0;
}
inline
CodeParam& CodeParam::operator ++()
{
ast = ast->Next.ast;
return * this;
}
inline
CodeParam begin(CodeParam params)
{
if ( params.ast )
return { params.ast };
return { nullptr };
}
inline
CodeParam end(CodeParam params)
{
// return { (AST_Param*) rcast( AST*, ast)->Last };
return { nullptr };
}
#pragma endregion CodeParam
#pragma region CodeSpecifiers
inline
bool append(CodeSpecifiers self, Specifier spec )
{
if ( self.ast == nullptr )
{
log_failure("CodeSpecifiers: Attempted to append to a null specifiers AST!");
return false;
}
if ( self->NumEntries == AST_ArrSpecs_Cap )
{
log_failure("CodeSpecifiers: Attempted to append over %d specifiers to a specifiers AST!", AST_ArrSpecs_Cap );
return false;
}
self->ArrSpecs[ self->NumEntries ] = spec;
self->NumEntries++;
return true;
}
inline
s32 has(CodeSpecifiers self, Specifier spec)
{
GEN_ASSERT(self.ast != nullptr);
for ( s32 idx = 0; idx < self->NumEntries; idx++ ) {
if ( self->ArrSpecs[ idx ] == spec )
return idx;
}
return -1;
}
inline
s32 remove( CodeSpecifiers self, Specifier to_remove )
{
AST_Specifiers* ast = self.ast;
if ( ast == nullptr )
{
log_failure("CodeSpecifiers: Attempted to append to a null specifiers AST!");
return -1;
}
if ( self->NumEntries == AST_ArrSpecs_Cap )
{
log_failure("CodeSpecifiers: Attempted to append over %d specifiers to a specifiers AST!", AST_ArrSpecs_Cap );
return -1;
}
s32 result = -1;
s32 curr = 0;
s32 next = 0;
for(; next < self->NumEntries; ++ curr, ++ next)
{
Specifier spec = self->ArrSpecs[next];
if (spec == to_remove)
{
result = next;
next ++;
if (next >= self->NumEntries)
break;
spec = self->ArrSpecs[next];
}
self->ArrSpecs[ curr ] = spec;
}
if (result > -1) {
self->NumEntries --;
}
return result;
}
inline
Specifier* begin(CodeSpecifiers self)
{
if ( self.ast )
return & self->ArrSpecs[0];
return nullptr;
}
inline
Specifier* end(CodeSpecifiers self)
{
return self->ArrSpecs + self->NumEntries;
}
#pragma endregion CodeSpecifiers
#pragma region CodeStruct
inline
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void add_interface(CodeStruct self, CodeTypename type )
{
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CodeTypename possible_slot = self->ParentType;
if ( possible_slot.ast )
{
// Were adding an interface to parent type, so we need to make sure the parent type is public.
self->ParentAccess = AccessSpec_Public;
// If your planning on adding a proper parent,
// then you'll need to move this over to ParentType->next and update ParentAccess accordingly.
}
while ( possible_slot.ast != nullptr )
{
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possible_slot.ast = (AST_Typename*) possible_slot->Next.ast;
}
possible_slot.ast = type.ast;
}
#pragma endregion Code
#pragma region Interface
inline
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CodeBody def_body( CodeType type )
{
switch ( type )
{
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case CT_Class_Body:
case CT_Enum_Body:
case CT_Export_Body:
case CT_Extern_Linkage:
case CT_Function_Body:
case CT_Global_Body:
case CT_Namespace_Body:
case CT_Struct_Body:
case CT_Union_Body:
break;
default:
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log_failure( "def_body: Invalid type %s", (char const*)to_str(type) );
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return (CodeBody)Code_Invalid;
}
Code
result = make_code();
result->Type = type;
return (CodeBody)result;
}
inline
StrC token_fmt_impl( ssize num, ... )
{
local_persist thread_local
char buf[GEN_PRINTF_MAXLEN] = { 0 };
mem_set( buf, 0, GEN_PRINTF_MAXLEN );
va_list va;
va_start(va, num );
ssize result = token_fmt_va(buf, GEN_PRINTF_MAXLEN, num, va);
va_end(va);
return { result, buf };
}
#pragma endregion Interface