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# include <VTUserAll.hpp>
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# include "StructFormatter.hpp"
# include "AccessibleValue.hpp"
# include "TerminalHelper.hpp"
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namespace Unvirt : : StructFormatter {
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# pragma region Assist Functions
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static void PrintCKSTRING ( LibCmo : : CKSTRING name ) {
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if ( name = = nullptr ) {
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fputs ( UNVIRT_TERMCOL_LIGHT_MAGENTA ( ( " <anonymous> " ) ) , stdout ) ;
} else {
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if ( name [ 0 ] = = ' \0 ' ) {
fputs ( UNVIRT_TERMCOL_LIGHT_MAGENTA ( ( " <blank> " ) ) , stdout ) ;
} else {
fputs ( name , stdout ) ;
}
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}
}
static void PrintPointer ( const void * ptr ) {
if ( ptr = = nullptr ) {
fputs ( UNVIRT_TERMCOL_LIGHT_CYAN ( ( " <null> " ) ) , stdout ) ;
} else {
# if UINTPTR_MAX == UINT32_MAX
// 32 bit. padding 8 zero
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fprintf ( stdout , " <0x%08 " PRIxPTR " > " , reinterpret_cast < uintptr_t > ( ptr ) ) ;
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# else
// 64 bit. padding 16 zero
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fprintf ( stdout , " <0x%016 " PRIxPTR " > " , reinterpret_cast < uintptr_t > ( ptr ) ) ;
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# endif
}
}
static void PrintCKGUID ( const LibCmo : : CK2 : : CKGUID & guid ) {
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fprintf ( stdout , " <0x%08 " PRIxCKDWORD " , 0x%08 " PRIxCKDWORD " > " , guid . d1 , guid . d2 ) ;
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}
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static void PrintBool ( bool v ) {
fputs ( v ? " true " : " false " , stdout ) ;
}
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static void PrintColorfulBool ( bool v ) {
fputs ( v ? UNVIRT_TERMCOL_LIGHT_GREEN ( ( " Yes " ) ) : UNVIRT_TERMCOL_LIGHT_RED ( ( " No " ) ) , stdout ) ;
}
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static void PrintColor ( const LibCmo : : VxMath : : VxColor & col ) {
LibCmo : : CKDWORD argb = col . ToARGB ( ) ;
LibCmo : : CKDWORD a = ( argb & 0xFF000000 ) > > 24 ,
r = ( argb & 0x00FF0000 ) > > 16 ,
g = ( argb & 0x0000FF00 ) > > 8 ,
b = ( argb & 0x000000FF ) ;
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fprintf ( stdout , " A:% " PRIuCKDWORD " (%.4 " PRIfCKFLOAT " ) RGB(% " PRIuCKDWORD " , % " PRIuCKDWORD " , % " PRIuCKDWORD " ) RGB#%02 " PRIxCKDWORD " %02 " PRIxCKDWORD " %02 " PRIxCKDWORD " RGBA#%02 " PRIxCKDWORD " %02 " PRIxCKDWORD " %02 " PRIxCKDWORD " %02 " PRIxCKDWORD ,
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a , col . a ,
r , g , b ,
r , g , b ,
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r , g , b , a
) ;
}
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static void PrintColor ( LibCmo : : CKDWORD argb ) {
PrintColor ( LibCmo : : VxMath : : VxColor ( argb ) ) ;
}
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template < class _Ty >
static void GeneralPrintList (
const std : : vector < _Ty > & data , size_t page , size_t pageitems ,
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std : : function < void ( ) > printHdrFct , std : : function < void ( size_t , const _Ty & ) > printEntryFct ) {
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// check page overflow
if ( page * pageitems > = data . size ( ) ) {
fputs ( UNVIRT_TERMCOL_LIGHT_RED ( ( " Page out of range. \n " ) ) , stdout ) ;
return ;
}
// calc page data
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size_t fulllen = data . size ( ) ,
startpos = page * pageitems ,
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fullpage = ( fulllen + ( pageitems - 1 ) ) / pageitems ; // to solve `fulllen / pageitems` empty page issue. like CKStateChunk::GetCeilDwordSize function (+3 /4 to get DWORD size).
