// --------------------------------------------------------------------------- // // @file TwBar.cpp // @author Philippe Decaudin - http://www.antisphere.com // @license This file is part of the AntTweakBar library. // Copyright © 2005, 2006 Philippe Decaudin. // For conditions of distribution and use, see License.txt // // note: TAB=4 // // --------------------------------------------------------------------------- #include "TwPrecomp.h" #include #include "TwMgr.h" #include "TwBar.h" #include "TwColors.h" using namespace std; extern const char *g_ErrNotFound; const char *g_ErrUnknownAttrib = "Unknown attribute"; const char *g_ErrNotGroup = "Value is not a group"; const char *g_ErrNoValue = "Value required"; const char *g_ErrBadValue = "Bad value"; const char *g_ErrUnknownType = "Unknown type"; const char *g_ErrNotEnum = "Must be of type Enum"; #undef PERF // comment to print benchs #define PERF(cmd) PerfTimer g_BarTimer; #define ANT_SET_CURSOR(_Name) g_TwMgr->SetCursor(g_TwMgr->m_Cursor##_Name) #define ANT_SET_ROTO_CURSOR(_Num) g_TwMgr->SetCursor(g_TwMgr->m_RotoCursors[_Num]) #if !defined(ANT_WINDOWS) # define _stricmp strcasecmp # define _strdup strdup #endif // defined(ANT_WINDOWS) #if !defined(M_PI) # define M_PI 3.1415926535897932384626433832795 #endif // !defined(M_PI) const float FLOAT_MAX = 3.0e+38f; const double DOUBLE_MAX = 1.0e+308; const double DOUBLE_EPS = 1.0e-307; // --------------------------------------------------------------------------- CTwVarAtom::CTwVarAtom() { m_Type = TW_TYPE_UNDEF; m_Ptr = NULL; m_SetCallback = NULL; m_GetCallback = NULL; m_ButtonCallback = NULL; m_ClientData = NULL; m_ReadOnly = false; m_NoSlider = false; m_KeyIncr[0] = 0; m_KeyIncr[1] = 0; m_KeyDecr[0] = 0; m_KeyDecr[1] = 0; memset(&m_Val, 0, sizeof(UVal)); } CTwVarAtom::~CTwVarAtom() { if( m_Type==TW_TYPE_BOOL8 || m_Type==TW_TYPE_BOOL16 || m_Type==TW_TYPE_BOOL32 || m_Type==TW_TYPE_BOOLCPP ) { if( m_Val.m_Bool.m_FreeTrueString && m_Val.m_Bool.m_TrueString!=NULL ) { free(m_Val.m_Bool.m_TrueString); m_Val.m_Bool.m_TrueString = NULL; } if( m_Val.m_Bool.m_FreeFalseString && m_Val.m_Bool.m_FalseString!=NULL ) { free(m_Val.m_Bool.m_FalseString); m_Val.m_Bool.m_FalseString = NULL; } } /* else if( m_Type==TW_TYPE_ENUM8 || m_Type==TW_TYPE_ENUM16 || m_Type==TW_TYPE_ENUM32 ) { if( m_Val.m_Enum.m_Entries!=NULL ) { delete m_Val.m_Enum.m_Entries; m_Val.m_Enum.m_Entries = NULL; } } */ } // --------------------------------------------------------------------------- void CTwVarAtom::ValueToString(std::string *_Str) const { assert(_Str!=NULL); static const char *ErrStr = "unreachable"; char Tmp[1024]; if( m_Type==TW_TYPE_UNDEF || m_Type==TW_TYPE_HELP_ATOM || m_Type==TW_TYPE_HELP_GRP || m_Type==TW_TYPE_BUTTON ) // has no value { *_Str = ""; return; } else if( m_Type==TW_TYPE_HELP_HEADER ) { *_Str = "KEY+ KEY-"; return; } else if( m_Type==TW_TYPE_SHORTCUT ) // special case for help bar: display shortcut { *_Str = ""; if( m_ReadOnly && m_Val.m_Shortcut.m_Incr[0]==0 && m_Val.m_Shortcut.m_Decr[0]==0 ) (*_Str) = "(read only)"; else { if( m_Val.m_Shortcut.m_Incr[0]>0 ) TwGetKeyString(_Str, m_Val.m_Shortcut.m_Incr[0], m_Val.m_Shortcut.m_Incr[1]); else (*_Str) += "(none)"; if( m_Val.m_Shortcut.m_Decr[0]>0 ) { (*_Str) += " "; TwGetKeyString(_Str, m_Val.m_Shortcut.m_Decr[0], m_Val.m_Shortcut.m_Decr[1]); } } return; } else if( m_Type==TW_TYPE_HELP_STRUCT ) { int idx = m_Val.m_HelpStruct.m_StructType - TW_TYPE_STRUCT_BASE; if( idx>=0 && idx<(int)g_TwMgr->m_Structs.size() ) { if( g_TwMgr->m_Structs[idx].m_Name.length()>0 ) (*_Str) = '{' + g_TwMgr->m_Structs[idx].m_Name + '}'; else (*_Str) = "{struct}"; } return; } if( m_Ptr==NULL && m_GetCallback==NULL ) { *_Str = ErrStr; return; } bool UseGet = (m_GetCallback!=NULL); switch( m_Type ) { case TW_TYPE_BOOLCPP: { bool Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(bool *)m_Ptr; if( Val ) *_Str = (m_Val.m_Bool.m_TrueString!=NULL) ? m_Val.m_Bool.m_TrueString : "ON"; else *_Str = (m_Val.m_Bool.m_FalseString!=NULL) ? m_Val.m_Bool.m_FalseString : "OFF"; } break; case TW_TYPE_BOOL8: { char Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(char *)m_Ptr; if( Val ) *_Str = (m_Val.m_Bool.m_TrueString!=NULL) ? m_Val.m_Bool.m_TrueString : "ON"; else *_Str = (m_Val.m_Bool.m_FalseString!=NULL) ? m_Val.m_Bool.m_FalseString : "OFF"; } break; case TW_TYPE_BOOL16: { short Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(short *)m_Ptr; if( Val ) *_Str = (m_Val.m_Bool.m_TrueString!=NULL) ? m_Val.m_Bool.m_TrueString : "ON"; else *_Str = (m_Val.m_Bool.m_FalseString!=NULL) ? m_Val.m_Bool.m_FalseString : "OFF"; } break; case TW_TYPE_BOOL32: { int Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(int *)m_Ptr; if( Val ) *_Str = (m_Val.m_Bool.m_TrueString!=NULL) ? m_Val.m_Bool.m_TrueString : "ON"; else *_Str = (m_Val.m_Bool.m_FalseString!=NULL) ? m_Val.m_Bool.m_FalseString : "OFF"; } break; case TW_TYPE_CHAR: { unsigned char Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(unsigned char *)m_Ptr; if( Val!=0 ) { int d = Val; if( m_Val.m_Char.m_Hexa ) sprintf(Tmp, "%c (0x%.2X)", Val, d); else sprintf(Tmp, "%c (%d)", Val, d); *_Str = Tmp; } else *_Str = " (0)"; } break; case TW_TYPE_INT8: { signed char Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(signed char *)m_Ptr; int d = Val; if( m_Val.m_Int8.m_Hexa ) sprintf(Tmp, "0x%.2X", d&0xff); else sprintf(Tmp, "%d", d); *_Str = Tmp; } break; case TW_TYPE_UINT8: { unsigned char Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(unsigned char *)m_Ptr; unsigned int d = Val; if( m_Val.m_UInt8.m_Hexa ) sprintf(Tmp, "0x%.2X", d); else sprintf(Tmp, "%u", d); *_Str = Tmp; } break; case TW_TYPE_INT16: { short Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(short *)m_Ptr; int d = Val; if( m_Val.m_Int16.m_Hexa ) sprintf(Tmp, "0x%.4X", d&0xffff); else sprintf(Tmp, "%d", d); *_Str = Tmp; } break; case TW_TYPE_UINT16: { unsigned short Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(unsigned short *)m_Ptr; unsigned int d = Val; if( m_Val.m_UInt16.m_Hexa ) sprintf(Tmp, "0x%.4X", d); else sprintf(Tmp, "%u", d); *_Str = Tmp; } break; case TW_TYPE_INT32: { int Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(int *)m_Ptr; if( m_Val.m_Int32.m_Hexa ) sprintf(Tmp, "0x%.8X", Val); else sprintf(Tmp, "%d", Val); *_Str = Tmp; } break; case TW_TYPE_UINT32: { unsigned int Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(unsigned int *)m_Ptr; if( m_Val.m_UInt32.m_Hexa ) sprintf(Tmp, "0x%.8X", Val); else sprintf(Tmp, "%u", Val); *_Str = Tmp; } break; case TW_TYPE_FLOAT: { float Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(float *)m_Ptr; if( m_Val.m_Float32.m_Precision<0 ) sprintf(Tmp, "%g", Val); else { char Fmt[32]; sprintf(Fmt, "%%.%df", (int)m_Val.m_Float32.m_Precision); sprintf(Tmp, Fmt, Val); } *_Str = Tmp; } break; case TW_TYPE_DOUBLE: { double Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(double *)m_Ptr; if( m_Val.m_Float64.m_Precision<0 ) sprintf(Tmp, "%lg", Val); else { char Fmt[128]; sprintf(Fmt, "%%.%dlf", (int)m_Val.m_Float64.m_Precision); sprintf(Tmp, Fmt, Val); } *_Str = Tmp; } break; /* case TW_TYPE_ENUM8: case TW_TYPE_ENUM16: case TW_TYPE_ENUM32: { unsigned int d = 0; if( m_Type==TW_TYPE_ENUM8 ) { unsigned char Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(unsigned char *)m_Ptr; d = Val; } else if( m_Type==TW_TYPE_ENUM16 ) { unsigned short Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(unsigned short *)m_Ptr; d = Val; } else { assert(m_Type==TW_TYPE_ENUM32); unsigned int Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(unsigned int *)m_Ptr; d = Val; } bool Found = false; if( m_Val.m_Enum.m_Entries!=NULL ) { UVal::CEnumVal::CEntries::iterator It = m_Val.m_Enum.m_Entries->find(d); if( It!=m_Val.m_Enum.m_Entries->end() ) { *_Str = It->second; Found = true; } } if( !Found ) { sprintf(Tmp, "%u", d); *_Str = Tmp; } } break; */ default: if( m_Type>=TW_TYPE_ENUM_BASE && m_Typem_Enums.size() ) { unsigned int Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(unsigned int *)m_Ptr; CTwMgr::CEnum& e = g_TwMgr->m_Enums[m_Type-TW_TYPE_ENUM_BASE]; CTwMgr::CEnum::CEntries::iterator It = e.m_Entries.find(Val); if( It!=e.m_Entries.end() ) *_Str = It->second; else { sprintf(Tmp, "%u", Val); *_Str = Tmp; } } else *_Str = "unknown type"; } } // --------------------------------------------------------------------------- double CTwVarAtom::ValueToDouble() const { if( m_Ptr==NULL && m_GetCallback==NULL ) return 0; // unreachable bool UseGet = (m_GetCallback!=NULL); switch( m_Type ) { case TW_TYPE_BOOLCPP: { bool Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(bool *)m_Ptr; if( Val ) return 1; else return 0; } break; case TW_TYPE_BOOL8: { char Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(char *)m_Ptr; if( Val ) return 1; else return 0; } break; case TW_TYPE_BOOL16: { short Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(short *)m_Ptr; if( Val ) return 1; else return 0; } break; case TW_TYPE_BOOL32: { int Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(int *)m_Ptr; if( Val ) return 1; else return 0; } break; case TW_TYPE_CHAR: { unsigned char Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(unsigned char *)m_Ptr; return Val; } break; case TW_TYPE_INT8: { signed char Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(signed char *)m_Ptr; int d = Val; return d; } break; case TW_TYPE_UINT8: { unsigned char Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(unsigned char *)m_Ptr; unsigned int d = Val; return d; } break; case TW_TYPE_INT16: { short Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(short *)m_Ptr; int d = Val; return d; } break; case TW_TYPE_UINT16: { unsigned short Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(unsigned short *)m_Ptr; unsigned int d = Val; return d; } break; case TW_TYPE_INT32: { int Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(int *)m_Ptr; return Val; } break; case TW_TYPE_UINT32: { unsigned int Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(unsigned int *)m_Ptr; return Val; } break; case TW_TYPE_FLOAT: { float Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(float *)m_Ptr; return Val; } break; case TW_TYPE_DOUBLE: { double Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(double *)m_Ptr; return Val; } break; /* case TW_TYPE_ENUM8: case TW_TYPE_ENUM16: case TW_TYPE_ENUM32: { unsigned int d = 0; if( m_Type==TW_TYPE_ENUM8 ) { unsigned char Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(unsigned char *)m_Ptr; d = Val; } else if( m_Type==TW_TYPE_ENUM16 ) { unsigned short Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(unsigned short *)m_Ptr; d = Val; } else { assert(m_Type==TW_TYPE_ENUM32); unsigned int Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(unsigned int *)m_Ptr; d = Val; } return d; } break; */ default: if( m_Type>=TW_TYPE_ENUM_BASE && m_Typem_Enums.size() ) { unsigned int Val = 0; if( UseGet ) m_GetCallback(&Val, m_ClientData); else Val = *(unsigned int *)m_Ptr; return Val; } else return 0; // unknown type } } // --------------------------------------------------------------------------- void CTwVarAtom::ValueFromDouble(double _Val) { if( m_Ptr==NULL && m_SetCallback==NULL ) return; // unreachable bool UseSet = (m_SetCallback!=NULL); switch( m_Type ) { case TW_TYPE_BOOLCPP: { bool Val = (_Val!=0); if( UseSet ) m_SetCallback(&Val, m_ClientData); else *(bool*)m_Ptr = Val; } break; case TW_TYPE_BOOL8: { char Val = (_Val!=0) ? 1 : 0; if( UseSet ) m_SetCallback(&Val, m_ClientData); else *(char*)m_Ptr = Val; } break; case TW_TYPE_BOOL16: { short Val = (_Val!=0) ? 1 : 0; if( UseSet ) m_SetCallback(&Val, m_ClientData); else *(short*)m_Ptr = Val; } break; case TW_TYPE_BOOL32: { int Val = (_Val!=0) ? 1 : 0; if( UseSet ) m_SetCallback(&Val, m_ClientData); else *(int*)m_Ptr = Val; } break; case TW_TYPE_CHAR: { unsigned char Val = (unsigned char)_Val; if( UseSet ) m_SetCallback(&Val, m_ClientData); else *(unsigned char*)m_Ptr = Val; } break; case TW_TYPE_INT8: { signed char Val = (signed char)_Val; if( UseSet ) m_SetCallback(&Val, m_ClientData); else *(signed char*)m_Ptr = Val; } break; case TW_TYPE_UINT8: //case TW_TYPE_ENUM8: { unsigned char Val = (unsigned char)_Val; if( UseSet ) m_SetCallback(&Val, m_ClientData); else *(unsigned char*)m_Ptr = Val; } break; case TW_TYPE_INT16: { short Val = (short)_Val; if( UseSet ) m_SetCallback(&Val, m_ClientData); else *(short*)m_Ptr = Val; } break; case TW_TYPE_UINT16: //case TW_TYPE_ENUM16: { unsigned short Val = (unsigned short)_Val; if( UseSet ) m_SetCallback(&Val, m_ClientData); else *(unsigned short*)m_Ptr = Val; } break; case TW_TYPE_INT32: { int Val = (int)_Val; if( UseSet ) m_SetCallback(&Val, m_ClientData); else *(int*)m_Ptr = Val; } break; case TW_TYPE_UINT32: //case TW_TYPE_ENUM32: { unsigned int Val = (unsigned int)_Val; if( UseSet ) m_SetCallback(&Val, m_ClientData); else *(unsigned int*)m_Ptr = Val; } break; case TW_TYPE_FLOAT: { float Val = (float)_Val; if( UseSet ) m_SetCallback(&Val, m_ClientData); else *(float*)m_Ptr = Val; } break; case TW_TYPE_DOUBLE: { double Val = (double)_Val; if( UseSet ) m_SetCallback(&Val, m_ClientData); else *(double*)m_Ptr = Val; } break; default: if( m_Type>=TW_TYPE_ENUM_BASE && m_Typem_Enums.size() ) { unsigned int Val = (unsigned int)_Val; if( UseSet ) m_SetCallback(&Val, m_ClientData); else *(unsigned int*)m_Ptr = Val; } } } // --------------------------------------------------------------------------- void CTwVarAtom::MinMaxStepToDouble(double *_Min, double *_Max, double *_Step) const { double max = DOUBLE_MAX; double min = -DOUBLE_MAX; double step = 1; switch( m_Type ) { case TW_TYPE_BOOLCPP: case TW_TYPE_BOOL8: case TW_TYPE_BOOL16: case TW_TYPE_BOOL32: min = 0; max = 1; step = 1; break; case TW_TYPE_CHAR: min = (double)m_Val.m_Char.m_Min; max = (double)m_Val.m_Char.m_Max; step = (double)m_Val.m_Char.m_Step; break; case TW_TYPE_INT8: min = (double)m_Val.m_Int8.m_Min; max = (double)m_Val.m_Int8.m_Max; step = (double)m_Val.m_Int8.m_Step; break; case TW_TYPE_UINT8: min = (double)m_Val.m_UInt8.m_Min; max = (double)m_Val.m_UInt8.m_Max; step = (double)m_Val.m_UInt8.m_Step; break; case TW_TYPE_INT16: min = (double)m_Val.m_Int16.m_Min; max = (double)m_Val.m_Int16.m_Max; step = (double)m_Val.m_Int16.m_Step; break; case TW_TYPE_UINT16: min = (double)m_Val.m_UInt16.m_Min; max = (double)m_Val.m_UInt16.m_Max; step = (double)m_Val.m_UInt16.m_Step; break; case TW_TYPE_INT32: min = (double)m_Val.m_Int32.m_Min; max = (double)m_Val.m_Int32.m_Max; step = (double)m_Val.m_Int32.m_Step; break; case TW_TYPE_UINT32: min = (double)m_Val.m_UInt32.m_Min; max = (double)m_Val.m_UInt32.m_Max; step = (double)m_Val.m_UInt32.m_Step; break; case TW_TYPE_FLOAT: min = (double)m_Val.m_Float32.m_Min; max = (double)m_Val.m_Float32.m_Max; step = (double)m_Val.m_Float32.m_Step; break; case TW_TYPE_DOUBLE: min = m_Val.m_Float64.m_Min; max = m_Val.m_Float64.m_Max; step = m_Val.m_Float64.m_Step; break; default: {} // nothing } if( _Min!