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// print header
printHdrFct ( ) ;
// print body
for ( size_t counter = startpos ; counter < fulllen & & ( counter - startpos ) < pageitems ; + + counter ) {
printEntryFct ( counter , data [ counter ] ) ;
}
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fprintf ( stdout , " Page % " PRIuSIZET " of % " PRIuSIZET " \n " , page + 1 , fullpage ) ;
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}
# pragma endregion
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# pragma region Object Printer
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static void PrintCKObjectDetail ( LibCmo : : CK2 : : ObjImpls : : CKObject * obj ) {
fputs ( UNVIRT_TERMCOL_LIGHT_YELLOW ( ( " CKObject \n " ) ) , stdout ) ;
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// print name
fputs ( " Name: " , stdout ) ;
PrintCKSTRING ( obj - > GetName ( ) ) ;
fputc ( ' \n ' , stdout ) ;
// print id
fprintf ( stdout , " CK ID: % " PRIuCKID " \n " , obj - > GetID ( ) ) ;
// print class id
fprintf ( stdout , " Class ID: % " PRIiCLASSID " (%s) \n " , obj - > GetClassID ( ) , AccessibleValue : : GetClassIdHierarchy ( obj - > GetClassID ( ) ) . c_str ( ) ) ;
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// print flags
fputs ( " Flags: \n " , stdout ) ;
fputs ( AccessibleValue : : GetFlagEnumName ( obj - > GetObjectFlags ( ) , AccessibleValue : : EnumDesc : : CK_OBJECT_FLAGS , " \n " ) . c_str ( ) , stdout ) ;
fputc ( ' \n ' , stdout ) ;
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}
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static void PrintCKSceneObjectDetail ( LibCmo : : CK2 : : ObjImpls : : CKSceneObject * obj ) {
PrintCKObjectDetail ( obj ) ;
fputs ( UNVIRT_TERMCOL_LIGHT_YELLOW ( ( " CKSceneObject \n " ) ) , stdout ) ;
fputs ( UNVIRT_TERMCOL_LIGHT_RED ( ( " No Data \n " ) ) , stdout ) ;
}
static void PrintCKBeObjectDetail ( LibCmo : : CK2 : : ObjImpls : : CKBeObject * obj ) {
PrintCKSceneObjectDetail ( obj ) ;
fputs ( UNVIRT_TERMCOL_LIGHT_YELLOW ( ( " CKBeObject \n " ) ) , stdout ) ;
fputs ( UNVIRT_TERMCOL_LIGHT_RED ( ( " No Data \n " ) ) , stdout ) ;
}
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static void PrintCKGroupDetail ( LibCmo : : CK2 : : ObjImpls : : CKGroup * obj ) {
PrintCKBeObjectDetail ( obj ) ;
fputs ( UNVIRT_TERMCOL_LIGHT_YELLOW ( ( " CKGroup \n " ) ) , stdout ) ;
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LibCmo : : CKDWORD count = obj - > GetObjectCount ( ) ;
fprintf ( stdout , " Group Object Count: % " PRIuCKDWORD " \n " , count ) ;
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fputs ( " CKID \t Type \t Object \t Name \n " , stdout ) ;
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for ( LibCmo : : CKDWORD i = 0 ; i < count ; + + i ) {
LibCmo : : CK2 : : ObjImpls : : CKBeObject * beobj = obj - > GetObject ( i ) ;
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fprintf ( stdout , " % " PRIuCKID " \t " , beobj - > GetID ( ) ) ;
fputs ( AccessibleValue : : GetClassIdName ( beobj - > GetClassID ( ) ) . c_str ( ) , stdout ) ;
fputc ( ' \t ' , stdout ) ;
PrintPointer ( beobj ) ;
fputc ( ' \t ' , stdout ) ;
PrintCKSTRING ( beobj - > GetName ( ) ) ;
fputc ( ' \n ' , stdout ) ;
}
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}
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static void PrintCKRenderObjectDetail ( LibCmo : : CK2 : : ObjImpls : : CKRenderObject * obj ) {
PrintCKBeObjectDetail ( obj ) ;
fputs ( UNVIRT_TERMCOL_LIGHT_YELLOW ( ( " CKRenderObject \n " ) ) , stdout ) ;
fputs ( UNVIRT_TERMCOL_LIGHT_RED ( ( " No Data \n " ) ) , stdout ) ;
}
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static void PrintCK3dEntityDetail ( LibCmo : : CK2 : : ObjImpls : : CK3dEntity * obj ) {
PrintCKRenderObjectDetail ( obj ) ;
fputs ( UNVIRT_TERMCOL_LIGHT_YELLOW ( ( " CK3dEntity \n " ) ) , stdout ) ;
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fputs ( " == World Matrix == \n " , stdout ) ;
auto mat = obj - > GetWorldMatrix ( ) ;
for ( LibCmo : : CKDWORD i = 0 ; i < 4 ; + + i ) {
fprintf ( stdout , " %+ " PRIeCKFLOAT " \t %+ " PRIeCKFLOAT " \t %+ " PRIeCKFLOAT " \t %+ " PRIeCKFLOAT " \n " ,
mat [ i ] . x , mat [ i ] . y , mat [ i ] . z , mat [ i ] . w
) ;
}
fputs ( " == Flags == \n " , stdout ) ;
fputs ( " 3dEntity Flags: \n " , stdout ) ;
fputs ( AccessibleValue : : GetFlagEnumName ( obj - > GetEntityFlags ( ) , AccessibleValue : : EnumDesc : : CK_3DENTITY_FLAGS , " \n " ) . c_str ( ) , stdout ) ;
fputc ( ' \n ' , stdout ) ;
fputs ( " Moveable Flags: \n " , stdout ) ;
fputs ( AccessibleValue : : GetFlagEnumName ( obj - > GetMoveableFlags ( ) , AccessibleValue : : EnumDesc : : VX_MOVEABLE_FLAGS , " \n " ) . c_str ( ) , stdout ) ;
fputc ( ' \n ' , stdout ) ;
fputs ( " == Meshs == \n " , stdout ) ;
fputs ( " Index \t Address \t Name \n " , stdout ) ;
// print current mesh