=NULL ) *_Min = min; if( _Max!=NULL ) *_Max = max; if( _Step!=NULL ) *_Step = step; } // --------------------------------------------------------------------------- const CTwVar *CTwVarAtom::Find(const char *_Name, CTwVarGroup **_Parent, int *_Index) const { if( strcmp(_Name, m_Name.c_str())==0 ) { if( _Parent!=NULL ) *_Parent = NULL; if( _Index!=NULL ) *_Index = -1; return this; } else return NULL; } // --------------------------------------------------------------------------- enum EVarAttribs { V_LABEL = 1, V_HELP, V_GROUP, V_SHOW, V_HIDE, V_READONLY, V_READWRITE, V_ENDTAG }; int CTwVar::HasAttrib(const char *_Attrib, bool *_HasValue) const { *_HasValue = true; if( _stricmp(_Attrib, "label")==0 ) return V_LABEL; else if( _stricmp(_Attrib, "help")==0 ) return V_HELP; else if( _stricmp(_Attrib, "group")==0 ) return V_GROUP; *_HasValue = false; if( _stricmp(_Attrib, "show")==0 ) return V_SHOW; else if( _stricmp(_Attrib, "hide")==0 ) return V_HIDE; if( _stricmp(_Attrib, "readonly")==0 ) return V_READONLY; else if( _stricmp(_Attrib, "readwrite")==0 ) return V_READWRITE; return 0; // not found } int CTwVar::SetAttrib(int _AttribID, const char *_Value, TwBar *_Bar, struct CTwVarGroup *_VarParent, int _VarIndex) { switch( _AttribID ) { /* case V_LABEL: if( _Value && strlen(_Value)>0 ) { m_Label = _Value; _Bar->NotUpToDate(); return 1; } else { g_TwMgr->SetLastError(g_ErrNoValue); return 0; } */ case V_LABEL: case V_HELP: if( _Value && strlen(_Value)>0 ) { /* if( IsGroup() && static_cast(this)->m_StructValuePtr!=NULL ) { int Idx = static_cast(this)->m_StructType-TW_TYPE_STRUCT_BASE; if( Idx>=0 && Idx<(int)g_TwMgr->m_Structs.size() ) if( _AttribID==V_LABEL ) g_TwMgr->m_Structs[Idx].m_Label = _Value; else // V_HELP g_TwMgr->m_Structs[Idx].m_Help = _Value; } else */ { CTwVarGroup *Parent = NULL; CTwVar *ThisVar = _Bar->Find(m_Name.c_str(), &Parent); if( this==ThisVar && Parent!=NULL && Parent->m_StructValuePtr!=NULL ) { int Idx = Parent->m_StructType-TW_TYPE_STRUCT_BASE; if( Idx>=0 && Idx<(int)g_TwMgr->m_Structs.size() ) { size_t nl = m_Name.length(); for( size_t im=0; imm_Structs[Idx].m_Members.size(); ++im ) { size_t ml = g_TwMgr->m_Structs[Idx].m_Members[im].m_Name.length(); if( nl>=ml && strcmp(g_TwMgr->m_Structs[Idx].m_Members[im].m_Name.c_str(), m_Name.c_str()+(nl-ml))==0 ) { if( _AttribID==V_LABEL ) g_TwMgr->m_Structs[Idx].m_Members[im].m_Label = _Value; else // V_HELP g_TwMgr->m_Structs[Idx].m_Members[im].m_Help = _Value; break; } } } } else { if( _AttribID==V_LABEL ) m_Label = _Value; else // V_HELP m_Help = _Value; } } _Bar->NotUpToDate(); return 1; } else { g_TwMgr->SetLastError(g_ErrNoValue); return 0; } case V_GROUP: { CTwVarGroup *Grp = NULL; if( _Value==NULL || strlen(_Value)<=0 ) Grp = &(_Bar->m_VarRoot); else { CTwVar *v = _Bar->Find(_Value, NULL, NULL); if( v && !v->IsGroup() ) { g_TwMgr->SetLastError(g_ErrNotGroup); return 0; } Grp = static_cast(v); if( Grp==NULL ) { Grp = new CTwVarGroup; Grp->m_Name = _Value; Grp->m_Open = true; Grp->m_SummaryCallback = NULL; Grp->m_SummaryClientData = NULL; Grp->m_StructValuePtr = NULL; if( g_TwMgr->m_HelpBar ) Grp->m_Color = g_TwMgr->m_HelpBar->m_ColGrpText; else Grp->m_Color = COLOR32_WHITE; _Bar->m_VarRoot.m_Vars.push_back(Grp); } } Grp->m_Vars.push_back(this); if( _VarParent!=NULL && _VarIndex>=0 ) { _VarParent->m_Vars.erase(_VarParent->m_Vars.begin()+_VarIndex); if( _VarParent!=&(_Bar->m_VarRoot) && _VarParent->m_Vars.size()<=0 ) TwRemoveVar(_Bar, _VarParent->m_Name.c_str()); } _Bar->NotUpToDate(); return 1; } case V_SHOW: if( !m_Visible ) { m_Visible = true; _Bar->NotUpToDate(); } return 1; case V_HIDE: if( m_Visible ) { m_Visible = false; _Bar->NotUpToDate(); } return 1; case V_READONLY: SetReadOnly(true); _Bar->NotUpToDate(); return 1; case V_READWRITE: SetReadOnly(false); _Bar->NotUpToDate(); return 1; default: g_TwMgr->SetLastError(g_ErrUnknownAttrib); return 0; } } // --------------------------------------------------------------------------- enum EVarAtomAttribs { VA_KEY_INCR = V_ENDTAG+1, VA_KEY_DECR, VA_MIN, VA_MAX, VA_STEP, VA_PRECISION, VA_HEXA, VA_DECIMAL, VA_TRUE, VA_FALSE, VA_VAL, }; int CTwVarAtom::HasAttrib(const char *_Attrib, bool *_HasValue) const { *_HasValue = true; if( _stricmp(_Attrib, "keyincr")==0 || _stricmp(_Attrib, "key")==0 ) return VA_KEY_INCR; else if( _stricmp(_Attrib, "keydecr")==0 ) return VA_KEY_DECR; else if( _stricmp(_Attrib, "min")==0 ) return VA_MIN; else if( _stricmp(_Attrib, "max")==0 ) return VA_MAX; else if( _stricmp(_Attrib, "step")==0 ) return VA_STEP; else if( _stricmp(_Attrib, "precision")==0 ) return VA_PRECISION; else if( _stricmp(_Attrib, "hexa")==0 ) { *_HasValue = false; return VA_HEXA; } else if( _stricmp(_Attrib, "decimal")==0 ) { *_HasValue = false; return VA_DECIMAL; } else if( _stricmp(_Attrib, "true")==0 ) return VA_TRUE; else if( _stricmp(_Attrib, "false")==0 ) return VA_FALSE; else if( _stricmp(_Attrib, "val")==0 ) return VA_VAL; return CTwVar::HasAttrib(_Attrib, _HasValue); } int CTwVarAtom::SetAttrib(int _AttribID, const char *_Value, TwBar *_Bar, struct CTwVarGroup *_VarParent, int _VarIndex) { switch( _AttribID ) { case VA_KEY_INCR: { int Key = 0; int Mod = 0; if( TwGetKeyCode(&Key, &Mod, _Value) ) { m_KeyIncr[0] = Key; m_KeyIncr[1] = Mod; return 1; } else return 0; } case VA_KEY_DECR: { int Key = 0; int Mod = 0; if( TwGetKeyCode(&Key, &Mod, _Value) ) { m_KeyDecr[0] = Key; m_KeyDecr[1] = Mod; return 1; } else return 0; } case VA_TRUE: if( (m_Type==TW_TYPE_BOOL8 || m_Type==TW_TYPE_BOOL16 || m_Type==TW_TYPE_BOOL32 || m_Type==TW_TYPE_BOOLCPP) && _Value!=NULL ) { if( m_Val.m_Bool.m_FreeTrueString && m_Val.m_Bool.m_TrueString!=NULL ) free(m_Val.m_Bool.m_TrueString); m_Val.m_Bool.m_TrueString = _strdup(_Value); m_Val.m_Bool.m_FreeTrueString = true; return 1; } else return 0; case VA_FALSE: if( (m_Type==TW_TYPE_BOOL8 || m_Type==TW_TYPE_BOOL16 || m_Type==TW_TYPE_BOOL32 || m_Type==TW_TYPE_BOOLCPP) && _Value!=NULL ) { if( m_Val.m_Bool.m_FreeFalseString && m_Val.m_Bool.m_FalseString!=NULL ) free(m_Val.m_Bool.m_FalseString); m_Val.m_Bool.m_FalseString = _strdup(_Value); m_Val.m_Bool.m_FreeFalseString = true; return 1; } else return 0; case VA_MIN: case VA_MAX: case VA_STEP: if( _Value && strlen(_Value)>0 ) { void *Ptr = NULL; const char *Fmt = NULL; int d = 0; unsigned int u = 0; int Num = (_AttribID==VA_STEP) ? 2 : ((_AttribID==VA_MAX) ? 1 : 0); switch( m_Type ) { case TW_TYPE_CHAR: //Ptr = (&m_Val.m_Char.m_Min) + Num; //Fmt = "%c"; Ptr = &u; Fmt = "%u"; break; case TW_TYPE_INT16: Ptr = (&m_Val.m_Int16.m_Min) + Num; Fmt = "%hd"; break; case TW_TYPE_INT32: Ptr = (&m_Val.m_Int32.m_Min) + Num; Fmt = "%d"; break; case TW_TYPE_UINT16: Ptr = (&m_Val.m_UInt16.m_Min) + Num; Fmt = "%hu"; break; case TW_TYPE_UINT32: Ptr = (&m_Val.m_UInt32.m_Min) + Num; Fmt = "%u"; break; case TW_TYPE_FLOAT: Ptr = (&m_Val.m_Float32.m_Min) + Num; Fmt = "%f"; break; case TW_TYPE_DOUBLE: Ptr = (&m_Val.m_Float64.m_Min) + Num; Fmt = "%lf"; break; case TW_TYPE_INT8: Ptr = &d; Fmt = "%d"; break; case TW_TYPE_UINT8: Ptr = &u; Fmt = "%u"; break; default: g_TwMgr->SetLastError(g_ErrUnknownType); return 0; } if( Fmt!=NULL && Ptr!=NULL && sscanf(_Value, Fmt, Ptr)==1 ) { if( m_Type==TW_TYPE_CHAR ) *((&m_Val.m_Char.m_Min)+Num) = (unsigned char)(u); else if( m_Type==TW_TYPE_INT8 ) *((&m_Val.m_Int8.m_Min)+Num) = (signed char)(d); else if( m_Type==TW_TYPE_UINT8 ) *((&m_Val.m_UInt8.m_Min)+Num) = (unsigned char)(u); // set precision if( _AttribID==VA_STEP && ((m_Type==TW_TYPE_FLOAT && m_Val.m_Float32.m_Precision<0) || (m_Type==TW_TYPE_DOUBLE && m_Val.m_Float64.m_Precision<0)) ) { double Step = fabs( (m_Type==TW_TYPE_FLOAT) ? m_Val.m_Float32.m_Step : m_Val.m_Float64.m_Step ); signed char *Precision = (m_Type==TW_TYPE_FLOAT) ? &m_Val.m_Float32.m_Precision : &m_Val.m_Float64.m_Precision; if( Step>=1 ) *Precision = 0; else if( Step>=0.1 ) *Precision = 1; else if( Step>=0.01 ) *Precision = 2; else if( Step>=0.001 ) *Precision = 3; else if( Step>=0.0001 ) *Precision = 4; else if( Step>=0.00001 ) *Precision = 5; else if( Step>=0.000001 ) *Precision = 6; else if( Step>=0.0000001 ) *Precision = 7; else if( Step>=0.00000001 ) *Precision = 8; else if( Step>=0.000000001 ) *Precision = 9; else if( Step>=0.0000000001 ) *Precision = 10; else if( Step>=0.00000000001 ) *Precision = 11; else if( Step>=0.000000000001 ) *Precision = 12; else *Precision = -1; } return 1; } else { g_TwMgr->SetLastError(g_ErrBadValue); return 0; } } else { g_TwMgr->SetLastError(g_ErrNoValue); return 0; } case VA_PRECISION: if( _Value && strlen(_Value)>0 ) { int Precision = 0; if( sscanf(_Value, "%d", &Precision)==1 && Precision>-128 && Precision<128 ) { if( m_Type==TW_TYPE_FLOAT ) m_Val.m_Float32.m_Precision = (signed char)Precision; else if ( m_Type==TW_TYPE_DOUBLE ) m_Val.m_Float64.m_Precision = (signed char)Precision; return 1; } else { g_TwMgr->SetLastError(g_ErrBadValue); return 0; } } else { g_TwMgr->SetLastError(g_ErrNoValue); return 0; } case VA_HEXA: case VA_DECIMAL: { bool hexa = (_AttribID==VA_HEXA); switch( m_Type ) { case TW_TYPE_CHAR: m_Val.m_Char.m_Hexa = hexa; return 1; case TW_TYPE_INT8: m_Val.m_Int8.m_Hexa = hexa; return 1; case TW_TYPE_INT16: m_Val.m_Int16.m_Hexa = hexa; return 1; case TW_TYPE_INT32: m_Val.m_Int32.m_Hexa = hexa; return 1; case TW_TYPE_UINT8: m_Val.m_UInt8.m_Hexa = hexa; return 1; case TW_TYPE_UINT16: m_Val.m_UInt16.m_Hexa = hexa; return 1; case TW_TYPE_UINT32: m_Val.m_UInt32.m_Hexa = hexa; return 1; default: return 0; } } case VA_VAL: if( _Value && strlen(_Value)>0 && m_Type>=TW_TYPE_ENUM_BASE && m_Typem_Enums.size() ) { const char *s = _Value; int n = 0, i = 0; unsigned int u; bool Cont; do { Cont = false; i = 0; char Sep; n = sscanf(s, "%u %c%n", &u, &Sep, &i); if( n==2 && i>0 && ( Sep=='<' || Sep=='{' || Sep=='[' || Sep=='(' ) ) { if( Sep=='<' ) // Change to closing separator Sep = '>'; else if( Sep=='{' ) Sep = '}'; else if( Sep=='[' ) Sep = ']'; else if( Sep=='(' ) Sep = ')'; s += i; i = 0; while( s[i]!=Sep && s[i]!=0 ) ++i; if( s[i]==Sep ) { //if( m_Val.m_Enum.m_Entries==NULL ) // m_Val.m_Enum.m_Entries = new UVal::CEnumVal::CEntries; //UVal::CEnumVal::CEntries::value_type v(u, ""); CTwMgr::CEnum::CEntries::value_type v(u, ""); if( i>0 ) v.second.assign(s, i); //m_Val.m_Enum.m_Entries->insert(v); pair ret; ret = g_TwMgr->m_Enums[m_Type-TW_TYPE_ENUM_BASE].m_Entries.insert(v); if( !ret.second ) // force overwrite if element already exists { g_TwMgr->m_Enums[m_Type-TW_TYPE_ENUM_BASE].m_Entries.erase(ret.first); g_TwMgr->m_Enums[m_Type-TW_TYPE_ENUM_BASE].m_Entries.insert(v); } s += i+1; i = 0; n = sscanf(s, " ,%n", &i); if( n==0 && i>=1 ) { s += i; Cont = true; } } else { g_TwMgr->SetLastError(g_ErrBadValue); return 0; } } else { g_TwMgr->SetLastError(g_ErrBadValue); return 0; } } while( Cont ); return 1; } else { g_TwMgr->SetLastError(g_ErrNoValue); return 0; } break; default: return CTwVar::SetAttrib(_AttribID, _Value, _Bar, _VarParent, _VarIndex); } } // --------------------------------------------------------------------------- void CTwVarAtom::Increment(int _Step) { if( _Step==0 ) return; switch( m_Type ) { case TW_TYPE_BOOL8: { char v = false; if( m_Ptr!=NULL ) v = *((char *)m_Ptr); else if( m_GetCallback!=NULL ) m_GetCallback(&v, m_ClientData); if( v ) v = false; else v = true; if( m_Ptr!=NULL ) *((char *)m_Ptr) = v; else if( m_SetCallback!=NULL ) m_SetCallback(&v, m_ClientData); } break; case TW_TYPE_BOOL16: { short v = false; if( m_Ptr!=NULL ) v = *((short *)m_Ptr); else if( m_GetCallback!=NULL ) m_GetCallback(&v, m_ClientData); if( v ) v = false; else v = true; if( m_Ptr!=NULL ) *((short *)m_Ptr) = v; else if( m_SetCallback!=NULL ) m_SetCallback(&v, m_ClientData); } break; case TW_TYPE_BOOL32: { int v = false; if( m_Ptr!=NULL ) v = *((int *)m_Ptr); else if( m_GetCallback!=NULL ) m_GetCallback(&v, m_ClientData); if( v ) v = false; else v = true; if( m_Ptr!=NULL ) *((int *)m_Ptr) = v; else if( m_SetCallback!=NULL ) m_SetCallback(&v, m_ClientData); } break; case TW_TYPE_BOOLCPP: { bool v = false; if( m_Ptr!=NULL ) v = *((bool *)m_Ptr); else if( m_GetCallback!=NULL ) m_GetCallback(&v, m_ClientData); if( v ) v = false; else v = true; if( m_Ptr!=NULL ) *((bool *)m_Ptr) = v; else if( m_SetCallback!=NULL ) m_SetCallback(&v, m_ClientData); } break; case TW_TYPE_CHAR: { unsigned char v = 0; if( m_Ptr!=NULL ) v = *((unsigned char *)m_Ptr); else if( m_GetCallback!=NULL ) m_GetCallback(&v, m_ClientData); int iv = _Step*(int)m_Val.m_Char.m_Step + (int)v; if( ivm_Val.m_Char.m_Max ) iv = m_Val.m_Char.m_Max; if( iv<0 ) iv = 0; else if( iv>0xff ) iv = 0xff; v = (unsigned char)iv; if( m_Ptr!=NULL ) *((unsigned char *)m_Ptr) = v; else if( m_SetCallback!=NULL ) m_SetCallback(&v, m_ClientData); } break; case TW_TYPE_INT8: { signed char v = 0; if( m_Ptr!=NULL ) v = *((signed char *)m_Ptr); else if( m_GetCallback!=NULL ) m_GetCallback(&v, m_ClientData); int iv = _Step*(int)m_Val.m_Int8.m_Step + (int)v; if( ivm_Val.m_Int8.m_Max ) iv = m_Val.m_Int8.m_Max; v = (signed char)iv; if( m_Ptr!=NULL ) *((signed char *)m_Ptr) = v; else if( m_SetCallback!=NULL ) m_SetCallback(&v, m_ClientData); } break; case TW_TYPE_UINT8: { unsigned char v = 0; if( m_Ptr!=NULL ) v = *((unsigned char *)m_Ptr); else if( m_GetCallback!=NULL ) m_GetCallback(&v, m_ClientData); int iv = _Step*(int)m_Val.m_UInt8.m_Step + (int)v; if( ivm_Val.m_UInt8.m_Max ) iv = m_Val.m_UInt8.m_Max; if( iv<0 ) iv = 0; else if( iv>0xff ) iv = 0xff; v = (unsigned char)iv; if( m_Ptr!=NULL ) *((unsigned char *)m_Ptr) = v; else if( m_SetCallback!