auto curmesh = obj - > GetCurrentMesh ( ) ;
fputs ( " -> \t " , stdout ) ;
PrintPointer ( curmesh ) ;
fputc ( ' \t ' , stdout ) ;
if ( curmesh ! = nullptr )
PrintCKSTRING ( curmesh - > GetName ( ) ) ;
fputc ( ' \n ' , stdout ) ;
for ( LibCmo : : CKDWORD i = 0 ; i < obj - > GetPotentialMeshCount ( ) ; + + i ) {
auto thismesh = obj - > GetPotentialMesh ( i ) ;
fprintf ( stdout , " #% " PRIuCKDWORD " \t " , i ) ;
PrintPointer ( thismesh ) ;
fputc ( ' \t ' , stdout ) ;
PrintCKSTRING ( thismesh - > GetName ( ) ) ;
fputc ( ' \n ' , stdout ) ;
}
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}
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static void PrintCK3dObjectDetail ( LibCmo : : CK2 : : ObjImpls : : CK3dObject * obj ) {
PrintCK3dEntityDetail ( obj ) ;
fputs ( UNVIRT_TERMCOL_LIGHT_YELLOW ( ( " CK3dObject \n " ) ) , stdout ) ;
fputs ( UNVIRT_TERMCOL_LIGHT_RED ( ( " No Data \n " ) ) , stdout ) ;
}
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static void PrintCKTextureDetail ( LibCmo : : CK2 : : ObjImpls : : CKTexture * obj ) {
PrintCKBeObjectDetail ( obj ) ;
fputs ( UNVIRT_TERMCOL_LIGHT_YELLOW ( ( " CKTexture \n " ) ) , stdout ) ;
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// texture
fputs ( " == Texture == \n " , stdout ) ;
LibCmo : : CK2 : : CKBitmapData & bd = obj - > GetUnderlyingData ( ) ;
LibCmo : : CKDWORD slot_count = bd . GetSlotCount ( ) ;
fprintf ( stdout , " Slot Count: % " PRIuCKDWORD " \n " , slot_count ) ;
fprintf ( stdout , " Current Slot: % " PRIuCKDWORD " \n " , bd . GetCurrentSlot ( ) ) ;
fputs ( " Index \t Width \t Height \t Image Addr \t Image Size \t Filename \n " , stdout ) ;
for ( LibCmo : : CKDWORD i = 0 ; i < slot_count ; + + i ) {
auto desc = bd . GetImageDesc ( i ) ;
fprintf ( stdout , " #% " PRIuCKDWORD " \t " , i ) ;
fprintf ( stdout , " % " PRIuCKDWORD " \t % " PRIuCKDWORD " \t " , desc - > GetWidth ( ) , desc - > GetHeight ( ) ) ;
PrintPointer ( desc - > GetImage ( ) ) ;
fputc ( ' \t ' , stdout ) ;
fprintf ( stdout , " 0x% " PRIxCKDWORD " bytes \t " , desc - > GetImageSize ( ) ) ;
PrintCKSTRING ( bd . GetSlotFileName ( i ) ) ;
fputc ( ' \n ' , stdout ) ;
}
// other data
fputs ( " == Misc == \n " , stdout ) ;
fprintf ( stdout , " Video Format: %s \n " , AccessibleValue : : GetEnumName ( obj - > GetVideoFormat ( ) , AccessibleValue : : EnumDesc : : VX_PIXELFORMAT ) . c_str ( ) ) ;
fprintf ( stdout , " Save Option: %s \n " , AccessibleValue : : GetEnumName ( bd . GetSaveOptions ( ) , AccessibleValue : : EnumDesc : : CK_TEXTURE_SAVEOPTIONS ) . c_str ( ) ) ;
fprintf ( stdout , " Pick Threshold: % " PRIuCKDWORD " \n " , bd . GetPickThreshold ( ) ) ;
fputs ( " Transparent Color: " , stdout ) ;
PrintColor ( bd . GetTransparentColor ( ) ) ;
fputc ( ' \n ' , stdout ) ;
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fputs ( " Bitmap Flags: \n " , stdout ) ;
fputs ( AccessibleValue : : GetFlagEnumName ( bd . GetBitmapFlags ( ) , AccessibleValue : : EnumDesc : : CK_BITMAPDATA_FLAGS , " \n " ) . c_str ( ) , stdout ) ;
fputc ( ' \n ' , stdout ) ;
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}
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static void PrintCKMaterialDetail ( LibCmo : : CK2 : : ObjImpls : : CKMaterial * obj ) {
PrintCKBeObjectDetail ( obj ) ;
fputs ( UNVIRT_TERMCOL_LIGHT_YELLOW ( ( " CKMaterial \n " ) ) , stdout ) ;
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// color
fputs ( " == Color == \n " , stdout ) ;
fputs ( " Diffuse: " , stdout ) ;
PrintColor ( obj - > GetDiffuse ( ) ) ;
fputc ( ' \n ' , stdout ) ;
fputs ( " Ambient: " , stdout ) ;
PrintColor ( obj - > GetAmbient ( ) ) ;
fputc ( ' \n ' , stdout ) ;
fputs ( " Specular: " , stdout ) ;
PrintColor ( obj - > GetSpecular ( ) ) ;
fputc ( ' \n ' , stdout ) ;
fputs ( " Emissive: " , stdout ) ;
PrintColor ( obj - > GetEmissive ( ) ) ;
fputc ( ' \n ' , stdout ) ;
fprintf ( stdout , " Specular Power: %.2 " PRIfCKFLOAT " \n " , obj - > GetSpecularPower ( ) ) ;
// basic data
fputs ( " == Basic == \n " , stdout ) ;
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fputs ( " Both Sided: " , stdout ) ;
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PrintBool ( obj - > GetTwoSidedEnabled ( ) ) ;
fputc ( ' \n ' , stdout ) ;
fprintf ( stdout , " Fill Mode: %s \n " , AccessibleValue : : GetEnumName ( obj - > GetFillMode ( ) , AccessibleValue : : EnumDesc : : VXFILL_MODE ) . c_str ( ) ) ;
fprintf ( stdout , " Shade Mode: %s \n " , AccessibleValue : : GetEnumName ( obj - > GetShadeMode ( ) , AccessibleValue : : EnumDesc : : VXSHADE_MODE ) . c_str ( ) ) ;
// textures
fputs ( " == Texture == \n " , stdout ) ;
fputs ( " Textures: \n " , stdout ) ;
fputs ( " Index \t Address \t Name \n " , stdout ) ;
for ( LibCmo : : CKDWORD i = 0 ; i < 4 ; + + i ) {
auto tex = obj - > GetTexture ( i ) ;
fprintf ( stdout , " #% " PRIuCKDWORD " \t " , i ) ;
PrintPointer ( tex ) ;
fputc ( ' \t ' , stdout ) ;
if ( tex ! = nullptr )
PrintCKSTRING ( tex - > GetName ( ) ) ;
fputc ( ' \n ' , stdout ) ;
}
fprintf ( stdout , " Texture Blend: %s \n " , AccessibleValue : : GetEnumName ( obj - > GetTextureBlendMode ( ) , AccessibleValue : : EnumDesc : : VXTEXTURE_BLENDMODE ) . c_str ( ) ) ;
fprintf ( stdout , " Filter Min: %s \n " , AccessibleValue : : GetEnumName ( obj - > GetTextureMinMode ( ) , AccessibleValue : : EnumDesc : : VXTEXTURE_FILTERMODE ) . c_str ( ) ) ;
fprintf ( stdout , " Filter Mag: %s \n " , AccessibleValue : : GetEnumName ( obj - > GetTextureMagMode ( ) , AccessibleValue : : EnumDesc : : VXTEXTURE_FILTERMODE ) . c_str ( ) ) ;
fprintf ( stdout , " Address Mode: %s \n " , AccessibleValue : : GetEnumName ( obj - > GetTextureAddressMode ( ) , AccessibleValue : : EnumDesc : : VXTEXTURE_ADDRESSMODE ) . c_str ( ) ) ;
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fputs ( " Perspective Correct: " , stdout ) ;
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PrintBool ( obj - > GetPerspectiveCorrectionEnabled ( ) ) ;
fputc ( ' \n ' , stdout ) ;
// alpha test
fputs ( " == Alpha Test == \n " , stdout ) ;
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fputs ( " Enabled: " , stdout ) ;
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PrintBool ( obj - > GetAlphaTestEnabled ( ) ) ;
fputc ( ' \n ' , stdout ) ;
fprintf ( stdout , " Alpha Function: %s \n " , AccessibleValue : : GetEnumName ( obj - > GetAlphaFunc ( ) , AccessibleValue : : EnumDesc : : VXCMPFUNC ) . c_str ( ) ) ;
fprintf ( stdout , " Alpha Ref Value: % " PRIuCKBYTE " \n " , obj - > GetAlphaRef ( ) ) ;
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// alpha blend
fputs ( " == Alpha Blend == \n " , stdout ) ;
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fputs ( " Enabled: " , stdout ) ;
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PrintBool ( obj - > GetAlphaBlendEnabled ( ) ) ;
fputc ( ' \n ' , stdout ) ;
fprintf ( stdout , " Source Blend: %s \n " , AccessibleValue : : GetEnumName ( obj - > GetSourceBlend ( ) , AccessibleValue : : EnumDesc : : VXBLEND_MODE ) . c_str ( ) ) ;
fprintf ( stdout , " Destination Blend: %s \n " , AccessibleValue : : GetEnumName ( obj - > GetDestBlend ( ) , AccessibleValue : : EnumDesc : : VXBLEND_MODE ) . c_str ( ) ) ;
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// z buffer
fputs ( " == Z-Buffer Write == \n " , stdout ) ;
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fputs ( " Enabled: " , stdout ) ;
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PrintBool ( obj - > GetZWriteEnabled ( ) ) ;
fputc ( ' \n ' , stdout ) ;
fprintf ( stdout , " Z Compare Function: %s \n " , AccessibleValue : : GetEnumName ( obj - > GetZFunc ( ) , AccessibleValue : : EnumDesc : : VXCMPFUNC ) . c_str ( ) ) ;
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// effect
fputs ( " == Effect == \n " , stdout ) ;
fprintf ( stdout , " Effect: %s \n " , AccessibleValue : : GetEnumName ( obj - > GetEffect ( ) , AccessibleValue : : EnumDesc : : VX_EFFECT ) . c_str ( ) ) ;
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}
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static void PrintCKMeshDetail ( LibCmo : : CK2 : : ObjImpls : : CKMesh * obj ) {
PrintCKBeObjectDetail ( obj ) ;
fputs ( UNVIRT_TERMCOL_LIGHT_YELLOW ( ( " CKMesh \n " ) ) , stdout ) ;
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fputs ( " == Flags == \n " , stdout ) ;
fputs ( " Mesh Flags: \n " , stdout ) ;
fputs ( AccessibleValue : : GetFlagEnumName ( obj - > GetMeshFlags ( ) , AccessibleValue : : EnumDesc : : VXMESH_FLAGS , " \n " ) . c_str ( ) , stdout ) ;
fputc ( ' \n ' , stdout ) ;
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fputs ( " Lit Mode: " , stdout ) ;
fputs ( AccessibleValue : : GetEnumName ( obj - > GetLitMode ( ) , AccessibleValue : : EnumDesc : : VXMESH_LITMODE ) . c_str ( ) , stdout ) ;
fputc ( ' \n ' , stdout ) ;
fputs ( " Wrap Mode: " , stdout ) ;
fputs ( AccessibleValue : : GetEnumName ( obj - > GetWrapMode ( ) , AccessibleValue : : EnumDesc : : VXTEXTURE_WRAPMODE ) . c_str ( ) , stdout ) ;
fputc ( ' \n ' , stdout ) ;
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// vertex data
fputs ( " == Vertex == \n " , stdout ) ;
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fprintf ( stdout , " Vertex Count: % " PRIuCKDWORD " \n " , obj - > GetVertexCount ( ) ) ;
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fputs ( " Address \t Size \t Type \n " , stdout ) ;
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PrintPointer ( obj - > GetVertexPositions ( ) ) ;
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fprintf ( stdout , " \t 0x% " PRIxCKDWORD " bytes \t Positions \n " , obj - > GetVertexCount ( ) * CKSizeof ( LibCmo : : VxMath : : VxVector3 ) ) ;
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PrintPointer ( obj - > GetVertexNormals ( ) ) ;