=NULL ) m_SetCallback(&v, m_ClientData); } break; case TW_TYPE_INT16: { short v = 0; if( m_Ptr!=NULL ) v = *((short *)m_Ptr); else if( m_GetCallback!=NULL ) m_GetCallback(&v, m_ClientData); int iv = _Step*(int)m_Val.m_Int16.m_Step + (int)v; if( ivm_Val.m_Int16.m_Max ) iv = m_Val.m_Int16.m_Max; v = (short)iv; if( m_Ptr!=NULL ) *((short *)m_Ptr) = v; else if( m_SetCallback!=NULL ) m_SetCallback(&v, m_ClientData); } break; case TW_TYPE_UINT16: { unsigned short v = 0; if( m_Ptr!=NULL ) v = *((unsigned short *)m_Ptr); else if( m_GetCallback!=NULL ) m_GetCallback(&v, m_ClientData); int iv = _Step*(int)m_Val.m_UInt16.m_Step + (int)v; if( ivm_Val.m_UInt16.m_Max ) iv = m_Val.m_UInt16.m_Max; if( iv<0 ) iv = 0; else if( iv>0xffff ) iv = 0xffff; v = (unsigned short)iv; if( m_Ptr!=NULL ) *((unsigned short *)m_Ptr) = v; else if( m_SetCallback!=NULL ) m_SetCallback(&v, m_ClientData); } break; case TW_TYPE_INT32: { int v = 0; if( m_Ptr!=NULL ) v = *((int *)m_Ptr); else if( m_GetCallback!=NULL ) m_GetCallback(&v, m_ClientData); double dv = (double)_Step*(double)m_Val.m_Int32.m_Step + (double)v; if( dv>(double)0x7fffffff ) v = 0x7fffffff; else if( dv<(double)(-0x7fffffff-1) ) v = -0x7fffffff-1; else v = _Step*m_Val.m_Int32.m_Step + v; if( vm_Val.m_Int32.m_Max ) v = m_Val.m_Int32.m_Max; if( m_Ptr!=NULL ) *((int *)m_Ptr) = v; else if( m_SetCallback!=NULL ) m_SetCallback(&v, m_ClientData); } break; case TW_TYPE_UINT32: { unsigned int v = 0; if( m_Ptr!=NULL ) v = *((unsigned int *)m_Ptr); else if( m_GetCallback!=NULL ) m_GetCallback(&v, m_ClientData); double dv = (double)_Step*(double)m_Val.m_UInt32.m_Step + (double)v; if( dv>(double)0xffffffff ) v = 0xffffffff; else if( dv<0 ) v = 0; else v = _Step*m_Val.m_UInt32.m_Step + v; if( vm_Val.m_UInt32.m_Max ) v = m_Val.m_UInt32.m_Max; if( m_Ptr!=NULL ) *((unsigned int *)m_Ptr) = v; else if( m_SetCallback!=NULL ) m_SetCallback(&v, m_ClientData); } break; case TW_TYPE_FLOAT: { float v = 0; if( m_Ptr!=NULL ) v = *((float *)m_Ptr); else if( m_GetCallback!=NULL ) m_GetCallback(&v, m_ClientData); v += _Step*m_Val.m_Float32.m_Step; if( vm_Val.m_Float32.m_Max ) v = m_Val.m_Float32.m_Max; if( m_Ptr!=NULL ) *((float *)m_Ptr) = v; else if( m_SetCallback!=NULL ) m_SetCallback(&v, m_ClientData); } break; case TW_TYPE_DOUBLE: { double v = 0; if( m_Ptr!=NULL ) v = *((double *)m_Ptr); else if( m_GetCallback!=NULL ) m_GetCallback(&v, m_ClientData); v += _Step*m_Val.m_Float64.m_Step; if( vm_Val.m_Float64.m_Max ) v = m_Val.m_Float64.m_Max; if( m_Ptr!=NULL ) *((double *)m_Ptr) = v; else if( m_SetCallback!=NULL ) m_SetCallback(&v, m_ClientData); } break; /* case TW_TYPE_ENUM8: { assert(_Step==1 || _Step==-1); unsigned char v = 0; if( m_Ptr!=NULL ) v = *((unsigned char *)m_Ptr); else if( m_GetCallback!=NULL ) m_GetCallback(&v, m_ClientData); if( m_Val.m_Enum.m_Entries!=NULL ) { UVal::CEnumVal::CEntries::iterator It = m_Val.m_Enum.m_Entries->find(v); if( It==m_Val.m_Enum.m_Entries->end() ) It = m_Val.m_Enum.m_Entries->begin(); else if( _Step==1 ) { ++It; if( It==m_Val.m_Enum.m_Entries->end() ) It = m_Val.m_Enum.m_Entries->begin(); } else if( _Step==-1 ) { if( It==m_Val.m_Enum.m_Entries->begin() ) It = m_Val.m_Enum.m_Entries->end(); if( It!=m_Val.m_Enum.m_Entries->begin() ) --It; } if( It != m_Val.m_Enum.m_Entries->end() ) { v = (unsigned char)(It->first); if( m_Ptr!=NULL ) *((unsigned char *)m_Ptr) = v; else if( m_SetCallback!=NULL ) m_SetCallback(&v, m_ClientData); } } } break; case TW_TYPE_ENUM16: { assert(_Step==1 || _Step==-1); unsigned short v = 0; if( m_Ptr!=NULL ) v = *((unsigned short *)m_Ptr); else if( m_GetCallback!=NULL ) m_GetCallback(&v, m_ClientData); if( m_Val.m_Enum.m_Entries!=NULL ) { UVal::CEnumVal::CEntries::iterator It = m_Val.m_Enum.m_Entries->find(v); if( It==m_Val.m_Enum.m_Entries->end() ) It = m_Val.m_Enum.m_Entries->begin(); else if( _Step==1 ) { ++It; if( It==m_Val.m_Enum.m_Entries->end() ) It = m_Val.m_Enum.m_Entries->begin(); } else if( _Step==-1 ) { if( It==m_Val.m_Enum.m_Entries->begin() ) It = m_Val.m_Enum.m_Entries->end(); if( It!=m_Val.m_Enum.m_Entries->begin() ) --It; } if( It != m_Val.m_Enum.m_Entries->end() ) { v = (unsigned short)(It->first); if( m_Ptr!=NULL ) *((unsigned short *)m_Ptr) = v; else if( m_SetCallback!=NULL ) m_SetCallback(&v, m_ClientData); } } } break; case TW_TYPE_ENUM32: { assert(_Step==1 || _Step==-1); unsigned int v = 0; if( m_Ptr!=NULL ) v = *((unsigned int *)m_Ptr); else if( m_GetCallback!=NULL ) m_GetCallback(&v, m_ClientData); if( m_Val.m_Enum.m_Entries!=NULL ) { UVal::CEnumVal::CEntries::iterator It = m_Val.m_Enum.m_Entries->find(v); if( It==m_Val.m_Enum.m_Entries->end() ) It = m_Val.m_Enum.m_Entries->begin(); else if( _Step==1 ) { ++It; if( It==m_Val.m_Enum.m_Entries->end() ) It = m_Val.m_Enum.m_Entries->begin(); } else if( _Step==-1 ) { if( It==m_Val.m_Enum.m_Entries->begin() ) It = m_Val.m_Enum.m_Entries->end(); if( It!=m_Val.m_Enum.m_Entries->begin() ) --It; } if( It!=m_Val.m_Enum.m_Entries->end() ) { v = (unsigned int)(It->first); if( m_Ptr!=NULL ) *((unsigned int *)m_Ptr) = v; else if( m_SetCallback!=NULL ) m_SetCallback(&v, m_ClientData); } } } break; */ default: if( m_Type==TW_TYPE_BUTTON ) { if( m_ButtonCallback!=NULL ) m_ButtonCallback(m_ClientData); } else if( m_Type>=TW_TYPE_ENUM_BASE && m_Typem_Enums.size() ) { assert(_Step==1 || _Step==-1); unsigned int v = 0; if( m_Ptr!=NULL ) v = *((unsigned int *)m_Ptr); else if( m_GetCallback!=NULL ) m_GetCallback(&v, m_ClientData); CTwMgr::CEnum& e = g_TwMgr->m_Enums[m_Type-TW_TYPE_ENUM_BASE]; CTwMgr::CEnum::CEntries::iterator It = e.m_Entries.find(v); if( It==e.m_Entries.end() ) It = e.m_Entries.begin(); else if( _Step==1 ) { ++It; if( It==e.m_Entries.end() ) It = e.m_Entries.begin(); } else if( _Step==-1 ) { if( It==e.m_Entries.begin() ) It = e.m_Entries.end(); if( It!=e.m_Entries.begin() ) --It; } if( It!=e.m_Entries.end() ) { v = (unsigned int)(It->first); if( m_Ptr!=NULL ) *((unsigned int *)m_Ptr) = v; else if( m_SetCallback!=NULL ) m_SetCallback(&v, m_ClientData); } } else fprintf(stderr, "CTwVarAtom::Increment : unknown or unimplemented type\n"); } } // --------------------------------------------------------------------------- void CTwVarAtom::SetDefaults() { switch( m_Type ) { case TW_TYPE_BOOL8: case TW_TYPE_BOOL16: case TW_TYPE_BOOL32: case TW_TYPE_BOOLCPP: m_NoSlider = true; break; case TW_TYPE_CHAR: m_Val.m_Char.m_Max = 0xff; m_Val.m_Char.m_Min = 0; m_Val.m_Char.m_Step = 1; m_Val.m_Char.m_Precision = -1; m_Val.m_Char.m_Hexa = false; break; case TW_TYPE_INT8: m_Val.m_Int8.m_Max = 0x7f; m_Val.m_Int8.m_Min = -m_Val.m_Int8.m_Max-1; m_Val.m_Int8.m_Step = 1; m_Val.m_Int8.m_Precision = -1; m_Val.m_Int8.m_Hexa = false; break; case TW_TYPE_UINT8: m_Val.m_UInt8.m_Max = 0xff; m_Val.m_UInt8.m_Min = 0; m_Val.m_UInt8.m_Step = 1; m_Val.m_UInt8.m_Precision = -1; m_Val.m_UInt8.m_Hexa = false; break; case TW_TYPE_INT16: m_Val.m_Int16.m_Max = 0x7fff; m_Val.m_Int16.m_Min = -m_Val.m_Int16.m_Max-1; m_Val.m_Int16.m_Step = 1; m_Val.m_Int16.m_Precision = -1; m_Val.m_Int16.m_Hexa = false; break; case TW_TYPE_UINT16: m_Val.m_UInt16.m_Max = 0xffff; m_Val.m_UInt16.m_Min = 0; m_Val.m_UInt16.m_Step = 1; m_Val.m_UInt16.m_Precision = -1; m_Val.m_UInt16.m_Hexa = false; break; case TW_TYPE_INT32: m_Val.m_Int32.m_Max = 0x7fffffff; m_Val.m_Int32.m_Min = -m_Val.m_Int32.m_Max-1; m_Val.m_Int32.m_Step = 1; m_Val.m_Int32.m_Precision = -1; m_Val.m_Int32.m_Hexa = false; break; case TW_TYPE_UINT32: m_Val.m_UInt32.m_Max = 0xffffffff; m_Val.m_UInt32.m_Min = 0; m_Val.m_UInt32.m_Step = 1; m_Val.m_UInt32.m_Precision = -1; m_Val.m_UInt32.m_Hexa = false; break; case TW_TYPE_FLOAT: m_Val.m_Float32.m_Max = FLOAT_MAX; m_Val.m_Float32.m_Min = -FLOAT_MAX; m_Val.m_Float32.m_Step = 1; m_Val.m_Float32.m_Precision = -1; m_Val.m_Float32.m_Hexa = false; break; case TW_TYPE_DOUBLE: m_Val.m_Float64.m_Max = DOUBLE_MAX; m_Val.m_Float64.m_Min = -DOUBLE_MAX; m_Val.m_Float64.m_Step = 1; m_Val.m_Float64.m_Precision = -1; m_Val.m_Float64.m_Hexa = false; break; /* case TW_TYPE_ENUM8: case TW_TYPE_ENUM16: case TW_TYPE_ENUM32: m_NoSlider = true; break; */ default: {} // nothing } // special types if( m_Type==TW_TYPE_BUTTON || (m_Type>=TW_TYPE_ENUM_BASE && m_Typem_Enums.size()) ) m_NoSlider = true; } // --------------------------------------------------------------------------- /* int CTwVarAtom::DefineEnum(const TwEnumVal *_EnumValues, unsigned int _NbValues) { assert(_EnumValues!=NULL); if( m_Type!=TW_TYPE_ENUM8 && m_Type!=TW_TYPE_ENUM16 && m_Type!=TW_TYPE_ENUM32 ) { g_TwMgr->SetLastError(g_ErrNotEnum); return 0; } if( m_Val.m_Enum.m_Entries==NULL ) m_Val.m_Enum.m_Entries = new UVal::CEnumVal::CEntries; for(unsigned int i=0; i<_NbValues; ++i) { UVal::CEnumVal::CEntries::value_type Entry(_EnumValues[i].Value, (_EnumValues[i].Label!=NULL)?_EnumValues[i].Label:""); pair Result = m_Val.m_Enum.m_Entries->insert(Entry); if( !Result.second ) (Result.first)->second = Entry.second; } return 1; } */ // --------------------------------------------------------------------------- enum EVarGroupAttribs { VG_OPEN = V_ENDTAG+1, VG_CLOSE, VG_TYPEID, // used internally for structs VG_VALPTR, // used internally for structs VG_ALPHA, // tw_type_color* only VG_NOALPHA, // tw_type_color* only VG_HLS, // tw_type_color* only VG_RGB, // tw_type_color* only VG_ORDER, // tw_type_color* only }; int CTwVarGroup::HasAttrib(const char *_Attrib, bool *_HasValue) const { *_HasValue = false; if( _stricmp(_Attrib, "open")==0 ) return VG_OPEN; else if( _stricmp(_Attrib, "close")==0 ) return VG_CLOSE; else if( _stricmp(_Attrib, "typeid")==0 ) { *_HasValue = true; return VG_TYPEID; } else if( _stricmp(_Attrib, "valptr")==0 ) { *_HasValue = true; return VG_VALPTR; } else if( _stricmp(_Attrib, "alpha")==0 ) return VG_ALPHA; else if( _stricmp(_Attrib, "noalpha")==0 ) return VG_NOALPHA; else if( _stricmp(_Attrib, "hls")==0 ) return VG_HLS; else if( _stricmp(_Attrib, "rgb")==0 ) return VG_RGB; else if( _stricmp(_Attrib, "order")==0 ) { *_HasValue = true; return VG_ORDER; } return CTwVar::HasAttrib(_Attrib, _HasValue); } int CTwVarGroup::SetAttrib(int _AttribID, const char *_Value, TwBar *_Bar, struct CTwVarGroup *_VarParent, int _VarIndex) { switch( _AttribID ) { case VG_OPEN: if( !m_Open ) { m_Open = true; _Bar->NotUpToDate(); } return 1; case VG_CLOSE: if( m_Open ) { m_Open = false; _Bar->NotUpToDate(); } return 1; case VG_TYPEID: { int type = TW_TYPE_UNDEF; if( _Value!=NULL && sscanf(_Value, "%d", &type)==1 ) { int idx = type - TW_TYPE_STRUCT_BASE; if( idx>=0 && idx<(int)g_TwMgr->m_Structs.size() ) { m_SummaryCallback = g_TwMgr->m_Structs[idx].m_SummaryCallback; m_SummaryClientData = g_TwMgr->m_Structs[idx].m_SummaryClientData; m_StructType = (TwType)type; return 1; } } return 0; } case VG_VALPTR: { void *structValuePtr = NULL; if( _Value!=NULL && sscanf(_Value, "%p", &structValuePtr)==1 ) { m_StructValuePtr = structValuePtr; m_Color = _Bar->m_ColStructText; return 1; } return 0; } case VG_ALPHA: if( m_SummaryCallback==CColorExt::SummaryCB && m_StructValuePtr!=NULL ) // is tw_type_color? if( static_cast(m_StructValuePtr)->m_CanHaveAlpha ) { static_cast(m_StructValuePtr)->m_HasAlpha = true; _Bar->NotUpToDate(); return 1; } return 0; case VG_NOALPHA: if( m_SummaryCallback==CColorExt::SummaryCB && m_StructValuePtr!=NULL ) // is tw_type_color? { static_cast(m_StructValuePtr)->m_HasAlpha = false; _Bar->NotUpToDate(); return 1; } else return 0; case VG_HLS: if( m_SummaryCallback==CColorExt::SummaryCB && m_StructValuePtr!=NULL ) // is tw_type_color? { static_cast(m_StructValuePtr)->m_HLS = true; _Bar->NotUpToDate(); return 1; } else return 0; case VG_RGB: if( m_SummaryCallback==CColorExt::SummaryCB && m_StructValuePtr!=NULL ) // is tw_type_color? { static_cast(m_StructValuePtr)->m_HLS = false; _Bar->NotUpToDate(); return 1; } else return 0; case VG_ORDER: if( m_SummaryCallback==CColorExt::SummaryCB && m_StructValuePtr!=NULL ) // is tw_type_color? { if( _Value!=NULL ) { if( _stricmp(_Value, "ogl")==0 ) static_cast(m_StructValuePtr)->m_OGL = true; else if( _stricmp(_Value, "dx")==0 ) static_cast(m_StructValuePtr)->m_OGL = false; else return 0; return 1; } return 0; } else return 0; default: return CTwVar::SetAttrib(_AttribID, _Value, _Bar, _VarParent, _VarIndex); } } // --------------------------------------------------------------------------- const CTwVar *CTwVarGroup::Find(const char *_Name, CTwVarGroup **_Parent, int *_Index) const { if( strcmp(_Name, m_Name.c_str())==0 ) { if( _Parent!=NULL ) *_Parent = NULL; if( _Index!=NULL ) *_Index = -1; return this; } else { const CTwVar *v; for( size_t i=0; iFind(_Name, _Parent, _Index); if( v!=NULL ) { if( _Parent!=NULL && *_Parent==NULL ) { *_Parent = const_cast(this); if( _Index!=NULL ) *_Index = (int)i; } return v; } } return NULL; } } // --------------------------------------------------------------------------- size_t CTwVar::GetDataSize(TwType _Type) { switch( _Type ) { case TW_TYPE_BOOLCPP: return sizeof(bool); case TW_TYPE_BOOL8: case TW_TYPE_CHAR: case TW_TYPE_INT8: case TW_TYPE_UINT8: //case TW_TYPE_ENUM8: return 1; case TW_TYPE_BOOL16: case TW_TYPE_INT16: case TW_TYPE_UINT16: //case TW_TYPE_ENUM16: return 2; case TW_TYPE_BOOL32: case TW_TYPE_INT32: case TW_TYPE_UINT32: case TW_TYPE_FLOAT: //case TW_TYPE_ENUM32: return 4; case TW_TYPE_DOUBLE: return 8; default: if( g_TwMgr && _Type>=TW_TYPE_STRUCT_BASE && _Typem_Structs.size() ) { const CTwMgr::CStruct& s = g_TwMgr->m_Structs[_Type-TW_TYPE_STRUCT_BASE]; return s.m_Size; /* size_t size = 0; for( size_t i=0; i=TW_TYPE_ENUM_BASE && _Typem_Enums.size() ) return 4; else // includes TW_TYPE_BUTTON return 0; } } // --------------------------------------------------------------------------- CTwBar::CTwBar(const char *_Name) { assert(g_TwMgr!=NULL && g_TwMgr->m_Graph!=NULL); m_Name = _Name; m_Visible = true; m_VarRoot.m_IsRoot = true; m_VarRoot.m_Open = true; m_VarRoot.m_SummaryCallback = NULL; m_VarRoot.m_SummaryClientData = NULL; m_VarRoot.m_StructValuePtr = NULL; m_UpToDate = false; int n = (int)g_TwMgr->m_Bars.size(); m_PosX = 24*n-8; m_PosY = 24*n-8; m_Width = 200; m_Height = 320; int cr, cg, cb; ColorHLSToRGBi(g_TwMgr->m_BarInitColorHue%256, 127, 255, &cr, &cg, &cb); g_TwMgr->m_BarInitColorHue -= 16; if( g_TwMgr->m_BarInitColorHue<0 ) g_TwMgr->m_BarInitColorHue += 256; m_Color = Color32FromARGBi(0xf0, cr, cg, cb); //m_Color = 0xd7008f8f; m_Font = g_TwMgr->m_CurrentFont; //m_Font = g_DefaultNormalFont; //m_Font = g_DefaultSmallFont; //m_Font = g_DefaultLargeFont; m_TitleWidth = 0; m_Sep = 1; m_ValuesWidth = 10*(m_Font->m_CharHeight/2); // about 10 characters m_NbHierLines = 0; m_NbDisplayedLines = 0; m_FirstLine = 0; m_LastUpdateTime = 0; m_UpdatePeriod = 2; m_ScrollYW = 0; m_ScrollYH = 0; m_ScrollY0 = 0; m_ScrollY1 = 0; m_DrawHandles = false; m_DrawIncrDecrBtn = false; m_DrawClickBtn = false; m_MouseDrag = false; m_MouseDragVar = false; m_MouseDragTitle = false; m_MouseDragScroll = false; m_MouseDragResizeUR = false; m_MouseDragResizeUL = false; m_MouseDragResizeLR = false; m_MouseDragResizeLL = false; m_MouseDragValWidth = false; m_MouseOriginX = 0; m_MouseOriginY = 0; m_VarHasBeenIncr = true; m_FirstLine0 = 0; m_HighlightedLine = -1; m_HighlightedLinePrev = -1; m_HighlightIncrBtn = false; m_HighlightDecrBtn = false; m_HighlightClickBtn = false; m_HighlightTitle = false; m_HighlightScroll = false; m_HighlightUpScroll = false; m_HighlightDnScroll = false; m_HighlightMinimize = false; m_HighlightFont = false; m_HighlightValWidth = false; m_IsMinimized = false; m_MinNumber = 0; m_MinPosX = 0; m_MinPosY = 0; m_HighlightMaximize = false; m_IsHelpBar = false; m_IsPopupList = false; m_VarEnumLinkedToPopupList = NULL; m_BarLinkedToPopupList = NULL; m_TitleTextObj = g_TwMgr->m_Graph->NewTextObj(); m_LabelsTextObj = g_TwMgr->m_Graph->NewTextObj(); m_ValuesTextObj = g_TwMgr->m_Graph->NewTextObj(); m_ShortcutTextObj = g_TwMgr->m_Graph->NewTextObj(); m_ShortcutLine = -1; m_RotoMinRadius = 24; m_RotoNbSubdiv = 256; // number of steps for one turn UpdateColors(); NotUpToDate(); } // --------------------------------------------------------------------------- CTwBar::~CTwBar() { if( m_IsMinimized ) g_TwMgr->Maximize(this); if( m_TitleTextObj ) g_TwMgr->m_Graph->DeleteTextObj(m_TitleTextObj); if( m_LabelsTextObj ) g_TwMgr->m_Graph->DeleteTextObj(m_LabelsTextObj); if( m_ValuesTextObj ) g_TwMgr->m_Graph->DeleteTextObj(m_ValuesTextObj); if( m_ShortcutTextObj ) g_TwMgr->m_Graph->DeleteTextObj(m_ShortcutTextObj); } // --------------------------------------------------------------------------- const CTwVar *CTwBar::Find(const char *_Name, CTwVarGroup **_Parent, int *_Index) const { return m_VarRoot.Find(_Name, _Parent, _Index); } CTwVar *CTwBar::Find(const char *_Name, CTwVarGroup **_Parent, int *_Index) { return const_cast(const_cast(this)->Find(_Name, _Parent, _Index)); } // --------------------------------------------------------------------------- enum EBarAttribs { BAR_LABEL = 1, BAR_HELP, BAR_COLOR, BAR_SHOW, BAR_HIDE, BAR_ICONIFY, BAR_SIZE, BAR_POSITION, BAR_REFRESH, BAR_FONT_SIZE, BAR_VALUES_WIDTH, }; int CTwBar::HasAttrib(const char *_Attrib, bool *_HasValue) const { *_HasValue = true; if( _stricmp(_Attrib, "label")==0 ) return BAR_LABEL; else if( _stricmp(_Attrib, "help")==0 ) return BAR_HELP; else if( _stricmp(_Attrib, "color")==0 ) return BAR_COLOR; else if( _stricmp(_Attrib, "size")==0 ) return BAR_SIZE; else if( _stricmp(_Attrib, "position")==0 ) return BAR_POSITION; else if( _stricmp(_Attrib, "refresh")==0 ) return BAR_REFRESH; else if( _stricmp(_Attrib, "fontsize")==0 ) return BAR_FONT_SIZE; else if( _stricmp(_Attrib, "valueswidth")==0 ) return BAR_VALUES_WIDTH; *_HasValue = false; if( _stricmp(_Attrib, "show")==0 ) return BAR_SHOW; else if( _stricmp(_Attrib, "hide")==0 ) return BAR_HIDE; else if( _stricmp(_Attrib, "iconify")==0 ) return BAR_ICONIFY; return 0; // not found } int CTwBar::SetAttrib(int _AttribID, const char *_Value) { switch( _AttribID ) { case BAR_LABEL: if( _Value && strlen(_Value)>0 ) { m_Label = _Value; NotUpToDate(); return 1; } else { g_TwMgr->SetLastError(g_ErrNoValue); return 0; } case BAR_HELP: if( _Value && strlen(_Value)>0 ) { m_Help = _Value; NotUpToDate(); return 1; } else { g_TwMgr->SetLastError(g_ErrNoValue); return 0; } case BAR_COLOR: if( _Value && strlen(_Value)>0 ) { int v0, v1, v2, v3; int n = sscanf(_Value, "%d%d%d%d", &v0, &v1, &v2, &v3); color32 c; if( n==3 ) c = Color32FromARGBi(255, v0, v1, v2); else if( n==4 ) c = Color32FromARGBi(v0, v1, v2, v3); else { g_TwMgr->SetLastError(g_ErrBadValue); return 0; } m_Color = c; NotUpToDate(); return 1; } else { g_TwMgr->SetLastError(g_ErrNoValue); return 0; } case BAR_SIZE: if( _Value && strlen(_Value)>0 ) { int sx, sy; int n = sscanf(_Value, "%d%d", &sx, &sy); if( n==2 && sx>0 && sy>0 ) { m_Width = sx; m_Height = sy; NotUpToDate(); return 1; } else { g_TwMgr->SetLastError(g_ErrBadValue); return 0; } } else { g_TwMgr->SetLastError(g_ErrNoValue); return 0; } case BAR_POSITION: if( _Value && strlen(_Value)>0 ) { int x, y; int n = sscanf(_Value, "%d%d", &x, &y); if( n==2 && x>=0 && y>=0 ) { m_PosX = x; m_PosY = y; NotUpToDate(); return 1; } else { g_TwMgr->SetLastError(g_ErrBadValue); return 0; } } else { g_TwMgr->SetLastError(g_ErrNoValue); return 0; } case BAR_REFRESH: if( _Value && strlen(_Value)>0 ) { float r; int n = sscanf(_Value, "%f", &r); if( n==1 && r>=0 ) { m_UpdatePeriod = r; return 1; } else { g_TwMgr->SetLastError(g_ErrBadValue); return 0; } } else { g_TwMgr->SetLastError(g_ErrNoValue); return 0; } case BAR_FONT_SIZE: if( _Value && strlen(_Value)>0 ) { int s; int n = sscanf(_Value, "%d", &s); if( n==1 && s>=1 && s<=3 ) { if( s==1 ) g_TwMgr->SetFont(g_DefaultSmallFont, true); else if( s==2 ) g_TwMgr->SetFont(g_DefaultNormalFont, true); else if( s==3 ) g_TwMgr->SetFont(g_DefaultLargeFont, true); return 1; } else { g_TwMgr->SetLastError(g_ErrBadValue); return 0; } } else { g_TwMgr->SetLastError(g_ErrNoValue); return 0; } case BAR_VALUES_WIDTH: if( _Value && strlen(_Value)>0 ) { int w; int n = sscanf(_Value, "%d", &w); if( n==1 && w>0 ) { m_ValuesWidth = w; NotUpToDate(); return 1; } else { g_TwMgr->SetLastError(g_ErrBadValue); return 0; } } else { g_TwMgr->SetLastError(g_ErrNoValue); return 0; } case BAR_SHOW: TwSetBarState(this, TW_STATE_SHOWN); return 1; case BAR_HIDE: TwSetBarState(this, TW_STATE_HIDDEN); return 1; case BAR_ICONIFY: TwSetBarState(this, TW_STATE_ICONIFIED); return 1; default: g_TwMgr->SetLastError(g_ErrUnknownAttrib); return 0; } } // --------------------------------------------------------------------------- void CTwBar::NotUpToDate() { m_UpToDate = false; } // --------------------------------------------------------------------------- void CTwBar::UpdateColors() { float a, r, g, b, h, l, s; Color32ToARGBf(m_Color, &a, &r, &g, &b); ColorRGBToHLSf(r, g, b, &h, &l, &s); if( s>0.8f ) s = 0.8f; ColorHLSToRGBf(h, 0.78f, s, &r, &g, &b); m_ColBg = Color32FromARGBf(a, r, g, b); ColorHLSToRGBf(h, 0.70f, s, &r, &g, &b); m_ColBg1 = Color32FromARGBf(a, r, g, b); ColorHLSToRGBf(h, 0.62f, s, &r, &g, &b); m_ColBg2 = Color32FromARGBf(a, r, g, b); ColorHLSToRGBf(h, 0.8f, s, &r, &g, &b); m_ColHighBg = Color32FromARGBf(a, r, g, b); //m_ColHighBg = Color32FromARGBf(a, 0.95f, 0.95f, 0.2f); m_ColLabelText = COLOR32_BLACK; m_ColStructText = 0xff005000; ColorHLSToRGBf(h, 0.9f, s, &r, &g, &b); m_ColValBg = Color32FromARGBf(a, r, g, b); m_ColStructBg = Color32FromARGBf(0.7f*a, r, g, b); //m_ColValText = COLOR32_BLACK; m_ColValText = 0xff000080; m_ColValTextRO = 0xff505050; //m_ColValMin = 0xff800000; //m_ColValMax = 0xff800000; m_ColValMin = 0xff0000f0; m_ColValMax = 0xff0000f0; ColorHLSToRGBf(h, 0.4f, s, &r, &g, &b); m_ColTitleBg = Color32FromARGBf(a, r, g, b); m_ColTitleText = COLOR32_WHITE; m_ColTitleShadow = COLOR32_BLACK; ColorHLSToRGBf(h, 0.2f, s, &r, &g, &b); m_ColTitleHighBg = Color32FromARGBf(a, r, g, b); ColorHLSToRGBf(h, 0.8f, s, &r, &g, &b); m_ColLine = Color32FromARGBf(1, r, g, b); // 0xfff0f0f0; m_ColLineShadow = COLOR32_BLACK; m_ColUnderline = 0xff202000; ColorHLSToRGBf(h, 0.3f, s, &r, &g, &b); m_ColBtn = Color32FromARGBf(0.6f*a, r, g, b); ColorHLSToRGBf(h, 0.1f, s, &r, &g, &b); m_ColHighBtn = Color32FromARGBf(0.6f*a, r, g, b); ColorHLSToRGBf(h, 0.4f, s, &r, &g, &b); m_ColGrpBg = Color32FromARGBf(a, r, g, b); m_ColGrpText = COLOR32_WHITE; ColorHLSToRGBf(h, 0.75f, s, &r, &g, &b); m_ColHelpBg = Color32FromARGBf(a, r, g, b); m_ColHelpText = Color32FromARGBf(1, 0, 0.4f, 0); ColorHLSToRGBf(h, 0.45f, s, &r, &g, &b); m_ColHierBg = Color32FromARGBf(0.75f*a, r, g, b); m_ColShortcutText = 0xfff0f0f0; m_ColShortcutBg = Color32FromARGBf(0.5f*a, 0.1f, 0.1f, 0.1f); m_ColInfoText = Color32FromARGBf(1.0f, 0.7f, 0.7f, 0.7f); m_ColRoto = Color32FromARGBf(1, 0.75f, 0.75f, 0.75f); m_ColRotoVal = Color32FromARGBf(1, 1.0f, 0.2f, 0.2f); m_ColRotoBound = Color32FromARGBf(1, 0.4f, 0.4f, 0.4f); } // --------------------------------------------------------------------------- CTwVarGroup::~CTwVarGroup() { for( vector::iterator it= m_Vars.begin(); it!=m_Vars.end(); ++it ) if( *it != NULL ) { CTwVar *Var = *it; delete Var; *it = NULL; } } // --------------------------------------------------------------------------- static inline int IncrBtnWidth(int _CharHeight) { return ((2*_CharHeight)/3+2)&0xfffe; // force even value } // --------------------------------------------------------------------------- void CTwBar::BrowseHierarchy(int *_CurrLine, int _CurrLevel, const CTwVar *_Var, int _First, int _Last) { assert(_Var!=NULL); if( !_Var->m_IsRoot ) { if( (*_CurrLine)>=_First && (*_CurrLine)<=_Last ) { CHierTag Tag; Tag.m_Level = _CurrLevel; Tag.m_Var = const_cast(_Var); Tag.m_Closing = false; m_HierTags.push_back(Tag); } *_CurrLine += 1; } else { *_CurrLine = 0; _CurrLevel = -1; m_HierTags.resize(0); } if( _Var->IsGroup() ) { const CTwVarGroup *Grp = static_cast(_Var); if( Grp->m_Open ) for( vector::const_iterator it=Grp->m_Vars.begin(); it!=Grp->m_Vars.end(); ++it ) if( (*it)->m_Visible ) BrowseHierarchy(_CurrLine, _CurrLevel+1, *it, _First, _Last); if( m_HierTags.size()>0 ) m_HierTags[m_HierTags.size()-1].m_Closing = true; } } // --------------------------------------------------------------------------- void CTwBar::ListLabels(vector& _Labels, vector& _Colors, const CTexFont *_Font, int _AtomWidthMax, int _GroupWidthMax) { const int NbEtc = 2; string ValStr; int Len, i, x, Etc; const unsigned char *Text; unsigned char ch; int WidthMax; int nh = (int)m_HierTags.size(); for( int h=0; hm_Label.length(); if( Len>0 ) Text = (const unsigned char *)(m_HierTags[h].m_Var->m_Label.c_str()); else { Text = (const unsigned char *)(m_HierTags[h].m_Var->m_Name.c_str()); Len = (int)m_HierTags[h].m_Var->m_Name.length(); } x = 0; Etc = 0; _Labels.push_back(""); // add a new text line _Colors.push_back(m_HierTags[h].m_Var->m_Color); string& CurrentLabel = _Labels[_Labels.size()-1]; if( m_HierTags[h].m_Var->IsGroup() && static_cast(m_HierTags[h].m_Var)->m_SummaryCallback==NULL ) WidthMax = _GroupWidthMax; else if( !m_HierTags[h].m_Var->IsGroup() && static_cast(m_HierTags[h].m_Var)->m_Type==TW_TYPE_BUTTON ) WidthMax = _GroupWidthMax - 2*IncrBtnWidth(m_Font->m_CharHeight); else WidthMax = _AtomWidthMax; for( i=0; im_CharWidth[(int)' ']; } for( i=0; im_CharWidth[(int)ch]; if( Etc>0 ) { ++Etc; if( Etc>NbEtc ) break; } else if( im_CharWidth[(int)'.']>=WidthMax && !(m_HierTags[h].m_Var->m_DontClip)) Etc = 1; } } } // --------------------------------------------------------------------------- void CTwBar::ListValues(vector& _Values, vector& _Colors, vector& _BgColors, const CTexFont *_Font, int _WidthMax) { CTwFPU fpu; // force fpu precision const int NbEtc = 2; const CTwVarAtom *Atom = NULL; string ValStr; int Len, i, x, Etc; const unsigned char *Text; unsigned char ch; bool ReadOnly; bool IsMax; bool IsMin; size_t SummaryMaxLength = max(_WidthMax/_Font->m_CharWidth[(int)'I'], 4); static vector Summary; Summary.resize(SummaryMaxLength+32); int nh = (int)m_HierTags.size(); for( int h=0; hIsGroup() || m_IsHelpBar || (m_HierTags[h].m_Var->IsGroup() && static_cast(m_HierTags[h].m_Var)->m_SummaryCallback!=NULL) ) { ReadOnly = true; IsMax = false; IsMin = false; if( !m_HierTags[h].m_Var->IsGroup() ) { Atom = static_cast(m_HierTags[h].m_Var); Atom->ValueToString(&ValStr); if( !m_IsHelpBar || (Atom->m_Type==TW_TYPE_SHORTCUT && (Atom->m_Val.m_Shortcut.m_Incr[0]>0 || Atom->m_Val.m_Shortcut.m_Decr[0]>0)) ) ReadOnly = Atom->m_ReadOnly; if( !Atom->m_NoSlider ) { double v, vmin, vmax; v = Atom->ValueToDouble(); Atom->MinMaxStepToDouble(&vmin, &vmax, NULL); IsMax = (v>=vmax); IsMin = (v<=vmin); } } else if(m_HierTags[h].m_Var->IsGroup() && static_cast(m_HierTags[h].m_Var)->m_SummaryCallback!=NULL) { const CTwVarGroup *Grp = static_cast(m_HierTags[h].m_Var); Summary[0] = '\0'; if( Grp->m_SummaryCallback==CTwMgr::CStruct::DefaultSummary ) Grp->m_SummaryCallback(&Summary[0], SummaryMaxLength, Grp, Grp->m_SummaryClientData); else Grp->m_SummaryCallback(&Summary[0], SummaryMaxLength, Grp->m_StructValuePtr, Grp->m_SummaryClientData); ValStr = (const char *)(&Summary[0]); } else ValStr = ""; // is a group in the help bar Len = (int)ValStr.length(); Text = (const unsigned char *)(ValStr.c_str()); x = 0; Etc = 0; _Values.push_back(""); // add a new text line if( ReadOnly || (IsMin && IsMax) ) _Colors.push_back(m_ColValTextRO); else if( IsMin ) _Colors.push_back(m_ColValMin); else if( IsMax ) _Colors.push_back(m_ColValMax); else _Colors.push_back(m_ColValText); if( m_HierTags[h].m_Var->IsGroup() ) { const CTwVarGroup *Grp = static_cast(m_HierTags[h].m_Var); // if typecolor set bgcolor if( Grp->m_SummaryCallback==CColorExt::SummaryCB ) _BgColors.push_back(0xff000000); else _BgColors.push_back(m_ColStructBg); } else _BgColors.push_back(m_ColValBg); string& CurrentValue = _Values[_Values.size()-1]; int wmax = _WidthMax; if( m_HighlightedLine==h && m_DrawIncrDecrBtn ) wmax -= 2*IncrBtnWidth(m_Font->m_CharHeight); for( i=0; im_CharWidth[(int)ch]; if( Etc>0 ) { ++Etc; if( Etc>NbEtc ) break; } else if( im_CharWidth[(int)'.']>=wmax ) Etc = 1; } } else { _Values.push_back(""); // add a new empty line _Colors.push_back(COLOR32_BLACK); _BgColors.push_back(0x00000000); } } // --------------------------------------------------------------------------- static int ClampText(string& _Text, const CTexFont *_Font, int _WidthMax) { int Len = (int)_Text.length(); unsigned char ch; int Width = 0; int i; for( i=0; im_CharWidth[(int)'.']