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fprintf ( stdout , " \t 0x% " PRIxCKDWORD " bytes \t Normals \n " , obj - > GetVertexCount ( ) * CKSizeof ( LibCmo : : VxMath : : VxVector3 ) ) ;
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PrintPointer ( obj - > GetVertexUVs ( ) ) ;
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fprintf ( stdout , " \t 0x% " PRIxCKDWORD " bytes \t UVs \n " , obj - > GetVertexCount ( ) * CKSizeof ( LibCmo : : VxMath : : VxVector2 ) ) ;
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PrintPointer ( obj - > GetVertexColors ( ) ) ;
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fprintf ( stdout , " \t 0x% " PRIxCKDWORD " bytes \t Colors \n " , obj - > GetVertexCount ( ) * CKSizeof ( LibCmo : : CKDWORD ) ) ;
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PrintPointer ( obj - > GetVertexSpecularColors ( ) ) ;
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fprintf ( stdout , " \t 0x% " PRIxCKDWORD " bytes \t SpecularColors \n " , obj - > GetVertexCount ( ) * CKSizeof ( LibCmo : : CKDWORD ) ) ;
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// face data
fputs ( " == Face == \n " , stdout ) ;
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fprintf ( stdout , " Face Count: % " PRIuCKDWORD " \n " , obj - > GetFaceCount ( ) ) ;
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fputs ( " Address \t Size \t Type \n " , stdout ) ;
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PrintPointer ( obj - > GetFaceIndices ( ) ) ;
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fprintf ( stdout , " \t 0x% " PRIxCKDWORD " bytes \t Indices \n " , obj - > GetFaceCount ( ) * 3 * CKSizeof ( LibCmo : : CKWORD ) ) ;
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PrintPointer ( obj - > GetFaceMaterialSlotIndexs ( ) ) ;
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fprintf ( stdout , " \t 0x% " PRIxCKDWORD " bytes \t MaterialSlotIndexs \n " , obj - > GetFaceCount ( ) * CKSizeof ( LibCmo : : CKWORD ) ) ;
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// mtl slot data
fputs ( " == Material Slot == \n " , stdout ) ;
LibCmo : : CKDWORD slotcount = obj - > GetMaterialSlotCount ( ) ;
LibCmo : : CK2 : : ObjImpls : : CKMaterial * * pMtlSlots = obj - > GetMaterialSlots ( ) ;
fprintf ( stdout , " Material Slot Count: % " PRIuCKDWORD " \n " , slotcount ) ;
fputs ( " Index \t Address \t Name \n " , stdout ) ;
for ( LibCmo : : CKDWORD i = 0 ; i < slotcount ; + + i ) {
LibCmo : : CK2 : : ObjImpls : : CKMaterial * mtl = pMtlSlots [ i ] ;
fprintf ( stdout , " #% " PRIuCKDWORD " \t " , i ) ;
PrintPointer ( mtl ) ;
fputc ( ' \t ' , stdout ) ;
if ( mtl ! = nullptr )
PrintCKSTRING ( mtl - > GetName ( ) ) ;
fputc ( ' \n ' , stdout ) ;
}
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}
# pragma endregion
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void PrintCKFileInfo ( const LibCmo : : CK2 : : CKFileInfo & fileinfo ) {
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fputs ( UNVIRT_TERMCOL_LIGHT_YELLOW ( ( " CKFileInfo \n " ) ) , stdout ) ;
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fprintf ( stdout , " FileVersion: % " PRIuCKDWORD " \n " , fileinfo . FileVersion ) ;
fprintf ( stdout , " CKVersion: %02 " PRIxCKDWORD " /%02 " PRIxCKDWORD " /%04 " PRIxCKDWORD " \n " ,
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( fileinfo . CKVersion > > 24 ) & 0xFF ,
( fileinfo . CKVersion > > 16 ) & 0xFF ,
( fileinfo . CKVersion > > 0 ) & 0xFFFF
) ;
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LibCmo : : CKDWORD product_series [ 4 ] {
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( fileinfo . ProductBuild > > 24 ) & 0xFF ,
( fileinfo . ProductBuild > > 16 ) & 0xFF ,
( fileinfo . ProductBuild > > 8 ) & 0xFF ,
( fileinfo . ProductBuild > > 0 ) & 0xFF ,
} ;
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fprintf ( stdout , " Product (Version / Build): % " PRIuCKDWORD " / % " PRIuCKDWORD " .% " PRIuCKDWORD " .% " PRIuCKDWORD " .% " PRIuCKDWORD " \n " ,
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fileinfo . ProductVersion , product_series [ 0 ] , product_series [ 1 ] , product_series [ 2 ] , product_series [ 3 ]
) ;
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fprintf ( stdout , " Save Flags: %s \n " , AccessibleValue : : GetFlagEnumName (
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fileinfo . FileWriteMode , AccessibleValue : : EnumDesc : : CK_FILE_WRITEMODE , " , "
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) . c_str ( ) ) ;
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fprintf ( stdout , " File Size: %s \n " , AccessibleValue : : GetReadableFileSize ( fileinfo . FileSize ) . c_str ( ) ) ;
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fprintf ( stdout , " Crc: 0x% " PRIxCKDWORD " \n " , fileinfo . Crc ) ;