>=_WidthMax ) break; Width += _Font->m_CharWidth[ch]; } if( im_CharWidth[(int)'.']; } return Width; } // --------------------------------------------------------------------------- void CTwBar::Update() { assert(m_UpToDate==false); assert(m_Font); ITwGraph *Gr = g_TwMgr->m_Graph; bool DoEndDraw = false; if( !Gr->IsDrawing() ) { Gr->BeginDraw(g_TwMgr->m_WndWidth, g_TwMgr->m_WndHeight); DoEndDraw = true; } int PrevPosY = m_PosY; int vpx, vpy, vpw, vph; vpx = 0; vpy = 0; vpw = g_TwMgr->m_WndWidth; vph = g_TwMgr->m_WndHeight; if( !m_IsMinimized && vpw>0 && vph>0 ) { bool Modif = false; if( m_Width>vpw ) { m_Width = vpw; Modif = true; } if( m_Width<8*m_Font->m_CharHeight ) { m_Width = 8*m_Font->m_CharHeight; Modif = true; } if( m_Height>vph ) { m_Height = vph; Modif = true; } if( m_Height<5*m_Font->m_CharHeight ) { m_Height = 5*m_Font->m_CharHeight; Modif = true; } if( m_PosX+m_Width>vpx+vpw ) m_PosX = vpx+vpw-m_Width; if( m_PosXvpy+vph ) m_PosY = vpy+vph-m_Height; if( m_PosYm_CharHeight ) { m_ValuesWidth = 2*m_Font->m_CharHeight; Modif = true; } if( m_ValuesWidth>m_Width-4*m_Font->m_CharHeight ) { m_ValuesWidth = m_Width-4*m_Font->m_CharHeight; Modif = true; } if( Modif && m_IsHelpBar ) { g_TwMgr->m_HelpBarNotUpToDate = true; g_TwMgr->m_KeyPressedBuildText = true; g_TwMgr->m_InfoBuildText = true; } } UpdateColors(); // update geometry relatively to (m_PosX, m_PosY) if( !m_IsPopupList ) { //m_VarX0 = 2*m_Font->m_CharHeight+m_Sep; m_VarX0 = m_Font->m_CharHeight+m_Sep; //m_VarX2 = m_Width - 4; m_VarX2 = m_Width - m_Font->m_CharHeight - m_Sep-2; m_VarX1 = m_VarX2 - m_ValuesWidth; } else { //m_VarX0 = m_Font->m_CharHeight+6+m_Sep; m_VarX0 = 2; //m_VarX2 = m_Width - 4; m_VarX2 = m_Width - m_Font->m_CharHeight - m_Sep-2; m_VarX1 = m_VarX2; } if( m_VarX1m_VarX2 ) m_VarX1 = m_VarX2; if( !m_IsPopupList ) { m_VarY0 = m_Font->m_CharHeight+2+m_Sep+6; m_VarY1 = m_Height-m_Font->m_CharHeight-2-m_Sep; m_VarY2 = m_Height-1; } else { m_VarY0 = 4; m_VarY1 = m_Height-2-m_Sep; m_VarY2 = m_Height-1; } int NbLines = (m_VarY1-m_VarY0+1)/(m_Font->m_CharHeight+m_Sep); if( NbLines<= 0 ) NbLines = 1; if( !m_IsMinimized ) { int LineNum = 0; BrowseHierarchy(&LineNum, 0, &m_VarRoot, m_FirstLine, m_FirstLine+NbLines); // add a dummy tag at the end to avoid wrong 'tag-closing' problems if( (int)m_HierTags.size()>NbLines ) m_HierTags.resize(NbLines); // remove the last dummy tag m_NbHierLines = LineNum; m_NbDisplayedLines = (int)m_HierTags.size(); } // scroll bar int y0 = m_PosY+m_VarY0; int y1 = m_PosY+m_VarY1; int x0 = m_PosX+2; int x1 = m_PosX+m_Font->m_CharHeight-2; if( ((x0+x1)&1)==1 ) x1 += 1; int w = x1-x0+1; int h = y1-y0-2*w; int hscr = (m_NbHierLines>0) ? ((h*m_NbDisplayedLines)/m_NbHierLines) : h; if( hscr<=4 ) hscr = 4; if( hscr>h ) hscr = h; int yscr = (m_NbHierLines>0) ? ((h*m_FirstLine)/m_NbHierLines) : 0; if( yscr<=0 ) yscr = 0; if( yscr>h-4 ) yscr = h-4; if( yscr+hscr>h ) hscr = h-yscr; if( hscr>h ) hscr = h; if( hscr<=4 ) hscr = 4; m_ScrollYW = w; m_ScrollYH = h; m_ScrollY0 = y0+w+yscr; m_ScrollY1 = y0+w+yscr+hscr; // Build title string Title; if( m_Label.size()>0 ) Title = m_Label; else Title = m_Name; m_TitleWidth = ClampText(Title, m_Font, (!m_IsMinimized)?(m_Width-5*m_Font->m_CharHeight):(16*m_Font->m_CharHeight)); Gr->BuildText(m_TitleTextObj, &Title, NULL, NULL, 1, m_Font, 0, 0); if( !m_IsMinimized ) { // Build labels vector Labels; vector Colors; ListLabels(Labels, Colors, m_Font, m_VarX1-m_VarX0, m_VarX2-m_VarX0); Gr->BuildText(m_LabelsTextObj, &(Labels[0]), &(Colors[0]), NULL, (int)Labels.size(), m_Font, 1, 0); // Should draw click button? m_DrawClickBtn = ( m_VarX2-m_VarX1>4*IncrBtnWidth(m_Font->m_CharHeight) && m_HighlightedLine>=0 && m_HighlightedLine<(int)m_HierTags.size() && m_HierTags[m_HighlightedLine].m_Var!=NULL && !m_HierTags[m_HighlightedLine].m_Var->IsGroup() && !static_cast(m_HierTags[m_HighlightedLine].m_Var)->m_ReadOnly && ( static_cast(m_HierTags[m_HighlightedLine].m_Var)->m_Type==TW_TYPE_BUTTON )); // || static_cast(m_HierTags[m_HighlightedLine].m_Var)->m_Type==TW_TYPE_BOOLCPP // || static_cast(m_HierTags[m_HighlightedLine].m_Var)->m_Type==TW_TYPE_BOOL8 // || static_cast(m_HierTags[m_HighlightedLine].m_Var)->m_Type==TW_TYPE_BOOL16 // || static_cast(m_HierTags[m_HighlightedLine].m_Var)->m_Type==TW_TYPE_BOOL32 )); // Should draw [-/+] button? m_DrawIncrDecrBtn = ( m_VarX2-m_VarX1>4*IncrBtnWidth(m_Font->m_CharHeight) && m_HighlightedLine>=0 && m_HighlightedLine<(int)m_HierTags.size() && m_HierTags[m_HighlightedLine].m_Var!=NULL && !m_HierTags[m_HighlightedLine].m_Var->IsGroup() && static_cast(m_HierTags[m_HighlightedLine].m_Var)->m_Type!=TW_TYPE_BUTTON && !static_cast(m_HierTags[m_HighlightedLine].m_Var)->m_ReadOnly && !static_cast(m_HierTags[m_HighlightedLine].m_Var)->m_NoSlider ); // Build values vector& Values = Labels; // reuse Values.resize(0); Colors.resize(0); vector BgColors; ListValues(Values, Colors, BgColors, m_Font, m_VarX2-m_VarX1); assert(BgColors.size()==Values.size()); Gr->BuildText(m_ValuesTextObj, &(Values[0]), &(Colors[0]), &(BgColors[0]), (int)Values.size(), m_Font, 1, m_VarX2-m_VarX1); // Build key shortcut text string Shortcut; m_ShortcutLine = -1; if( m_HighlightedLine>=0 && m_HighlightedLine<(int)m_HierTags.size() && m_HierTags[m_HighlightedLine].m_Var!=NULL && !m_HierTags[m_HighlightedLine].m_Var->IsGroup() ) { const CTwVarAtom *Atom = static_cast(m_HierTags[m_HighlightedLine].m_Var); if( Atom->m_KeyIncr[0]>0 || Atom->m_KeyDecr[0]>0 ) { if( Atom->m_KeyIncr[0]>0 && Atom->m_KeyDecr[0]>0 ) Shortcut = "Keys: "; else Shortcut = "Key: "; if( Atom->m_KeyIncr[0]>0 ) TwGetKeyString(&Shortcut, Atom->m_KeyIncr[0], Atom->m_KeyIncr[1]); else Shortcut += "(none)"; if( Atom->m_KeyDecr[0]>0 ) { Shortcut += " "; TwGetKeyString(&Shortcut, Atom->m_KeyDecr[0], Atom->m_KeyDecr[1]); } m_ShortcutLine = m_HighlightedLine; } } ClampText(Shortcut, m_Font, m_Width-3*m_Font->m_CharHeight); Gr->BuildText(m_ShortcutTextObj, &Shortcut, NULL, NULL, 1, m_Font, 0, 0); } if( DoEndDraw ) Gr->EndDraw(); m_UpToDate = true; m_LastUpdateTime = float(g_BarTimer.GetTime()); } // --------------------------------------------------------------------------- void CTwBar::DrawHierHandle() { assert(m_Font); ITwGraph *Gr = g_TwMgr->m_Graph; //int x0 = m_PosX+m_Font->m_CharHeight+1; int x0 = m_PosX+2; int x2 = m_PosX+m_VarX0-5; if( (x2-x0)&1 ) --x2; int x1 = (x0+x2)/2; int w = x2-x0+1; int y0 = m_PosY+m_VarY0; int y1; int dh0 = (m_Font->m_CharHeight+m_Sep-1-w)/2; if( dh0<0 ) dh0 = 0; int dh1 = dh0+w-1; int i, h=0; if( !m_IsPopupList ) { CTwVarGroup *Grp; int nh = (int)m_HierTags.size(); for( h=0; hm_CharHeight+m_Sep-1; if( m_HierTags[h].m_Var->IsGroup() ) Grp = static_cast(m_HierTags[h].m_Var); else Grp = NULL; if( Grp ) { Gr->DrawLine(x2+1,y0+dh0+1,x2+1,y0+dh1+1, m_ColLineShadow); Gr->DrawLine(x0+1,y0+dh1+1,x2+2,y0+dh1+1, m_ColLineShadow); if( Grp->m_Open ) { Gr->DrawLine(x1,y0+dh1, x1,y1+1, m_ColLine); Gr->DrawLine(x1+1,y0+dh1, x1+1,y1+1, m_ColLineShadow); } } if( m_HierTags[h].m_Level>0 ) { if( Grp!=NULL ) { Gr->DrawLine(x1,y0, x1,y0+dh0, m_ColLine); Gr->DrawLine(x1+1,y0, x1+1,y0+dh0, m_ColLineShadow); } if( !m_HierTags[h].m_Closing && Grp==NULL ) { Gr->DrawLine(x1,y0, x1,y1+1, m_ColLine); Gr->DrawLine(x1+1,y0, x1+1,y1+1, m_ColLineShadow); } if( m_HierTags[h].m_Closing && Grp==NULL ) { Gr->DrawLine(x1,y0+dh0+w/2, x2+2,y0+dh0+w/2, m_ColLine); Gr->DrawLine(x1+1,y0+dh0+w/2+1, x2+3,y0+dh0+w/2+1, m_ColLineShadow); Gr->DrawLine(x1,y0, x1,y0+dh0+w/2, m_ColLine); Gr->DrawLine(x1+1,y0, x1+1,y0+dh0+w/2, m_ColLineShadow); if( m_HierTags[h].m_Level!=1 && h+1DrawLine(x1,y0+dh0+w/2+2, x1,y1+1, m_ColLine); Gr->DrawLine(x1+1,y0+dh0+w/2+3, x1+1,y1+1, m_ColLineShadow); } } } if( Grp ) { //Gr->DrawRect(x0+1,y0+dh0+1,x2-1,y0+dh1-1, (h==m_HighlightedLine) ? m_ColHighBtn : m_ColBtn); Gr->DrawRect(x0,y0+dh0,x2,y0+dh1, (h==m_HighlightedLine) ? m_ColHighBtn : m_ColBtn); if( m_DrawHandles ) { Gr->DrawLine(x0,y0+dh0,x2,y0+dh0, m_ColLine); Gr->DrawLine(x2,y0+dh0,x2,y0+dh1+1, m_ColLine); Gr->DrawLine(x2,y0+dh1,x0,y0+dh1, m_ColLine); Gr->DrawLine(x0,y0+dh1,x0,y0+dh0, m_ColLine); } Gr->DrawLine(x0+2,y0+dh0+w/2, x2-1,y0+dh0+w/2, m_ColTitleText); if( !Grp->m_Open ) Gr->DrawLine(x1,y0+dh0+2, x1,y0+dh1-1, m_ColTitleText); if( m_ColGrpBg!=0 && Grp->m_StructValuePtr==NULL ) { color32 cb = (Grp->m_StructType==TW_TYPE_HELP_STRUCT) ? m_ColStructBg : m_ColGrpBg; //int decal = m_Font->m_CharHeight/2-2+2*m_HierTags[h].m_Level; //if( decal>m_Font->m_CharHeight-3 ) // decal = m_Font->m_CharHeight-3; int margin = m_Font->m_CharWidth[(int)' ']*m_HierTags[h].m_Level; //Gr->DrawRect(m_PosX+m_VarX0+margin, y0+decal, m_PosX+m_VarX2, y0+m_Font->m_CharHeight-1, cb); Gr->DrawRect(m_PosX+m_VarX0+margin-1, y0+1, m_PosX+m_VarX2, y0+m_Font->m_CharHeight, cb);// m_ColHierBg); //Gr->DrawRect(m_PosX+m_VarX0-4, y0+m_Font->m_CharHeight/2-1, m_PosX+m_VarX0+margin-2, y0+m_Font->m_CharHeight/2, m_ColHierBg); } } else if( static_cast(m_HierTags[h].m_Var)->m_Type==TW_TYPE_HELP_GRP && m_ColHelpBg!=0 ) Gr->DrawRect(m_PosX+m_VarX0+m_HierTags[h].m_Var->m_LeftMargin, y0+m_HierTags[h].m_Var->m_TopMargin, m_PosX+m_VarX2, y0+m_Font->m_CharHeight-1, m_ColHelpBg); else if( static_cast(m_HierTags[h].m_Var)->m_Type==TW_TYPE_HELP_HEADER && m_ColHelpBg!=0 ) Gr->DrawRect(m_PosX+m_VarX0+m_HierTags[h].m_Var->m_LeftMargin, y0+m_HierTags[h].m_Var->m_TopMargin, m_PosX+m_VarX2, y0+m_Font->m_CharHeight-1, m_ColHelpBg); /* else if( static_cast(m_HierTags[h].m_Var)->m_Type==TW_TYPE_BUTTON && m_ColBtn!=0 ) { // draw button int cbx0 = m_PosX+m_VarX2-2*bw+bw/2, cby0 = y0+2, cbx1 = m_PosX+m_VarX2-2-bw/2, cby1 = y0+m_Font->m_CharHeight-4; if( m_HighlightClickBtn ) { Gr->DrawRect(cbx0+2, cby0+2, cbx1+2, cby1+2, m_ColBtn); Gr->DrawLine(cbx0+3, cby1+3, cbx1+4, cby1+3, 0x7F000000); Gr->DrawLine(cbx1+3, cby0+3, cbx1+3, cby1+3, 0x7F000000); } else { Gr->DrawRect(cbx0+3, cby1+1, cbx1+3, cby1+3, 0x7F000000); Gr->DrawRect(cbx1+1, cby0+3, cbx1+3, cby1, 0x7F000000); Gr->DrawRect(cbx0, cby0, cbx1, cby1, m_ColBtn); } } */ y0 = y1+1; } } if( m_NbDisplayedLinesm_CharHeight-2; x0 = m_PosX + m_VarX2+4; x1 = x0 + m_Font->m_CharHeight-4; if( ((x0+x1)&1)==1 ) x1 += 1; w = m_ScrollYW; h = m_ScrollYH; Gr->DrawRect(x0+2,y0+w, x1-2,y1-1-w, (m_ColBg&0xffffff)|0x3f000000); if( m_DrawHandles || m_IsPopupList ) { // scroll handle shadow lines Gr->DrawLine(x1-1,m_ScrollY0+1, x1-1,m_ScrollY1+1, m_ColLineShadow); Gr->DrawLine(x0+2,m_ScrollY1+1, x1,m_ScrollY1+1, m_ColLineShadow); // up & down arrow for( i=0; i<(x1-x0-2)/2; ++i ) { Gr->DrawLine(x0+2+i,y0+w-2*i, x1-i,y0+w-2*i, m_ColLineShadow); Gr->DrawLine(x0+1+i,y0+w-1-2*i, x1-1-i,y0+w-1-2*i, m_HighlightUpScroll?m_ColBtn:m_ColLine); Gr->DrawLine(x0+2+i,y1-w+2+2*i, x1-i,y1-w+2+2*i, m_ColLineShadow); Gr->DrawLine(x0+1+i,y1-w+1+2*i, x1-1-i,y1-w+1+2*i, m_HighlightDnScroll?m_ColBtn:m_ColLine); } // middle lines Gr->DrawLine((x0+x1)/2-1,y0+w, (x0+x1)/2-1,m_ScrollY0, m_ColLine); Gr->DrawLine((x0+x1)/2,y0+w, (x0+x1)/2,m_ScrollY0, m_ColLine); Gr->DrawLine((x0+x1)/2+1,y0+w, (x0+x1)/2+1,m_ScrollY0, m_ColLineShadow); Gr->DrawLine((x0+x1)/2-1,m_ScrollY1, (x0+x1)/2-1,y1-w+1, m_ColLine); Gr->DrawLine((x0+x1)/2,m_ScrollY1, (x0+x1)/2,y1-w+1, m_ColLine); Gr->DrawLine((x0+x1)/2+1,m_ScrollY1, (x0+x1)/2+1,y1-w+1, m_ColLineShadow); // scroll handle lines Gr->DrawRect(x0+2,m_ScrollY0+1, x1-3,m_ScrollY1-1, m_HighlightScroll?m_ColHighBtn:m_ColBtn); Gr->DrawLine(x1-2,m_ScrollY0, x1-2,m_ScrollY1, m_ColLine); Gr->DrawLine(x0+1,m_ScrollY0, x0+1,m_ScrollY1, m_ColLine); Gr->DrawLine(x0+1,m_ScrollY1, x1-1,m_ScrollY1, m_ColLine); Gr->DrawLine(x0+1,m_ScrollY0, x1-2,m_ScrollY0, m_ColLine); } else Gr->DrawRect(x0+3,m_ScrollY0+1, x1-3,m_ScrollY1-1, (m_ColBtn&0xffffff)|0x3f000000); } if( m_DrawHandles && !m_IsPopupList ) { // Draw resize handles // lower-left Gr->DrawLine(m_PosX+3, m_PosY+m_Height-m_Font->m_CharHeight+3, m_PosX+3, m_PosY+m_Height-4, m_ColLine); Gr->DrawLine(m_PosX+4, m_PosY+m_Height-m_Font->m_CharHeight+4, m_PosX+4, m_PosY+m_Height-3, m_ColLineShadow); Gr->DrawLine(m_PosX+3, m_PosY+m_Height-4, m_PosX+m_Font->m_CharHeight-4, m_PosY+m_Height-4, m_ColLine); Gr->DrawLine(m_PosX+4, m_PosY+m_Height-3, m_PosX+m_Font->m_CharHeight-3, m_PosY+m_Height-3, m_ColLineShadow); // lower-right Gr->DrawLine(m_PosX+m_Width-4, m_PosY+m_Height-m_Font->m_CharHeight+3, m_PosX+m_Width-4, m_PosY+m_Height-4, m_ColLine); Gr->DrawLine(m_PosX+m_Width-3, m_PosY+m_Height-m_Font->m_CharHeight+4, m_PosX+m_Width-3, m_PosY+m_Height-3, m_ColLineShadow); Gr->DrawLine(m_PosX+m_Width-4, m_PosY+m_Height-4, m_PosX+m_Width-m_Font->m_CharHeight+3, m_PosY+m_Height-4, m_ColLine); Gr->DrawLine(m_PosX+m_Width-3, m_PosY+m_Height-3, m_PosX+m_Width-m_Font->m_CharHeight+4, m_PosY+m_Height-3, m_ColLineShadow); // upper-left Gr->DrawLine(m_PosX+3, m_PosY+m_Font->m_CharHeight-4, m_PosX+3, m_PosY+3, m_ColLine); Gr->DrawLine(m_PosX+4, m_PosY+m_Font->m_CharHeight-3, m_PosX+4, m_PosY+4, m_ColLineShadow); Gr->DrawLine(m_PosX+3, m_PosY+3, m_PosX+m_Font->m_CharHeight-4, m_PosY+3, m_ColLine); Gr->DrawLine(m_PosX+4, m_PosY+4, m_PosX+m_Font->m_CharHeight-3, m_PosY+4, m_ColLineShadow); // upper-right Gr->DrawLine(m_PosX+m_Width-4, m_PosY+3, m_PosX+m_Width-m_Font->m_CharHeight+3, m_PosY+3, m_ColLine); Gr->DrawLine(m_PosX+m_Width-3, m_PosY+4, m_PosX+m_Width-m_Font->m_CharHeight+4, m_PosY+4, m_ColLineShadow); Gr->DrawLine(m_PosX+m_Width-4, m_PosY+m_Font->m_CharHeight-4, m_PosX+m_Width-4, m_PosY+3, m_ColLine); Gr->DrawLine(m_PosX+m_Width-3, m_PosY+m_Font->m_CharHeight-3, m_PosX+m_Width-3, m_PosY+4, m_ColLineShadow); // Draw minimize button int xm = m_PosX+m_Width-2*m_Font->m_CharHeight, wm=m_Font->m_CharHeight-6; wm = (wm<6) ? 6 : wm; Gr->DrawRect(xm+1, m_PosY+4, xm+wm-1, m_PosY+3+wm, m_HighlightMinimize?m_ColHighBtn:m_ColBtn); Gr->DrawLine(xm, m_PosY+3, xm+wm, m_PosY+3, m_ColLine); Gr->DrawLine(xm+wm, m_PosY+3, xm+wm, m_PosY+3+wm, m_ColLine); Gr->DrawLine(xm+wm, m_PosY+3+wm, xm, m_PosY+3+wm, m_ColLine); Gr->DrawLine(xm, m_PosY+3+wm, xm, m_PosY+3, m_ColLine); Gr->DrawLine(xm+wm+1, m_PosY+4, xm+wm+1, m_PosY+4+wm, m_ColLineShadow); Gr->DrawLine(xm+wm+1, m_PosY+4+wm, xm, m_PosY+4+wm, m_ColLineShadow); Gr->DrawLine(xm+wm/3+((wm<9)?1:0), m_PosY+4+wm/3-((wm<9)?0:1), xm+wm/2+1, m_PosY+2+wm, m_ColTitleText, true); Gr->DrawLine(xm+wm-wm/3+((wm<9)?0:1), m_PosY+4+wm/3-((wm<9)?0:1), xm+wm/2, m_PosY+2+wm, m_ColTitleText, true); // Draw font button xm = m_PosX+m_Font->m_CharHeight+2; Gr->DrawRect(xm+1, m_PosY+4, xm+wm-1, m_PosY+3+wm, m_HighlightFont?m_ColHighBtn:m_ColBtn); Gr->DrawLine(xm, m_PosY+3, xm+wm, m_PosY+3, m_ColLine); Gr->DrawLine(xm+wm, m_PosY+3, xm+wm, m_PosY+3+wm, m_ColLine); Gr->DrawLine(xm+wm, m_PosY+3+wm, xm, m_PosY+3+wm, m_ColLine); Gr->DrawLine(xm, m_PosY+3+wm, xm, m_PosY+3, m_ColLine); Gr->DrawLine(xm+wm+1, m_PosY+4, xm+wm+1, m_PosY+4+wm, m_ColLineShadow); Gr->DrawLine(xm+wm+1, m_PosY+4+wm, xm, m_PosY+4+wm, m_ColLineShadow); Gr->DrawLine(xm+wm/2-wm/6, m_PosY+3+wm/3, xm+wm/2+wm/6+1, m_PosY+3+wm/3, m_ColTitleText); Gr->DrawLine(xm+wm/2-wm/6, m_PosY+3+wm/3, xm+wm/2-wm/6, m_PosY+4+wm-wm/3+(wm>11?1:0), m_ColTitleText); Gr->DrawLine(xm+wm/2-wm/6, m_PosY+3+wm/2+(wm>11?1:0), xm+wm/2+wm/6, m_PosY+3+wm/2+(wm>11?1:0), m_ColTitleText); } } // --------------------------------------------------------------------------- void CTwBar::Draw() { PERF( PerfTimer Timer; double DT; ) assert(m_Font); ITwGraph *Gr = g_TwMgr->m_Graph; if( float(g_BarTimer.GetTime())>m_LastUpdateTime+m_UpdatePeriod ) NotUpToDate(); if( m_HighlightedLine!=m_HighlightedLinePrev ) { m_HighlightedLinePrev = m_HighlightedLine; NotUpToDate(); } if( m_IsHelpBar && g_TwMgr->m_HelpBarNotUpToDate ) g_TwMgr->UpdateHelpBar(); if( !m_UpToDate ) Update(); if( !m_IsMinimized ) { int y = m_PosY+1; // Draw title if( !m_IsPopupList ) { PERF( Timer.Reset(); ) Gr->DrawRect(m_PosX, m_PosY, m_PosX+m_Width-1, m_PosY+m_Font->m_CharHeight, (m_HighlightTitle||m_MouseDragTitle) ? m_ColTitleHighBg : m_ColTitleBg); if( m_ColTitleShadow!=0 ) Gr->DrawText(m_TitleTextObj, m_PosX+(m_Width-m_TitleWidth)/2+1, m_PosY+1, m_ColTitleShadow, 0); Gr->DrawText(m_TitleTextObj, m_PosX+(m_Width-m_TitleWidth)/2, m_PosY, m_ColTitleText, 0); y = m_PosY+m_Font->m_CharHeight+1; Gr->DrawLine(m_PosX, y, m_PosX+m_Width-1, y, m_ColTitleShadow); y++; PERF( DT = Timer.GetTime(); printf("Title=%.4fms ", 1000.0*DT); ) } // Draw background PERF( Timer.Reset(); ) //Gr->DrawRect(m_PosX, y, m_PosX+m_Width-1, m_PosY+m_Height-1, m_ColBg); Gr->DrawRect(m_PosX, y, m_PosX+m_Width-1, m_PosY+m_Height-1, m_ColBg2, m_ColBg1, m_ColBg1, m_ColBg); Gr->DrawRect(m_PosX, y, m_PosX+m_VarX0-5, m_PosY+m_Height-1, m_ColHierBg); Gr->DrawRect(m_PosX+m_VarX2+3, y, m_PosX+m_Width-1, m_PosY+m_Height-1, m_ColHierBg); // Draw highlighted line if( m_HighlightedLine>=0 && m_HighlightedLine<(int)m_HierTags.size() && m_HierTags[m_HighlightedLine].m_Var!=NULL && (m_HierTags[m_HighlightedLine].m_Var->IsGroup() || (!static_cast(m_HierTags[m_HighlightedLine].m_Var)->m_ReadOnly && !m_IsHelpBar)) ) { int y0 = m_PosY + m_VarY0 + m_HighlightedLine*(m_Font->m_CharHeight+m_Sep); Gr->DrawRect(m_PosX+m_VarX0, y0, m_PosX+m_VarX2, y0+m_Font->m_CharHeight-1, m_ColHighBg); int eps = (g_TwMgr->m_GraphAPI==TW_OPENGL) ? 1 : 0; Gr->DrawLine(m_PosX+m_VarX0, y0+m_Font->m_CharHeight+eps, m_PosX+m_VarX2, y0+m_Font->m_CharHeight+eps, m_ColUnderline); } int dshad = 3; // bar shadows color32 cshad = (((m_Color>>24)/2)<<24) & 0xFF000000; Gr->DrawRect(m_PosX, m_PosY+m_Height, m_PosX+dshad, m_PosY+m_Height+dshad, 0, cshad, 0, 0); Gr->DrawRect(m_PosX+dshad+1, m_PosY+m_Height, m_PosX+m_Width-1, m_PosY+m_Height+dshad, cshad, cshad, 0, 0); Gr->DrawRect(m_PosX+m_Width, m_PosY+m_Height, m_PosX+m_Width+dshad, m_PosY+m_Height+dshad, cshad, 0, 0, 0); Gr->DrawRect(m_PosX+m_Width, m_PosY, m_PosX+m_Width+dshad, m_PosY+dshad, 0, 0, cshad, 0); Gr->DrawRect(m_PosX+m_Width, m_PosY+dshad+1, m_PosX+m_Width+dshad, m_PosY+m_Height-1, cshad, 0, cshad, 0); color32 clight = 0x5FFFFFFF; Gr->DrawLine(m_PosX, m_PosY, m_PosX, m_PosY+m_Height, clight); Gr->DrawLine(m_PosX, m_PosY, m_PosX+m_Width, m_PosY, clight); PERF( DT = Timer.GetTime(); printf("Bg=%.4fms ", 1000.0*DT); ) // Draw hierarchy handle PERF( Timer.Reset(); ) DrawHierHandle(); PERF( DT = Timer.GetTime(); printf("Handles=%.4fms ", 1000.0*DT); ) // Draw labels PERF( Timer.Reset(); ) Gr->DrawText(m_LabelsTextObj, m_PosX+m_VarX0, m_PosY+m_VarY0, 0 /*m_ColLabelText*/, 0); PERF( DT = Timer.GetTime(); printf("Labels=%.4fms ", 1000.0*DT); ) // Draw values if( !m_IsPopupList ) { PERF( Timer.Reset(); ) Gr->DrawText(m_ValuesTextObj, m_PosX+m_VarX1, m_PosY+m_VarY0, 0 /*m_ColValText*/, 0 /*m_ColValBg*/); PERF( DT = Timer.GetTime(); printf("Values=%.4fms ", 1000.0*DT); ) } // Draw preview for color values and draw buttons int h, nh = (int)m_HierTags.size(); int yh = m_PosY+m_VarY0; int bw = IncrBtnWidth(m_Font->m_CharHeight); for( h=0; hIsGroup() ) { const CTwVarGroup * Grp = static_cast(m_HierTags[h].m_Var); if( Grp->m_SummaryCallback==CColorExt::SummaryCB && Grp->m_StructValuePtr!=NULL ) { // draw color value int ydecal = (g_TwMgr->m_GraphAPI==TW_OPENGL) ? 1 : 0; const int checker = 8; for( int c=0; cDrawRect(m_PosX+m_VarX1+(c*(m_VarX2-m_VarX1))/checker, yh+1+ydecal+((c%2)*(m_Font->m_CharHeight-2))/2, m_PosX+m_VarX1-1+((c+1)*(m_VarX2-m_VarX1))/checker, yh+ydecal+(((c%2)+1)*(m_Font->m_CharHeight-2))/2, 0xffffffff); Gr->DrawRect(m_PosX+m_VarX1, yh+1+ydecal, m_PosX+m_VarX2-1, yh+ydecal+m_Font->m_CharHeight-2, 0xbfffffff); const CColorExt *colExt = static_cast(Grp->m_StructValuePtr); color32 col = Color32FromARGBi((colExt->m_HasAlpha ? colExt->A : 255), colExt->R, colExt->G, colExt->B); if( col!=0 ) Gr->DrawRect(m_PosX+m_VarX1, yh+1+ydecal, m_PosX+m_VarX2-1, yh+ydecal+m_Font->m_CharHeight-2, col); /* Gr->DrawLine(m_PosX+m_VarX1-1, yh, m_PosX+m_VarX2+1, yh, 0xff000000); Gr->DrawLine(m_PosX+m_VarX1-1, yh+m_Font->m_CharHeight, m_PosX+m_VarX2+1, yh+m_Font->m_CharHeight, 0xff000000); Gr->DrawLine(m_PosX+m_VarX1-1, yh, m_PosX+m_VarX1-1, yh+m_Font->m_CharHeight, 0xff000000); Gr->DrawLine(m_PosX+m_VarX2, yh, m_PosX+m_VarX2, yh+m_Font->m_CharHeight, 0xff000000); */ } } else if( static_cast(m_HierTags[h].m_Var)->m_Type==TW_TYPE_BUTTON && !m_IsPopupList ) { // draw button int cbx0 = m_PosX+m_VarX2-2*bw+bw/2, cby0 = yh+2, cbx1 = m_PosX+m_VarX2-2-bw/2, cby1 = yh+m_Font->m_CharHeight-4; if( !static_cast(m_HierTags[h].m_Var)->m_ReadOnly ) { if( m_HighlightClickBtn && h==m_HighlightedLine ) { Gr->DrawRect(cbx0+2, cby0+2, cbx1+2, cby1+2, m_ColHighBtn); Gr->DrawLine(cbx0+3, cby1+3, cbx1+4, cby1+3, 0xAF000000); Gr->DrawLine(cbx1+3, cby0+3, cbx1+3, cby1+3, 0xAF000000); } else { Gr->DrawRect(cbx0+3, cby1+1, cbx1+3, cby1+3, (h==m_HighlightedLine)?0xAF000000:0x7F000000); Gr->DrawRect(cbx1+1, cby0+3, cbx1+3, cby1, (h==m_HighlightedLine)?0xAF000000:0x7F000000); Gr->DrawRect(cbx0, cby0, cbx1, cby1, (h==m_HighlightedLine)?m_ColHighBtn:m_ColBtn); } } } yh += m_Font->m_CharHeight+m_Sep; } if( m_DrawHandles && !m_IsPopupList ) { // Draw -/+/click buttons if( (m_DrawIncrDecrBtn || m_DrawClickBtn) && m_HighlightedLine>=0 && m_HighlightedLine<(int)m_HierTags.size() ) { int y0 = m_PosY + m_VarY0 + m_HighlightedLine*(m_Font->m_CharHeight+m_Sep); if( m_DrawIncrDecrBtn ) { Gr->DrawRect(m_PosX+m_VarX2-2*bw+1, y0+1, m_PosX+m_VarX2-bw-1, y0+m_Font->m_CharHeight-2, m_HighlightDecrBtn?m_ColHighBtn:m_ColBtn); Gr->DrawRect(m_PosX+m_VarX2-bw+1, y0+1, m_PosX+m_VarX2-1, y0+m_Font->m_CharHeight-2, m_HighlightIncrBtn?m_ColHighBtn:m_ColBtn); // [-] Gr->DrawLine(m_PosX+m_VarX2-2*bw+3, y0+m_Font->m_CharHeight/2, m_PosX+m_VarX2-bw-2, y0+m_Font->m_CharHeight/2, m_ColTitleText); // [+] Gr->DrawLine(m_PosX+m_VarX2-bw+3, y0+m_Font->m_CharHeight/2, m_PosX+m_VarX2-2, y0+m_Font->m_CharHeight/2, m_ColTitleText); Gr->DrawLine(m_PosX+m_VarX2-bw/2, y0+m_Font->m_CharHeight/2-bw/2+2, m_PosX+m_VarX2-bw/2, y0+m_Font->m_CharHeight/2+bw/2-1, m_ColTitleText); // [o] rotoslider //Gr->DrawRect(m_PosX+m_VarX2-3*bw+1, y0+1, m_PosX+m_VarX2-2*bw-1, y0+m_Font->m_CharHeight-2, (!m_HighlightDecrBtn && !m_HighlightIncrBtn)?m_ColHighBtn:m_ColBtn); //Gr->DrawLine(m_PosX+m_VarX2-3*bw+bw/2-0, y0+m_Font->m_CharHeight/2-1, m_PosX+m_VarX2-3*bw+bw/2+1, y0+m_Font->m_CharHeight/2-1, m_ColTitleText); //Gr->DrawLine(m_PosX+m_VarX2-3*bw+bw/2-1, y0+m_Font->m_CharHeight/2+0, m_PosX+m_VarX2-3*bw+bw/2+2, y0+m_Font->m_CharHeight/2+0, m_ColTitleText); //Gr->DrawLine(m_PosX+m_VarX2-3*bw+bw/2-1, y0+m_Font->m_CharHeight/2+1, m_PosX+m_VarX2-3*bw+bw/2+2, y0+m_Font->m_CharHeight/2+1, m_ColTitleText); //Gr->DrawLine(m_PosX+m_VarX2-3*bw+bw/2-0, y0+m_Font->m_CharHeight/2+2, m_PosX+m_VarX2-3*bw+bw/2+1, y0+m_Font->m_CharHeight/2+2, m_ColTitleText); } } // Draw value width slider if( !m_HighlightValWidth ) { Gr->DrawRect(m_PosX+m_VarX1-2, m_PosY+m_VarY0-8, m_PosX+m_VarX1-1, m_PosY+m_VarY0-4, m_ColTitleText); Gr->DrawLine(m_PosX+m_VarX1-1, m_PosY+m_VarY0-3, m_PosX+m_VarX1, m_PosY+m_VarY0-3, m_ColLineShadow); Gr->DrawLine(m_PosX+m_VarX1, m_PosY+m_VarY0-3, m_PosX+m_VarX1, m_PosY+m_VarY0-8, m_ColLineShadow); } else { Gr->DrawRect(m_PosX+m_VarX1-2, m_PosY+m_VarY0-8, m_PosX+m_VarX1-1, m_PosY+m_VarY1, m_ColTitleText); Gr->DrawLine(m_PosX+m_VarX1-1, m_PosY+m_VarY1+1, m_PosX+m_VarX1, m_PosY+m_VarY1+1, m_ColLineShadow); Gr->DrawLine(m_PosX+m_VarX1, m_PosY+m_VarY1+1, m_PosX+m_VarX1, m_PosY+m_VarY0-8, m_ColLineShadow); } } // Draw key shortcut text if( m_HighlightedLine>=0 && m_HighlightedLine==m_ShortcutLine && !m_IsPopupList ) { PERF( Timer.Reset(); ) Gr->DrawRect(m_PosX+m_Font->m_CharHeight-2, m_PosY+m_VarY1+1, m_PosX+m_Width-m_Font->m_CharHeight-2, m_PosY+m_VarY1+1+m_Font->m_CharHeight, m_ColShortcutBg); Gr->DrawText(m_ShortcutTextObj, m_PosX+m_Font->m_CharHeight, m_PosY+m_VarY1+1, m_ColShortcutText, 0); PERF( DT = Timer.GetTime(); printf("Shortcut=%.4fms ", 1000.0*DT); ) } else if( m_IsHelpBar ) { if( g_TwMgr->m_KeyPressedTextObj && g_TwMgr->m_KeyPressedStr.size()>0 ) // Draw key pressed { if( g_TwMgr->m_KeyPressedBuildText ) { string Str = g_TwMgr->m_KeyPressedStr; ClampText(Str, m_Font, m_Width-2*m_Font->m_CharHeight); g_TwMgr->m_Graph->BuildText(g_TwMgr->m_KeyPressedTextObj, &Str, NULL, NULL, 1, g_TwMgr->m_HelpBar->m_Font, 0, 0); g_TwMgr->m_KeyPressedBuildText = false; g_TwMgr->m_KeyPressedTime = (float)g_BarTimer.GetTime(); } if( (float)g_BarTimer.GetTime()>g_TwMgr->m_KeyPressedTime+1.0f ) // draw key pressed at least 1 second g_TwMgr->m_KeyPressedStr = ""; PERF( Timer.Reset(); ) Gr->DrawRect(m_PosX+m_Font->m_CharHeight-2, m_PosY+m_VarY1+1, m_PosX+m_Width-m_Font->m_CharHeight-2, m_PosY+m_VarY1+1+m_Font->m_CharHeight, m_ColShortcutBg); Gr->DrawText(g_TwMgr->m_KeyPressedTextObj, m_PosX+m_Font->m_CharHeight, m_PosY+m_VarY1+1, m_ColShortcutText, 0); PERF( DT = Timer.GetTime(); printf("KeyPressed=%.4fms ", 1000.0*DT); ) } else { if( g_TwMgr->m_InfoBuildText ) { string Info = "> AntTweakBar"; //string Info = "> AntTweakBar - www.antisphere.com"; char Ver[64]; sprintf(Ver, " (v%d.%02d)", TW_VERSION/100, TW_VERSION%100); Info += Ver; ClampText(Info, m_Font, m_Width-2*m_Font->m_CharHeight); g_TwMgr->m_Graph->BuildText(g_TwMgr->m_InfoTextObj, &Info, NULL, NULL, 1, g_TwMgr->m_HelpBar->m_Font, 0, 0); g_TwMgr->m_InfoBuildText = false; } PERF( Timer.Reset(); ) Gr->DrawRect(m_PosX+m_Font->m_CharHeight-2, m_PosY+m_VarY1+1, m_PosX+m_Width-m_Font->m_CharHeight-2, m_PosY+m_VarY1+1+m_Font->m_CharHeight, m_ColShortcutBg); Gr->DrawText(g_TwMgr->m_InfoTextObj, m_PosX+m_Font->m_CharHeight, m_PosY+m_VarY1+1, m_ColInfoText, 0); PERF( DT = Timer.GetTime(); printf("Info=%.4fms ", 1000.0*DT); ) } } if( !m_IsPopupList ) { // Draw RotoSlider RotoDraw(); } if( g_TwMgr->m_PopupBar!=NULL && this!=g_TwMgr->m_PopupBar ) { // darken bar if a popup bar is displayed Gr->DrawRect(m_PosX, m_PosY, m_PosX+m_Width-1, m_PosY+m_Height-1, 0x1F000000); } } else // minimized { int vpx, vpy, vpw, vph; vpx = 0; vpy = 0; vpw = g_TwMgr->m_WndWidth; vph = g_TwMgr->m_WndHeight; int n = vph/m_Font->m_CharHeight-1; if( n<1 ) n = 1; m_MinPosY = vph-((m_MinNumber%n)+1)*m_Font->m_CharHeight; m_MinPosX = (m_MinNumber/n)*m_Font->m_CharHeight; if( m_HighlightMaximize ) { // Draw title Gr->DrawRect(m_MinPosX, m_MinPosY, m_MinPosX+m_TitleWidth+2*m_Font->m_CharHeight, m_MinPosY+m_Font->m_CharHeight, m_ColTitleBg); if( m_ColTitleShadow!=0 ) Gr->DrawText(m_TitleTextObj, m_MinPosX+(3*m_Font->m_CharHeight)/2, m_MinPosY+1, m_ColTitleShadow, 0); Gr->DrawText(m_TitleTextObj, m_MinPosX+(3*m_Font->m_CharHeight)/2, m_MinPosY, m_ColTitleText, 0); } if( !m_IsHelpBar ) { // Draw maximize button int xm = m_MinPosX+2, wm=m_Font->m_CharHeight-6; wm = (wm<6) ? 6 : wm; Gr->DrawRect(xm+1, m_MinPosY+4, xm+wm-1, m_MinPosY+3+wm, m_HighlightMaximize?m_ColHighBtn:m_ColBtn); Gr->DrawLine(xm, m_MinPosY+3, xm+wm, m_MinPosY+3, m_ColLine); Gr->DrawLine(xm+wm, m_MinPosY+3, xm+wm, m_MinPosY+3+wm, m_ColLine); Gr->DrawLine(xm+wm, m_MinPosY+3+wm, xm, m_MinPosY+3+wm, m_ColLine); Gr->DrawLine(xm, m_MinPosY+3+wm, xm, m_MinPosY+3, m_ColLine); Gr->DrawLine(xm+wm+1, m_MinPosY+4, xm+wm+1, m_MinPosY+4+wm, m_ColLineShadow); Gr->DrawLine(xm+wm+1, m_MinPosY+4+wm, xm, m_MinPosY+4+wm, m_ColLineShadow); Gr->DrawLine(xm+wm/3, m_MinPosY+3+wm-wm/3, xm+wm/2+1, m_MinPosY+5, m_ColTitleText, true); Gr->DrawLine(xm+wm-wm/3+1, m_MinPosY+3+wm-wm/3, xm+wm/2, m_MinPosY+5, m_ColTitleText, true); } else { // Draw help button int xm = m_MinPosX+2, wm=m_Font->m_CharHeight-6; wm = (wm<6) ? 6 : wm; Gr->DrawRect(xm+1, m_MinPosY+4, xm+wm-1, m_MinPosY+3+wm, m_HighlightMaximize?m_ColHighBtn:m_ColBtn); Gr->DrawLine(xm, m_MinPosY+3, xm+wm, m_MinPosY+3, m_ColLine); Gr->DrawLine(xm+wm, m_MinPosY+3, xm+wm, m_MinPosY+3+wm, m_ColLine); Gr->DrawLine(xm+wm, m_MinPosY+3+wm, xm, m_MinPosY+3+wm, m_ColLine); Gr->DrawLine(xm, m_MinPosY+3+wm, xm, m_MinPosY+3, m_ColLine); Gr->DrawLine(xm+wm+1, m_MinPosY+4, xm+wm+1, m_MinPosY+4+wm, m_ColLineShadow); Gr->DrawLine(xm+wm+1, m_MinPosY+4+wm, xm, m_MinPosY+4+wm, m_ColLineShadow); Gr->DrawLine(xm+wm/2-wm/6, m_MinPosY+3+wm/4, xm+wm-wm/3, m_MinPosY+3+wm/4, m_ColTitleText); Gr->DrawLine(xm+wm-wm/3, m_MinPosY+3+wm/4, xm+wm-wm/3, m_MinPosY+3+wm/2, m_ColTitleText); Gr->DrawLine(xm+wm-wm/3, m_MinPosY+3+wm/2, xm+wm/2, m_MinPosY+3+wm/2, m_ColTitleText); Gr->DrawLine(xm+wm/2, m_MinPosY+3+wm/2, xm+wm/2, m_MinPosY+3+wm-wm/4, m_ColTitleText); Gr->DrawLine(xm+wm/2, m_MinPosY+3+wm-wm/4+1, xm+wm/2, m_MinPosY+3+wm-wm/4+2, m_ColTitleText); } } } // --------------------------------------------------------------------------- bool CTwBar::MouseMotion(int _X, int _Y) { assert(g_TwMgr->m_Graph && g_TwMgr->m_WndHeight>0 && g_TwMgr->m_WndWidth>0); if( !m_UpToDate ) Update(); bool Handled = false; if( !m_IsMinimized ) { bool InBar = (_X>=m_PosX && _X=m_PosY && _Ym_Bars.size(); ++ib ) if( g_TwMgr->m_Bars[ib]!