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fputc ( ' \n ' , stdout ) ;
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fputs ( " Hdr1 (Pack / UnPack): " , stdout ) ;
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fprintf ( stdout , " %s / " , AccessibleValue : : GetReadableFileSize ( fileinfo . Hdr1PackSize ) . c_str ( ) ) ;
fprintf ( stdout , " %s \n " , AccessibleValue : : GetReadableFileSize ( fileinfo . Hdr1UnPackSize ) . c_str ( ) ) ;
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fputs ( " Data (Pack / UnPack): " , stdout ) ;
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fprintf ( stdout , " %s / " , AccessibleValue : : GetReadableFileSize ( fileinfo . DataPackSize ) . c_str ( ) ) ;
fprintf ( stdout , " %s \n " , AccessibleValue : : GetReadableFileSize ( fileinfo . DataUnPackSize ) . c_str ( ) ) ;
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fputc ( ' \n ' , stdout ) ;
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fprintf ( stdout , " Manager Count: % " PRIuCKDWORD " \n Object Count: % " PRIuCKDWORD " \n Max ID Saved: % " PRIuCKID " \n " ,
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fileinfo . ManagerCount , fileinfo . ObjectCount , fileinfo . MaxIDSaved
) ;
}
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# pragma region Object List Printer
static void PrintObjectListHeader ( bool full_detail ) {
if ( full_detail ) {
fputs ( " SaveFlags \t Options \t CK ID \t File CK ID \t File Index \t Pack Size \t Index \t Type \t CKObject \t CKStateChunk \t Name \n " , stdout ) ;
} else {
fputs ( " Index \t Type \t Object \t Chunk \t Name \n " , stdout ) ;
}
}
static void PrintObjectListEntry ( const LibCmo : : CK2 : : CKFileObject & obj , const LibCmo : : CK2 : : CKFileInfo & fileinfo , size_t entry_index , bool full_detail ) {
if ( full_detail ) {
fprintf ( stdout , " 0x%08 " PRIxCKDWORD " \t " , obj . SaveFlags ) ;
fputs ( AccessibleValue : : GetEnumName ( obj . Options , AccessibleValue : : EnumDesc : : CK_FO_OPTIONS ) . c_str ( ) , stdout ) ;
fputc ( ' \t ' , stdout ) ;
fprintf ( stdout , " % " PRIuCKID " \t " , obj . CreatedObjectId ) ;
fprintf ( stdout , " % " PRIuCKID " \t " , obj . ObjectId ) ;
fprintf ( stdout , " 0x%08 " PRIxCKDWORD " (Rel: 0x%08 " PRIxCKDWORD " ) \t " ,
obj . FileIndex ,
obj . FileIndex - CKSizeof ( LibCmo : : CK2 : : CKRawFileInfo ) - fileinfo . Hdr1UnPackSize ) ;
fprintf ( stdout , " 0x%08 " PRIxCKDWORD " \t " , obj . PackSize ) ;
fprintf ( stdout , " #% " PRIuSIZET " \t " , entry_index ) ;
fputs ( AccessibleValue : : GetClassIdName ( obj . ObjectCid ) . c_str ( ) , stdout ) ;
fputc ( ' \t ' , stdout ) ;
PrintPointer ( obj . ObjPtr ) ;
fputc ( ' \t ' , stdout ) ;
PrintPointer ( obj . Data ) ;
fputc ( ' \t ' , stdout ) ;
PrintCKSTRING ( LibCmo : : XContainer : : NSXString : : ToCKSTRING ( obj . Name ) ) ;
fputc ( ' \n ' , stdout ) ;
} else {
fprintf ( stdout , " #% " PRIuSIZET " \t " , entry_index ) ;
fputs ( AccessibleValue : : GetClassIdName ( obj . ObjectCid ) . c_str ( ) , stdout ) ;
fputc ( ' \t ' , stdout ) ;
PrintColorfulBool ( obj . ObjPtr ! = nullptr ) ;
fputc ( ' \t ' , stdout ) ;
PrintColorfulBool ( obj . Data ! = nullptr ) ;
fputc ( ' \t ' , stdout ) ;
PrintCKSTRING ( LibCmo : : XContainer : : NSXString : : ToCKSTRING ( obj . Name ) ) ;
fputc ( ' \n ' , stdout ) ;
}
}
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void PrintObjectList (
const LibCmo : : XContainer : : XArray < LibCmo : : CK2 : : CKFileObject > & ls ,
const LibCmo : : CK2 : : CKFileInfo & fileinfo ,
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size_t page , size_t pageitems ,
bool full_detail ) {
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fputs ( UNVIRT_TERMCOL_LIGHT_YELLOW ( ( " CKFileObject \n " ) ) , stdout ) ;
GeneralPrintList < LibCmo : : CK2 : : CKFileObject > ( ls , page , pageitems ,
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[ full_detail ] ( ) - > void {
PrintObjectListHeader ( full_detail ) ;
} ,
[ & fileinfo , full_detail ] ( size_t index , const LibCmo : : CK2 : : CKFileObject & obj ) - > void {
PrintObjectListEntry ( obj , fileinfo , index , full_detail ) ;
}
) ;
}
void PrintSearchedObjectList (
const LibCmo : : XContainer : : XArray < size_t > & idxls ,
const LibCmo : : XContainer : : XArray < LibCmo : : CK2 : : CKFileObject > & ls ,
const LibCmo : : CK2 : : CKFileInfo & fileinfo ,
size_t page , size_t pageitems ,
bool full_detail ) {
fputs ( UNVIRT_TERMCOL_LIGHT_YELLOW ( ( " CKFileObject Searching Result \n " ) ) , stdout ) ;
GeneralPrintList < size_t > ( idxls , page , pageitems ,
[ full_detail ] ( ) - > void {
PrintObjectListHeader ( full_detail ) ;
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} ,
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[ & ls , & fileinfo , full_detail ] ( size_t , const size_t & index_to_obj ) - > void {
// resolve index to real item.
// and pass the entry index, not the page index.
PrintObjectListEntry ( ls [ index_to_obj ] , fileinfo , index_to_obj , full_detail ) ;
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}
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) ;
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}
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# pragma endregion
# pragma region Manager List Printer
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static void PrintManagerListHeader ( bool full_detail ) {
// manager list now do not affected by list style because it is enough short
fputs ( " Index \t CKGUID \t CKStateChunk \n " , stdout ) ;
}
static void PrintManagerListEntry ( const LibCmo : : CK2 : : CKFileManagerData & mgr , size_t entry_index , bool full_detail ) {
// not affected by list style.
fprintf ( stdout , " #% " PRIuSIZET " \t " , entry_index ) ;
PrintCKGUID ( mgr . Manager ) ;
fputc ( ' \t ' , stdout ) ;
PrintPointer ( mgr . Data ) ;
fputc ( ' \n ' , stdout ) ;
}
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void PrintManagerList (
const LibCmo : : XContainer : : XArray < LibCmo : : CK2 : : CKFileManagerData > & ls ,
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size_t page , size_t pageitems ,
bool full_detail ) {
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fputs ( UNVIRT_TERMCOL_LIGHT_YELLOW ( ( " CKFileManager \n " ) ) , stdout ) ;
GeneralPrintList < LibCmo : : CK2 : : CKFileManagerData > ( ls , page , pageitems ,
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[ full_detail ] ( ) - > void {
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// print header
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PrintManagerListHeader ( full_detail ) ;
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} ,
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[ full_detail ] ( size_t index , const LibCmo : : CK2 : : CKFileManagerData & mgr ) - > void {
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// print body
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PrintManagerListEntry ( mgr , index , full_detail ) ;
}
) ;
}
void PrintSearchedManagerList (
const LibCmo : : XContainer : : XArray < size_t > & idxls ,
const LibCmo : : XContainer : : XArray < LibCmo : : CK2 : : CKFileManagerData > & ls ,
size_t page , size_t pageitems ,
bool full_detail ) {
fputs ( UNVIRT_TERMCOL_LIGHT_YELLOW ( ( " CKFileManager Searching Result \n " ) ) , stdout ) ;
GeneralPrintList < size_t > ( idxls , page , pageitems ,
[ full_detail ] ( ) - > void {
PrintManagerListHeader ( full_detail ) ;
} ,
[ & ls , full_detail ] ( size_t , const size_t & index_to_mgr ) - > void {
// resolve index to real one
PrintManagerListEntry ( ls [ index_to_mgr ] , index_to_mgr , full_detail ) ;
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}
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) ;
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}
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# pragma endregion
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void PrintCKObject ( const LibCmo : : CK2 : : ObjImpls : : CKObject * obj ) {
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if ( obj = = nullptr ) {
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fputs ( UNVIRT_TERMCOL_LIGHT_RED ( ( " Null Object \n " ) ) , stdout ) ;
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return ;
}
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LibCmo : : CK2 : : ObjImpls : : CKObject * mobj = const_cast < LibCmo : : CK2 : : ObjImpls : : CKObject * > ( obj ) ;
switch ( mobj - > GetClassID ( ) ) {
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case LibCmo : : CK2 : : CK_CLASSID : : CKCID_OBJECT :
PrintCKObjectDetail ( static_cast < LibCmo : : CK2 : : ObjImpls : : CKObject * > ( mobj ) ) ;
break ;
case LibCmo : : CK2 : : CK_CLASSID : : CKCID_SCENEOBJECT :
PrintCKSceneObjectDetail ( static_cast < LibCmo : : CK2 : : ObjImpls : : CKSceneObject * > ( mobj ) ) ;
break ;
case LibCmo : : CK2 : : CK_CLASSID : : CKCID_BEOBJECT :
PrintCKBeObjectDetail ( static_cast < LibCmo : : CK2 : : ObjImpls : : CKBeObject * > ( mobj ) ) ;
break ;
case LibCmo : : CK2 : : CK_CLASSID : : CKCID_GROUP :
PrintCKGroupDetail ( static_cast < LibCmo : : CK2 : : ObjImpls : : CKGroup * > ( mobj ) ) ;
break ;
case LibCmo : : CK2 : : CK_CLASSID : : CKCID_RENDEROBJECT :
PrintCKRenderObjectDetail ( static_cast < LibCmo : : CK2 : : ObjImpls : : CKRenderObject * > ( mobj ) ) ;
break ;
case LibCmo : : CK2 : : CK_CLASSID : : CKCID_3DENTITY :
PrintCK3dEntityDetail ( static_cast < LibCmo : : CK2 : : ObjImpls : : CK3dEntity * > ( mobj ) ) ;
break ;
case LibCmo : : CK2 : : CK_CLASSID : : CKCID_3DOBJECT :
PrintCK3dObjectDetail ( static_cast < LibCmo : : CK2 : : ObjImpls : : CK3dObject * > ( mobj ) ) ;
break ;
case LibCmo : : CK2 : : CK_CLASSID : : CKCID_TEXTURE :
PrintCKTextureDetail ( static_cast < LibCmo : : CK2 : : ObjImpls : : CKTexture * > ( mobj ) ) ;