=NULL ) { g_TwMgr->m_Bars[ib]->m_DrawHandles = false; g_TwMgr->m_Bars[ib]->m_HighlightTitle = false; } m_DrawHandles = InBar; if( !m_MouseDrag ) { Handled = InBar; m_HighlightedLine = -1; m_HighlightIncrBtn = false; m_HighlightDecrBtn = false; m_HighlightClickBtn = false; m_HighlightTitle = false; m_HighlightScroll = false; m_HighlightUpScroll = false; m_HighlightDnScroll = false; m_HighlightMinimize = false; m_HighlightFont = false; m_HighlightValWidth = false; //if( InBar && _X>m_PosX+m_Font->m_CharHeight+1 && _X=m_PosY+m_VarY0 && _Ym_PosX+2 && _X=m_PosY+m_VarY0 && _Ym_CharHeight+m_Sep); if( m_HighlightedLine>=(int)m_HierTags.size() ) m_HighlightedLine = -1; if( m_HighlightedLine<0 || m_HierTags[m_HighlightedLine].m_Var==NULL || m_HierTags[m_HighlightedLine].m_Var->IsGroup() ) ANT_SET_CURSOR(Arrow); else { if( !m_HierTags[m_HighlightedLine].m_Var->IsGroup() && static_cast(m_HierTags[m_HighlightedLine].m_Var)->m_NoSlider ) { if( static_cast(m_HierTags[m_HighlightedLine].m_Var)->m_ReadOnly && !m_IsHelpBar ) ANT_SET_CURSOR(No); //(Arrow); else ANT_SET_CURSOR(Arrow); } else if( m_DrawIncrDecrBtn && _X>=m_PosX+m_VarX2-IncrBtnWidth(m_Font->m_CharHeight) ) // [+] button { m_HighlightIncrBtn = true; ANT_SET_CURSOR(Arrow); } else if( m_DrawIncrDecrBtn && _X>=m_PosX+m_VarX2-2*IncrBtnWidth(m_Font->m_CharHeight) ) // [-] button { m_HighlightDecrBtn = true; ANT_SET_CURSOR(Arrow); } else if( !m_HierTags[m_HighlightedLine].m_Var->IsGroup() && static_cast(m_HierTags[m_HighlightedLine].m_Var)->m_ReadOnly ) { if( !m_IsHelpBar ) ANT_SET_CURSOR(No); else ANT_SET_CURSOR(Arrow); } else ANT_SET_CURSOR(Point); //ANT_SET_CURSOR(WE); } } else if( InBar && !m_IsPopupList && _X>=m_PosX+2*m_Font->m_CharHeight && _Xm_CharHeight && _Ym_CharHeight ) { m_HighlightTitle = true; ANT_SET_CURSOR(Move); } else if ( InBar && !m_IsPopupList && _X>=m_PosX+m_VarX1-3 && _Xm_PosY+m_Font->m_CharHeight && _Y=m_PosX && _Xm_CharHeight && _Y>=m_ScrollY0 && _Y=m_PosX+m_VarX2+2 && _X=m_ScrollY0 && _Y=m_PosX+m_VarX2+2 && _X=m_PosY+m_VarY0 && _Y=m_PosX+m_VarX2+2 && _X=m_ScrollY1 && _Y=m_PosX && _Xm_CharHeight && _Y>=m_PosY && _Ym_CharHeight ) ANT_SET_CURSOR(TopLeft); else if( InBar && !m_IsPopupList && _X>=m_PosX && _Xm_CharHeight && _Y>=m_PosY+m_Height-m_Font->m_CharHeight && _Y=m_PosX+m_Width-m_Font->m_CharHeight && _X=m_PosY && _Ym_CharHeight ) ANT_SET_CURSOR(TopRight); else if( InBar && !m_IsPopupList && _X>=m_PosX+m_Width-m_Font->m_CharHeight && _X=m_PosY+m_Height-m_Font->m_CharHeight && _Y=m_PosX+m_Font->m_CharHeight && _Xm_CharHeight && _Ym_CharHeight ) { m_HighlightFont = true; ANT_SET_CURSOR(Arrow); } else if( InBar && !m_IsPopupList && _X>=m_PosX+m_Width-2*m_Font->m_CharHeight && _Xm_CharHeight && _Ym_CharHeight ) { m_HighlightMinimize = true; ANT_SET_CURSOR(Arrow); } else if( m_IsHelpBar && InBar && _X>=m_PosX+m_VarX0 && _Xm_CharHeight && _Y>m_PosY+m_Height-m_Font->m_CharHeight && _Y=0 && m_HighlightedLine<(int)m_HierTags.size() && m_HierTags[m_HighlightedLine].m_Var && !m_HierTags[m_HighlightedLine].m_Var->IsGroup() ) { /* CTwVarAtom *Var = static_cast(m_HierTags[m_HighlightedLine].m_Var); int Delta = _X-m_MouseOriginX; if( Delta!=0 ) { if( !Var->m_NoSlider && !Var->m_ReadOnly ) { Var->Increment(Delta); NotUpToDate(); } m_VarHasBeenIncr = true; } m_MouseOriginX = _X; m_MouseOriginY = _Y; if( !Var->m_NoSlider && !Var->m_ReadOnly ) ANT_SET_CURSOR(Center); //ANT_SET_CURSOR(WE); else ANT_SET_CURSOR(Arrow); Handled = true; */ // move rotoslider if( !static_cast(m_HierTags[m_HighlightedLine].m_Var)->m_NoSlider ) RotoOnMouseMove(_X, _Y); if( static_cast(m_HierTags[m_HighlightedLine].m_Var)->m_ReadOnly ) ANT_SET_CURSOR(No); else if( static_cast(m_HierTags[m_HighlightedLine].m_Var)->m_NoSlider ) ANT_SET_CURSOR(Arrow); m_VarHasBeenIncr = true; Handled = true; m_DrawHandles = true; } else if( m_MouseDragTitle ) { int y = m_PosY; m_PosX += _X-m_MouseOriginX; m_PosY += _Y-m_MouseOriginY; m_MouseOriginX = _X; m_MouseOriginY = _Y; int vpx, vpy, vpw, vph; vpx = 0; vpy = 0; vpw = g_TwMgr->m_WndWidth; vph = g_TwMgr->m_WndHeight; if( m_PosX+m_Width>vpx+vpw ) m_PosX = vpx+vpw-m_Width; if( m_PosXvpy+vph ) m_PosY = vpy+vph-m_Height; if( m_PosYm_HelpBarNotUpToDate = true; ANT_SET_CURSOR(WE); Handled = true; m_DrawHandles = true; } else if( m_MouseDragScroll ) { if( m_ScrollYH>0 ) { int dl = ((_Y-m_MouseOriginY)*m_NbHierLines)/m_ScrollYH; if( m_FirstLine0+dl<0 ) m_FirstLine = 0; else if( m_FirstLine0+dl+m_NbDisplayedLines>m_NbHierLines ) m_FirstLine = m_NbHierLines-m_NbDisplayedLines; else m_FirstLine = m_FirstLine0+dl; NotUpToDate(); } ANT_SET_CURSOR(NS); Handled = true; m_DrawHandles = true; } else if( m_MouseDragResizeUL ) { m_PosX += _X-m_MouseOriginX; m_PosY += _Y-m_MouseOriginY; m_Width -= _X-m_MouseOriginX; m_Height -= _Y-m_MouseOriginY; m_MouseOriginX = _X; m_MouseOriginY = _Y; ANT_SET_CURSOR(TopLeft); NotUpToDate(); if( m_IsHelpBar ) { g_TwMgr->m_HelpBarNotUpToDate = true; g_TwMgr->m_HelpBarUpdateNow = true; } g_TwMgr->m_KeyPressedBuildText = true; g_TwMgr->m_InfoBuildText = true; Handled = true; m_DrawHandles = true; } else if( m_MouseDragResizeUR ) { m_PosY += _Y-m_MouseOriginY; m_Width += _X-m_MouseOriginX; m_Height -= _Y-m_MouseOriginY; m_MouseOriginX = _X; m_MouseOriginY = _Y; ANT_SET_CURSOR(TopRight); NotUpToDate(); if( m_IsHelpBar ) { g_TwMgr->m_HelpBarNotUpToDate = true; g_TwMgr->m_HelpBarUpdateNow = true; } g_TwMgr->m_KeyPressedBuildText = true; g_TwMgr->m_InfoBuildText = true; Handled = true; m_DrawHandles = true; } else if( m_MouseDragResizeLL ) { m_PosX += _X-m_MouseOriginX; m_Width -= _X-m_MouseOriginX; m_Height += _Y-m_MouseOriginY; m_MouseOriginX = _X; m_MouseOriginY = _Y; ANT_SET_CURSOR(BottomLeft); NotUpToDate(); if( m_IsHelpBar ) { g_TwMgr->m_HelpBarNotUpToDate = true; g_TwMgr->m_HelpBarUpdateNow = true; } g_TwMgr->m_KeyPressedBuildText = true; g_TwMgr->m_InfoBuildText = true; Handled = true; m_DrawHandles = true; } else if( m_MouseDragResizeLR ) { m_Width += _X-m_MouseOriginX; m_Height += _Y-m_MouseOriginY; m_MouseOriginX = _X; m_MouseOriginY = _Y; ANT_SET_CURSOR(BottomRight); NotUpToDate(); if( m_IsHelpBar ) { g_TwMgr->m_HelpBarNotUpToDate = true; g_TwMgr->m_HelpBarUpdateNow = true; } g_TwMgr->m_KeyPressedBuildText = true; g_TwMgr->m_InfoBuildText = true; Handled = true; m_DrawHandles = true; } //else if( InBar ) // ANT_SET_CURSOR(Arrow); } } else // minimized { if( _X>=m_MinPosX+2 && _Xm_CharHeight && _Y>m_MinPosY && _Ym_CharHeight-2 ) { m_HighlightMaximize = true; if( !m_IsHelpBar ) ANT_SET_CURSOR(Arrow); else ANT_SET_CURSOR(Help); Handled = true; } else m_HighlightMaximize = false; } return Handled; } // --------------------------------------------------------------------------- #ifdef ANT_WINDOWS # pragma optimize("", off) // disable optimizations because the conversion of Enum from unsigned int to double is not always exact if optimized and GraphAPI=DirectX ! #endif static void ANT_CALL PopupCallback(void *_ClientData) { if( g_TwMgr!=NULL && g_TwMgr->m_PopupBar!=NULL ) { unsigned int Enum = *(unsigned int *)&_ClientData; CTwVarAtom *Var = g_TwMgr->m_PopupBar->m_VarEnumLinkedToPopupList; CTwBar *Bar = g_TwMgr->m_PopupBar->m_BarLinkedToPopupList; if( Bar!=NULL && Var!=NULL && !Var->m_ReadOnly && (Var->m_Type>=TW_TYPE_ENUM_BASE && Var->m_Type<=TW_TYPE_ENUM_BASE+(int)g_TwMgr->m_Enums.size()) ) { Var->ValueFromDouble(Enum); Bar->UnHighlightLine(); Bar->NotUpToDate(); } TwDeleteBar(g_TwMgr->m_PopupBar); g_TwMgr->m_PopupBar = NULL; } } #ifdef ANT_WINDOWS # pragma optimize("", on) #endif // --------------------------------------------------------------------------- bool CTwBar::MouseButton(ETwMouseButtonID _Button, bool _Pressed, int _X, int _Y) { assert(g_TwMgr->m_Graph && g_TwMgr->m_WndHeight>0 && g_TwMgr->m_WndWidth>0); bool Handled = false; if( !m_UpToDate ) Update(); if( !m_IsMinimized ) { Handled = (_X>=m_PosX && _X=m_PosY && _Y=0 && m_HighlightedLine<(int)m_HierTags.size() && m_HierTags[m_HighlightedLine].m_Var ) { if( m_HierTags[m_HighlightedLine].m_Var->IsGroup() ) { if( _Pressed && !g_TwMgr->m_IsRepeatingMousePressed ) { CTwVarGroup *Grp = static_cast(m_HierTags[m_HighlightedLine].m_Var); Grp->m_Open = !Grp->m_Open; NotUpToDate(); ANT_SET_CURSOR(Arrow); } } else if( _Pressed && m_HighlightIncrBtn ) { static_cast(m_HierTags[m_HighlightedLine].m_Var)->Increment(1); NotUpToDate(); } else if( _Pressed && m_HighlightDecrBtn ) { static_cast(m_HierTags[m_HighlightedLine].m_Var)->Increment(-1); NotUpToDate(); } else if( _Pressed && !m_MouseDrag ) { m_MouseDrag = true; m_MouseDragVar = true; m_MouseOriginX = _X; m_MouseOriginY = _Y; m_VarHasBeenIncr = false; CTwVarAtom * Var = static_cast(m_HierTags[m_HighlightedLine].m_Var); if( !Var->m_NoSlider && !Var->m_ReadOnly ) { // begin rotoslider RotoOnLButtonDown(_X, _Y); m_MouseDrag = true; m_MouseDragVar = true; } else if( (Var->m_Type==TW_TYPE_BOOL8 || Var->m_Type==TW_TYPE_BOOL16 || Var->m_Type==TW_TYPE_BOOL32 || Var->m_Type==TW_TYPE_BOOLCPP) && !Var->m_ReadOnly ) { Var->Increment(1); //m_HighlightClickBtn = true; m_VarHasBeenIncr = true; m_MouseDragVar = false; m_MouseDrag = false; NotUpToDate(); } else if( Var->m_Type==TW_TYPE_BUTTON && !Var->m_ReadOnly ) { m_HighlightClickBtn = true; m_MouseDragVar = false; m_MouseDrag = false; } //else if( (Var->m_Type==TW_TYPE_ENUM8 || Var->m_Type==TW_TYPE_ENUM16 || Var->m_Type==TW_TYPE_ENUM32) && !Var->m_ReadOnly ) else if( (Var->m_Type>=TW_TYPE_ENUM_BASE && Var->m_Type<=TW_TYPE_ENUM_BASE+(int)g_TwMgr->m_Enums.size()) && !Var->m_ReadOnly && !g_TwMgr->m_IsRepeatingMousePressed ) { m_MouseDragVar = false; m_MouseDrag = false; if( g_TwMgr->m_PopupBar!=NULL ) { TwDeleteBar(g_TwMgr->m_PopupBar); g_TwMgr->m_PopupBar = NULL; } // popup list CTwMgr::CEnum& e = g_TwMgr->m_Enums[Var->m_Type-TW_TYPE_ENUM_BASE]; g_TwMgr->m_PopupBar = TwNewBar("~ Enum Popup ~"); g_TwMgr->m_PopupBar->m_IsPopupList = true; g_TwMgr->m_PopupBar->m_Color = m_Color; g_TwMgr->m_PopupBar->m_PosX = m_PosX + m_VarX1 - 2; g_TwMgr->m_PopupBar->m_PosY = m_PosY + m_VarY0 + (m_HighlightedLine+1)*(m_Font->m_CharHeight+m_Sep); g_TwMgr->m_PopupBar->m_Width = m_Width - 2*m_Font->m_CharHeight; int popHeight0 = (int)e.m_Entries.size()*(m_Font->m_CharHeight+m_Sep) + m_Font->m_CharHeight/2+2; int popHeight = popHeight0; if( g_TwMgr->m_PopupBar->m_PosY+popHeight+2 > g_TwMgr->m_WndHeight ) popHeight = g_TwMgr->m_WndHeight-g_TwMgr->m_PopupBar->m_PosY-2; if( popHeightm_WndHeight/2 ) popHeight = min(popHeight0, g_TwMgr->m_WndHeight/2); if( popHeight<3*(m_Font->m_CharHeight+m_Sep) ) popHeight = 3*(m_Font->m_CharHeight+m_Sep); g_TwMgr->m_PopupBar->m_Height = popHeight; g_TwMgr->m_PopupBar->m_VarEnumLinkedToPopupList = Var; g_TwMgr->m_PopupBar->m_BarLinkedToPopupList = this; for( CTwMgr::CEnum::CEntries::iterator It=e.m_Entries.begin(); It!=e.m_Entries.end(); ++It ) { char ID[64]; sprintf(ID, "%u", It->first); //ultoa(It->first, ID, 10); TwAddButton(g_TwMgr->m_PopupBar, ID, PopupCallback, *(void**)&(It->first), NULL); CTwVar *Btn = g_TwMgr->m_PopupBar->Find(ID); if( Btn!=NULL ) Btn->m_Label = It->second.c_str(); } g_TwMgr->m_HelpBarNotUpToDate = false; } else if( Var->m_ReadOnly ) ANT_SET_CURSOR(No); else ANT_SET_CURSOR(Arrow); } else if ( !_Pressed && m_MouseDragVar ) { m_MouseDrag = false; m_MouseDragVar = false; if( !Handled ) m_DrawHandles = false; Handled = true; // end rotoslider RotoOnLButtonUp(_X, _Y); /* Incr/decr on right or left click if( !m_VarHasBeenIncr && !static_cast(m_HierTags[m_HighlightedLine].m_Var)->m_ReadOnly ) { if( _Button==TW_MOUSE_LEFT ) static_cast(m_HierTags[m_HighlightedLine].m_Var)->Increment(-1); else if( _Button==TW_MOUSE_RIGHT ) static_cast(m_HierTags[m_HighlightedLine].m_Var)->Increment(1); NotUpToDate(); } */ if( static_cast(m_HierTags[m_HighlightedLine].m_Var)->m_ReadOnly ) ANT_SET_CURSOR(No); else ANT_SET_CURSOR(Arrow); } else if( !_Pressed && m_HighlightClickBtn ) // a button variable is activated { m_HighlightClickBtn = false; m_MouseDragVar = false; m_MouseDrag = false; Handled = true; NotUpToDate(); CTwVarAtom * Var = static_cast(m_HierTags[m_HighlightedLine].m_Var); if( !Var->m_ReadOnly && Var->m_Type==TW_TYPE_BUTTON && Var->m_ButtonCallback!=NULL ) Var->m_ButtonCallback(Var->m_ClientData); } else if( !_Pressed ) { m_MouseDragVar = false; m_MouseDrag = false; } } else if( _Pressed && !m_MouseDrag && !m_IsPopupList && _Button==TW_MOUSE_LEFT && _X>=m_PosX+2*m_Font->m_CharHeight && _Xm_CharHeight && _Y>=m_PosY && _Ym_CharHeight ) { m_MouseDrag = true; m_MouseDragTitle = true; m_MouseOriginX = _X; m_MouseOriginY = _Y; m_HighlightTitle = true; ANT_SET_CURSOR(Move); } else if( !_Pressed && m_MouseDragTitle ) { m_MouseDrag = false; m_MouseDragTitle = false; ANT_SET_CURSOR(Arrow); } else if ( _Pressed && !m_MouseDrag && !m_IsPopupList && _Button==TW_MOUSE_LEFT && _X>=m_PosX+m_VarX1-3 && _Xm_PosY+m_Font->m_CharHeight && _Y=m_PosX+m_VarX2+2 && _X=m_ScrollY0 && _Y=m_PosX+m_VarX2+2 && _X=m_PosY+m_VarY0 && _Y0 ) { --m_FirstLine; NotUpToDate(); } } else if( _Pressed && _Button==TW_MOUSE_LEFT && _X>=m_PosX+m_VarX2+2 && _X=m_ScrollY1 && _Y=m_PosX && _Xm_CharHeight && _Y>=m_PosY && _Ym_CharHeight ) { m_MouseDrag = true; m_MouseDragResizeUL = true; m_MouseOriginX = _X; m_MouseOriginY = _Y; ANT_SET_CURSOR(TopLeft); } else if( !_Pressed && m_MouseDragResizeUL ) { m_MouseDrag = false; m_MouseDragResizeUL = false; ANT_SET_CURSOR(Arrow); } else if( _Pressed && !m_MouseDrag && !m_IsPopupList && _Button==TW_MOUSE_LEFT && _X>=m_PosX+m_Width-m_Font->m_CharHeight && _X=m_PosY && _Ym_CharHeight ) { m_MouseDrag = true; m_MouseDragResizeUR = true; m_MouseOriginX = _X; m_MouseOriginY = _Y; ANT_SET_CURSOR(TopRight); } else if( !