break ;
case LibCmo : : CK2 : : CK_CLASSID : : CKCID_MATERIAL :
PrintCKMaterialDetail ( static_cast < LibCmo : : CK2 : : ObjImpls : : CKMaterial * > ( mobj ) ) ;
break ;
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case LibCmo : : CK2 : : CK_CLASSID : : CKCID_MESH :
PrintCKMeshDetail ( static_cast < LibCmo : : CK2 : : ObjImpls : : CKMesh * > ( mobj ) ) ;
break ;
default :
fputs ( UNVIRT_TERMCOL_LIGHT_RED ( ( " Not Implemented. \n " ) ) , stdout ) ;
break ;
}
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}
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void PrintCKBaseManager ( const LibCmo : : CK2 : : MgrImpls : : CKBaseManager * mgr ) {
fputs ( UNVIRT_TERMCOL_LIGHT_YELLOW ( ( " CKBaseManager \n " ) ) , stdout ) ;
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if ( mgr = = nullptr ) {
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fputs ( UNVIRT_TERMCOL_LIGHT_RED ( ( " Null Manager \n " ) ) , stdout ) ;
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return ;
}
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fputs ( UNVIRT_TERMCOL_LIGHT_RED ( ( " Not Implemented. \n " ) ) , stdout ) ;
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}
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void PrintCKStateChunk ( const LibCmo : : CK2 : : CKStateChunk * chunk ) {
fputs ( UNVIRT_TERMCOL_LIGHT_YELLOW ( ( " CKStateChunk \n " ) ) , stdout ) ;
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if ( chunk = = nullptr ) {
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fputs ( UNVIRT_TERMCOL_LIGHT_RED ( ( " Null Chunk \n " ) ) , stdout ) ;
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return ;
}
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// hack const state chunk
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LibCmo : : CK2 : : CKStateChunk * operchunk = const_cast < LibCmo : : CK2 : : CKStateChunk * > ( chunk ) ;
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// write profile
const auto profile = operchunk - > GetStateChunkProfile ( ) ;
fputs ( " Type: " , stdout ) ;
fputs ( AccessibleValue : : GetClassIdName ( profile . m_ClassId ) . c_str ( ) , stdout ) ;
fputc ( ' \n ' , stdout ) ;
fprintf ( stdout , " Version (Data / Chunk): % " PRIuCKDWORD " (%s) / % " PRIuCKDWORD " (%s) \n " ,
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static_cast < LibCmo : : CKDWORD > ( profile . m_DataVersion ) , AccessibleValue : : GetEnumName ( profile . m_DataVersion , AccessibleValue : : EnumDesc : : CK_STATECHUNK_DATAVERSION ) . c_str ( ) ,
static_cast < LibCmo : : CKDWORD > ( profile . m_ChunkVersion ) , AccessibleValue : : GetEnumName ( profile . m_ChunkVersion , AccessibleValue : : EnumDesc : : CK_STATECHUNK_CHUNKVERSION ) . c_str ( ) ) ;
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fprintf ( stdout , " List (Object / Chunk / Manager): % " PRIuCKDWORD " / % " PRIuCKDWORD " / % " PRIuCKDWORD " \n " ,
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static_cast < LibCmo : : CKDWORD > ( profile . m_ObjectListSize ) ,
static_cast < LibCmo : : CKDWORD > ( profile . m_ChunkListSize ) ,
static_cast < LibCmo : : CKDWORD > ( profile . m_ManagerListSize ) ) ;
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fputs ( " Data: " , stdout ) ;
PrintPointer ( profile . m_pData ) ;
fprintf ( stdout , " (0x% " PRIxCKDWORD " DWORD) \n " , profile . m_DataDwSize ) ;
fputs ( " Bind CKFile: " , stdout ) ;
PrintPointer ( profile . m_BindFile ) ;
fputc ( ' \n ' , stdout ) ;
fputs ( " Bind CKContext: " , stdout ) ;
PrintPointer ( profile . m_BindContext ) ;
fputc ( ' \n ' , stdout ) ;
// write identifiers
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operchunk - > StartRead ( ) ;
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const auto collection = operchunk - > GetIdentifiersProfile ( ) ;
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operchunk - > StopRead ( ) ;
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fputs ( UNVIRT_TERMCOL_LIGHT_YELLOW ( ( " Identifiers \n " ) ) , stdout ) ;
fputs ( " Identifier \t Data Pointer \t Data Size \n " , stdout ) ;
for ( const auto & ident : collection ) {
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fprintf ( stdout , " 0x%08 " PRIxCKDWORD " \t " , ident . m_Identifier ) ;
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PrintPointer ( ident . m_DataPtr ) ;
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fputc ( ' \t ' , stdout ) ;
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fprintf ( stdout , " % " PRIuCKDWORD " (% " PRIuCKDWORD " DWORD + % " PRIuCKDWORD " ) \n " ,
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ident . m_AreaSize , ident . m_AreaSize / CKSizeof ( LibCmo : : CKDWORD ) , ident . m_AreaSize % CKSizeof ( LibCmo : : CKDWORD ) ) ;
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}
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}
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}