_Pressed && m_MouseDragResizeUR ) { m_MouseDrag = false; m_MouseDragResizeUR = false; ANT_SET_CURSOR(Arrow); } else if( _Pressed && !m_MouseDrag && !m_IsPopupList && _Button==TW_MOUSE_LEFT && _X>=m_PosX && _Xm_CharHeight && _Y>=m_PosY+m_Height-m_Font->m_CharHeight && _Y=m_PosX+m_Width-m_Font->m_CharHeight && _X=m_PosY+m_Height-m_Font->m_CharHeight && _Y=m_PosX+m_Font->m_CharHeight && _Xm_CharHeight && _Y>m_PosY && _Ym_CharHeight ) { // change font if( _Button==TW_MOUSE_LEFT ) { if( m_Font==g_DefaultSmallFont ) g_TwMgr->SetFont(g_DefaultNormalFont, true); else if( m_Font==g_DefaultNormalFont ) g_TwMgr->SetFont(g_DefaultLargeFont, true); else if( m_Font==g_DefaultLargeFont ) g_TwMgr->SetFont(g_DefaultSmallFont, true); else g_TwMgr->SetFont(g_DefaultNormalFont, true); } else if( _Button==TW_MOUSE_RIGHT ) { if( m_Font==g_DefaultSmallFont ) g_TwMgr->SetFont(g_DefaultLargeFont, true); else if( m_Font==g_DefaultNormalFont ) g_TwMgr->SetFont(g_DefaultSmallFont, true); else if( m_Font==g_DefaultLargeFont ) g_TwMgr->SetFont(g_DefaultNormalFont, true); else g_TwMgr->SetFont(g_DefaultNormalFont, true); } ANT_SET_CURSOR(Arrow); } else if( _Pressed && !m_IsPopupList && _Button==TW_MOUSE_LEFT && _X>=m_PosX+m_Width-2*m_Font->m_CharHeight && _Xm_CharHeight && _Y>m_PosY && _Ym_CharHeight ) { // minimize g_TwMgr->Minimize(this); ANT_SET_CURSOR(Arrow); } else if( m_IsHelpBar && _Pressed && !g_TwMgr->m_IsRepeatingMousePressed && _X>=m_PosX+m_VarX0 && _Xm_CharHeight && _Y>m_PosY+m_Height-m_Font->m_CharHeight && _YMaximize(this); ANT_SET_CURSOR(Arrow); Handled = true; } } return Handled; } // --------------------------------------------------------------------------- bool CTwBar::MouseWheel(int _Pos, int _PrevPos, int _MouseX, int _MouseY) { assert(g_TwMgr->m_Graph && g_TwMgr->m_WndHeight>0 && g_TwMgr->m_WndWidth>0); if( !m_UpToDate ) Update(); bool Handled = false; if( !m_IsMinimized && _MouseX>=m_PosX && _MouseX=m_PosY && _MouseY_PrevPos && m_FirstLine>0 ) { --m_FirstLine; NotUpToDate(); } else if( _Pos<_PrevPos && m_FirstLine' ' && _Key<256 ) // don't test SHIFT if _Key is a common key Mask &= ~TW_KMOD_SHIFT; // don't test KMOD_NUM and KMOD_CAPS modifiers coming from SDL Mask &= ~(0x1000); // 0x1000 is the KMOD_NUM value defined in SDL_keysym.h Mask &= ~(0x2000); // 0x2000 is the KMOD_CAPS value defined in SDL_keysym.h // complete partial modifiers comming from SDL if( _Modifiers & TW_KMOD_SHIFT ) _Modifiers |= TW_KMOD_SHIFT; if( _Modifiers & TW_KMOD_CTRL ) _Modifiers |= TW_KMOD_CTRL; if( _Modifiers & TW_KMOD_ALT ) _Modifiers |= TW_KMOD_ALT; if( _Modifiers & TW_KMOD_META ) _Modifiers |= TW_KMOD_META; for(size_t i=0; iIsGroup() ) { Atom = static_cast(m_Vars[i])->FindShortcut(_Key, _Modifiers, _DoIncr); if( Atom!=NULL ) return Atom; } else { Atom = static_cast(m_Vars[i]); if( Atom->m_KeyIncr[0]==_Key && (Atom->m_KeyIncr[1]&Mask)==(_Modifiers&Mask) ) { if( _DoIncr!=NULL ) *_DoIncr = true; return Atom; } else if( Atom->m_KeyDecr[0]==_Key && (Atom->m_KeyDecr[1]&Mask)==(_Modifiers&Mask) ) { if( _DoIncr!=NULL ) *_DoIncr = false; return Atom; } } } return NULL; } bool CTwBar::KeyPressed(int _Key, int _Modifiers) { assert(g_TwMgr->m_Graph && g_TwMgr->m_WndHeight>0 && g_TwMgr->m_WndWidth>0); bool Handled = false; if( !m_UpToDate ) Update(); if( _Key>0 && _Key0 && _Key<32 ) _Key += 'a'-1; // PAD translation (for SDL keysym) if( _Key>=256 && _Key<=272 ) // 256=SDLK_KP0 ... 272=SDLK_KP_EQUALS { bool Num = ((_Modifiers&TW_KMOD_SHIFT) && !(_Modifiers&0x1000)) || (!(_Modifiers&TW_KMOD_SHIFT) && (_Modifiers&0x1000)); // 0x1000 is SDL's KMOD_NUM _Modifiers &= ~TW_KMOD_SHIFT; // remove shift modifier if( _Key==266 ) // SDLK_KP_PERIOD _Key = Num ? '.' : TW_KEY_DELETE; else if( _Key==267 ) // SDLK_KP_DIVIDE _Key = '/'; else if( _Key==268 ) // SDLK_KP_MULTIPLY _Key = '*'; else if( _Key==269 ) // SDLK_KP_MINUS _Key = '-'; else if( _Key==270 ) // SDLK_KP_PLUS _Key = '+'; else if( _Key==271 ) // SDLK_KP_ENTER _Key = TW_KEY_RETURN; else if( _Key==272 ) // SDLK_KP_EQUALS _Key = '='; else if( Num ) // num SDLK_KP0..9 _Key += '0' - 256; else if( _Key==256 ) // non-num SDLK_KP01 _Key = TW_KEY_INSERT; else if( _Key==257 ) // non-num SDLK_KP1 _Key = TW_KEY_END; else if( _Key==258 ) // non-num SDLK_KP2 _Key = TW_KEY_DOWN; else if( _Key==259 ) // non-num SDLK_KP3 _Key = TW_KEY_PAGE_DOWN; else if( _Key==260 ) // non-num SDLK_KP4 _Key = TW_KEY_LEFT; else if( _Key==262 ) // non-num SDLK_KP6 _Key = TW_KEY_RIGHT; else if( _Key==263 ) // non-num SDLK_KP7 _Key = TW_KEY_HOME; else if( _Key==264 ) // non-num SDLK_KP8 _Key = TW_KEY_UP; else if( _Key==265 ) // non-num SDLK_KP9 _Key = TW_KEY_PAGE_UP; } */ /* string Str; TwGetKeyString(&Str, _Key, _Modifiers); printf("key: %d 0x%04xd %s\n", _Key, _Modifiers, Str.c_str()); */ bool DoIncr = true; CTwVarAtom *Atom = m_VarRoot.FindShortcut(_Key, _Modifiers, &DoIncr); if( Atom!=NULL && Atom->m_Visible ) { if( !Atom->m_ReadOnly ) Atom->Increment( DoIncr ? +1 : -1 ); NotUpToDate(); Show(Atom); Handled = true; } } return Handled; } // --------------------------------------------------------------------------- bool CTwBar::Show(CTwVar *_Var) { if( _Var==NULL || !_Var->m_Visible ) return false; if( !m_UpToDate ) Update(); if( OpenHier(&m_VarRoot, _Var) ) { if( !m_UpToDate ) Update(); int l = LineInHier(&m_VarRoot, _Var); if( l>=0 ) { int NbLines = (m_VarY1-m_VarY0+1)/(m_Font->m_CharHeight+m_Sep); if( NbLines<= 0 ) NbLines = 1; if( l=m_FirstLine+NbLines ) { m_FirstLine = l-NbLines/2; if( m_FirstLine<0 ) m_FirstLine = 0; NotUpToDate(); Update(); if( m_NbDisplayedLinesm_Vars.size(); ++i) if( _Root->m_Vars[i]!=NULL ) { if( _Var==_Root->m_Vars[i] || (_Root->m_Vars[i]->IsGroup() && OpenHier(static_cast(_Root->m_Vars[i]), _Var)) ) { _Root->m_Open = true; NotUpToDate(); return true; } } return false; } // --------------------------------------------------------------------------- int CTwBar::LineInHier(CTwVarGroup *_Root, CTwVar *_Var) { assert( _Root!=NULL ); int l = 0; for(size_t i=0; i<_Root->m_Vars.size(); ++i) if( _Root->m_Vars[i]!=NULL && _Root->m_Vars[i]->m_Visible ) { if( _Var==_Root->m_Vars[i] ) return l; else if( _Root->m_Vars[i]->IsGroup() && static_cast(_Root->m_Vars[i])->m_Open ) { ++l; int ll = LineInHier(static_cast(_Root->m_Vars[i]), _Var); if( ll>=0 ) return l+ll; else l += -ll-2; } ++l; } return -l-1; } // --------------------------------------------------------------------------- static void DrawArc(int _X, int _Y, int _Radius, float _StartAngleDeg, float _EndAngleDeg, color32 _Color) // angles in degree { ITwGraph *Gr = g_TwMgr->m_Graph; if( Gr==NULL || !Gr->IsDrawing() || _Radius==0 || _StartAngleDeg==_EndAngleDeg ) return; float startAngle = (float)M_PI*_StartAngleDeg/180; float endAngle = (float)M_PI*_EndAngleDeg/180; float stepAngle = 8/(float)_Radius; // segment length = 8 pixels if( stepAngle>(float)M_PI/4 ) stepAngle = (float)M_PI/4; bool fullCircle = fabsf(endAngle-startAngle)>=2.0f*(float)M_PI+fabsf(stepAngle); int numSteps; if( fullCircle ) { numSteps = int((2.0f*(float)M_PI)/stepAngle); startAngle = 0; endAngle = 2.0f*(float)M_PI; } else numSteps = int(fabsf(endAngle-startAngle)/stepAngle); if( startAngle>endAngle ) stepAngle = -stepAngle; int x0 = int(_X + _Radius * cosf(startAngle) + 0.5f); int y0 = int(_Y - _Radius * sinf(startAngle) + 0.5f); int x1, y1; float angle = startAngle+stepAngle; for( int i=0; iDrawLine(x0, y0, x1, y1, _Color, true); x0 = x1; y0 = y1; } if( fullCircle ) { x1 = int(_X + _Radius * cosf(startAngle) + 0.5f); y1 = int(_Y - _Radius * sinf(startAngle) + 0.5f); } else { x1 = int(_X + _Radius * cosf(endAngle) + 0.5f); y1 = int(_Y - _Radius * sinf(endAngle) + 0.5f); } Gr->DrawLine(x0, y0, x1, y1, _Color, true); } // --------------------------------------------------------------------------- CTwBar::CRotoSlider::CRotoSlider() { m_Var = NULL; m_Active = false; m_ActiveMiddle = false; m_Subdiv = 256; // will be recalculate in RotoOnLButtonDown } void CTwBar::RotoDraw() { ITwGraph *Gr = g_TwMgr->m_Graph; if( Gr==NULL || !Gr->IsDrawing() ) return; if( m_Roto.m_Active ) { DrawArc(m_Roto.m_Origin.x, m_Roto.m_Origin.y, 32, 0, 360, m_ColRoto); DrawArc(m_Roto.m_Origin.x+1, m_Roto.m_Origin.y, 32, 0, 360, m_ColRoto); DrawArc(m_Roto.m_Origin.x, m_Roto.m_Origin.y+1, 32, 0, 360, m_ColRoto); if( m_Roto.m_HasPrevious ) { double varMax = RotoGetMax(); double varMin = RotoGetMin(); double varStep = RotoGetStep(); if( varMax-DOUBLE_MAX && fabs(varStep)>DOUBLE_EPS && m_Roto.m_Subdiv>0 ) { double dtMax = 360.0*(varMax-m_Roto.m_ValueAngle0)/((double)m_Roto.m_Subdiv*varStep);//+2; double dtMin = 360.0*(varMin-m_Roto.m_ValueAngle0)/((double)m_Roto.m_Subdiv*varStep);//-2; if( dtMax>=0 && dtMax<360 && dtMin<=0 && dtMin>-360 && fabs(dtMax-dtMin)<=360 ) { int x1, y1, x2, y2; double da = 2.0*M_PI/m_Roto.m_Subdiv; x1 = m_Roto.m_Origin.x + (int)(40*cos(-M_PI*(m_Roto.m_Angle0+dtMax)/180-da)); y1 = m_Roto.m_Origin.y + (int)(40*sin(-M_PI*(m_Roto.m_Angle0+dtMax)/180-da)+0.5); x2 = m_Roto.m_Origin.x + (int)(40*cos(-M_PI*(m_Roto.m_Angle0+dtMax-10)/180-da)); y2 = m_Roto.m_Origin.y + (int)(40*sin(-M_PI*(m_Roto.m_Angle0+dtMax-10)/180-da)+0.5); Gr->DrawLine(m_Roto.m_Origin.x, m_Roto.m_Origin.y, x1, y1, m_ColRotoBound, true); Gr->DrawLine(m_Roto.m_Origin.x+1, m_Roto.m_Origin.y, x1+1, y1, m_ColRotoBound, true); Gr->DrawLine(m_Roto.m_Origin.x, m_Roto.m_Origin.y+1, x1, y1+1, m_ColRotoBound, true); Gr->DrawLine(x1, y1, x2, y2, m_ColRotoBound, true); Gr->DrawLine(x1+1, y1, x2+1, y2, m_ColRotoBound, true); Gr->DrawLine(x1, y1+1, x2, y2+1, m_ColRotoBound, true); x1 = m_Roto.m_Origin.x + (int)(40*cos(-M_PI*(m_Roto.m_Angle0+dtMin)/180+da)); y1 = m_Roto.m_Origin.y + (int)(40*sin(-M_PI*(m_Roto.m_Angle0+dtMin)/180+da)+0.5); x2 = m_Roto.m_Origin.x + (int)(40*cos(-M_PI*(m_Roto.m_Angle0+dtMin+10)/180+da)); y2 = m_Roto.m_Origin.y + (int)(40*sin(-M_PI*(m_Roto.m_Angle0+dtMin+10)/180+da)+0.5); Gr->DrawLine(m_Roto.m_Origin.x, m_Roto.m_Origin.y, x1, y1, m_ColRotoBound, true); Gr->DrawLine(m_Roto.m_Origin.x+1, m_Roto.m_Origin.y, x1+1, y1, m_ColRotoBound, true); Gr->DrawLine(m_Roto.m_Origin.x, m_Roto.m_Origin.y+1, x1, y1+1, m_ColRotoBound, true); Gr->DrawLine(x1, y1, x2, y2, m_ColRotoBound, true); Gr->DrawLine(x1+1, y1, x2+1, y2, m_ColRotoBound, true); Gr->DrawLine(x1, y1+1, x2, y2+1, m_ColRotoBound, true); } } } Gr->DrawLine(m_Roto.m_Origin.x+1, m_Roto.m_Origin.y, m_Roto.m_Current.x+1, m_Roto.m_Current.y, m_ColRotoVal, true); Gr->DrawLine(m_Roto.m_Origin.x, m_Roto.m_Origin.y+1, m_Roto.m_Current.x, m_Roto.m_Current.y+1, m_ColRotoVal, true); Gr->DrawLine(m_Roto.m_Origin.x, m_Roto.m_Origin.y, m_Roto.m_Current.x, m_Roto.m_Current.y, m_ColRotoVal, true); if( fabs(m_Roto.m_AngleDT)>=1 ) { DrawArc(m_Roto.m_Origin.x, m_Roto.m_Origin.y, 32, float(m_Roto.m_Angle0), float(m_Roto.m_Angle0+m_Roto.m_AngleDT-1), m_ColRotoVal); DrawArc(m_Roto.m_Origin.x+1, m_Roto.m_Origin.y, 32, float(m_Roto.m_Angle0), float(m_Roto.m_Angle0+m_Roto.m_AngleDT-1), m_ColRotoVal); DrawArc(m_Roto.m_Origin.x, m_Roto.m_Origin.y+1, 32, float(m_Roto.m_Angle0), float(m_Roto.m_Angle0+m_Roto.m_AngleDT-1), m_ColRotoVal); } } } double CTwBar::RotoGetValue() const { assert(m_Roto.m_Var!=NULL); return m_Roto.m_Var->ValueToDouble(); } void CTwBar::RotoSetValue(double _Val) { assert(m_Roto.m_Var!=NULL); if( _Val!=m_Roto.m_CurrentValue ) { m_Roto.m_CurrentValue = _Val; m_Roto.m_Var->ValueFromDouble(_Val); NotUpToDate(); } } double CTwBar::RotoGetMin() const { assert(m_Roto.m_Var!=NULL); double min = -DOUBLE_MAX; m_Roto.m_Var->MinMaxStepToDouble(&min, NULL, NULL); return min; } double CTwBar::RotoGetMax() const { assert(m_Roto.m_Var!=NULL); double max = DOUBLE_MAX; m_Roto.m_Var->MinMaxStepToDouble(NULL, &max, NULL); return max; } double CTwBar::RotoGetStep() const { assert(m_Roto.m_Var!=NULL); double step = 1; m_Roto.m_Var->MinMaxStepToDouble(NULL, NULL, &step); return step; } double CTwBar::RotoGetSteppedValue() const { double d = m_Roto.m_PreciseValue-m_Roto.m_Value0; double n = int(d/RotoGetStep()); return m_Roto.m_Value0 + RotoGetStep()*n; } void CTwBar::RotoOnMouseMove(int _X, int _Y) { CPoint p(_X, _Y); if( m_Roto.m_Active ) { m_Roto.m_Current = p; RotoSetValue(RotoGetSteppedValue()); //DrawManip(); int ti = -1; double t = 0; float r = sqrtf(float( (m_Roto.m_Current.x-m_Roto.m_Origin.x)*(m_Roto.m_Current.x-m_Roto.m_Origin.x) + (m_Roto.m_Current.y-m_Roto.m_Origin.y)*(m_Roto.m_Current.y-m_Roto.m_Origin.y))); if( r>m_RotoMinRadius ) { t = - atan2(double(m_Roto.m_Current.y-m_Roto.m_Origin.y), double(m_Roto.m_Current.x-m_Roto.m_Origin.x)); ti = (int((t/(2.0*M_PI)+1.0)*NB_ROTO_CURSORS+0.5)) % NB_ROTO_CURSORS; if( m_Roto.m_HasPrevious ) { CPoint v0 = m_Roto.m_Previous-m_Roto.m_Origin; CPoint v1 = m_Roto.m_Current-m_Roto.m_Origin; double l0 = sqrt(double(v0.x*v0.x+v0.y*v0.y)); double l1 = sqrt(double(v1.x*v1.x+v1.y*v1.y)); double dt = acos(max(-1+1.0e-30,min(1-1.0e-30,double(v0.x*v1.x+v0.y*v1.y)/(l0*l1)))); if( v0.x*v1.y-v0.y*v1.x>0 ) dt = - dt; double preciseInc = double(m_Roto.m_Subdiv) * dt/(2.0*M_PI) * RotoGetStep(); if( preciseInc>RotoGetStep() || preciseInc<-RotoGetStep() ) { m_Roto.m_PreciseValue += preciseInc; if( m_Roto.m_PreciseValue>RotoGetMax() ) { m_Roto.m_PreciseValue = RotoGetMax(); m_Roto.m_Value0 = RotoGetMax(); double da = 360*(RotoGetMax()-m_Roto.m_ValueAngle0)/(double(m_Roto.m_Subdiv)*RotoGetStep()); m_Roto.m_Angle0 = ((int((t/(2.0*M_PI)+1.0)*360.0+0.5)) % 360) - da; m_Roto.m_AngleDT = da; } else if( m_Roto.m_PreciseValue=0 && ti=0 && m_HighlightedLine<(int)m_HierTags.size() && m_HierTags[m_HighlightedLine].m_Var && !m_HierTags[m_HighlightedLine].m_Var->IsGroup() ) { m_Roto.m_Var = static_cast(m_HierTags[m_HighlightedLine].m_Var); int y = m_PosY + m_VarY0 + m_HighlightedLine*(m_Font->m_CharHeight+m_Sep) + m_Font->m_CharHeight/2; m_Roto.m_Origin = CPoint(p.x, y); //r.CenterPoint().y); m_Roto.m_Current = p; m_Roto.m_Active = true; m_Roto.m_HasPrevious = false; m_Roto.m_Angle0 = 0; m_Roto.m_AngleDT = 0; //SetCapture(); m_Roto.m_Value0 = RotoGetValue(); m_Roto.m_CurrentValue = m_Roto.m_Value0; m_Roto.m_ValueAngle0 = m_Roto.m_Value0; m_Roto.m_PreciseValue = m_Roto.m_Value0; //RotoSetValue(RotoGetSteppedValue()); Not here //DrawManip(); m_Roto.m_Subdiv = m_RotoNbSubdiv; // re-adjust m_Subdiv if needed: double min=-DOUBLE_MAX, max=DOUBLE_MAX, step=1; m_Roto.m_Var->MinMaxStepToDouble(&min, &max, &step); if( fabs(step)>0 && min>-DOUBLE_MAX && maxRedrawWindow(); } } void CTwBar::RotoOnMButtonDown(int _X, int _Y) { if( !m_Roto.m_Active ) { m_Roto.m_ActiveMiddle = true; RotoOnLButtonDown(_X, _Y); } } void CTwBar::RotoOnMButtonUp(int _X, int _Y) { if( m_Roto.m_ActiveMiddle ) { m_Roto.m_ActiveMiddle = false; RotoOnLButtonUp(_X, _Y); } }