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// MIT License
// Copyright (c) 2020 Evan Pezent
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
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// ImPlot v0.8 WIP
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/*
API BREAKING CHANGES
= = = = = = = = = = = = = = = = = = = =
Occasionally introducing changes that are breaking the API . We try to make the breakage minor and easy to fix .
Below is a change - log of API breaking changes only . If you are using one of the functions listed , expect to have to fix some code .
When you are not sure about a old symbol or function name , try using the Search / Find function of your IDE to look for comments or references in all implot files .
You can read releases logs https : //github.com/epezent/implot/releases for more details.
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- 2020 / 09 / 10 ( 0.8 ) - The single array versions of PlotLine , PlotScatter , PlotStems , and PlotShaded were given additional arguments for x - scale and x0 .
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- 2020 / 09 / 07 ( 0.8 ) - Plotting functions which accept a custom getter function pointer have been post - fixed with a G ( e . g . PlotLineG )
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- 2020 / 09 / 06 ( 0.7 ) - Several flags under ImPlotFlags and ImPlotAxisFlags were inverted ( e . g . ImPlotFlags_Legend - > ImPlotFlags_NoLegend ) so that the default flagset
is simply 0. This more closely matches ImGui ' s style and makes it easier to enable non - default but commonly used flags ( e . g . ImPlotAxisFlags_Time ) .
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- 2020 / 08 / 28 ( 0.5 ) - ImPlotMarker_ can no longer be combined with bitwise OR , | . This features caused unecessary slow - down , and almost no one used it .
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- 2020 / 08 / 25 ( 0.5 ) - ImPlotAxisFlags_Scientific was removed . Logarithmic axes automatically uses scientific notation .
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- 2020 / 08 / 17 ( 0.5 ) - PlotText was changed so that text is centered horizontally and vertically about the desired point .
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- 2020 / 08 / 16 ( 0.5 ) - An ImPlotContext must be explicitly created and destroyed now with ` CreateContext ` and ` DestroyContext ` . Previously , the context was statically initialized in this source file .
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- 2020 / 06 / 13 ( 0.4 ) - The flags ` ImPlotAxisFlag_Adaptive ` and ` ImPlotFlags_Cull ` were removed . Both are now done internally by default .
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- 2020 / 06 / 03 ( 0.3 ) - The signature and behavior of PlotPieChart was changed so that data with sum less than 1 can optionally be normalized . The label format can now be specified as well .
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- 2020 / 06 / 01 ( 0.3 ) - SetPalette was changed to ` SetColormap ` for consistency with other plotting libraries . ` RestorePalette ` was removed . Use ` SetColormap ( ImPlotColormap_Default ) ` .
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- 2020 / 05 / 31 ( 0.3 ) - Plot functions taking custom ImVec2 * getters were removed . Use the ImPlotPoint * getter versions instead .
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- 2020 / 05 / 29 ( 0.3 ) - The signature of ImPlotLimits : : Contains was changed to take two doubles instead of ImVec2
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- 2020 / 05 / 16 ( 0.2 ) - All plotting functions were reverted to being prefixed with " Plot " to maintain a consistent VerbNoun style . ` Plot ` was split into ` PlotLine `
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and ` PlotScatter ` ( however , ` PlotLine ` can still be used to plot scatter points as ` Plot ` did before . ) . ` Bar ` is not ` PlotBars ` , to indicate
that multiple bars will be plotted .
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- 2020 / 05 / 13 ( 0.2 ) - ` ImMarker ` was change to ` ImPlotMarker ` and ` ImAxisFlags ` was changed to ` ImPlotAxisFlags ` .
- 2020 / 05 / 11 ( 0.2 ) - ` ImPlotFlags_Selection ` was changed to ` ImPlotFlags_BoxSelect `
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- 2020 / 05 / 11 ( 0.2 ) - The namespace ImGui : : was replaced with ImPlot : : . As a result , the following additional changes were made :
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- Functions that were prefixed or decorated with the word " Plot " have been truncated . E . g . , ` ImGui : : PlotBars ` is now just ` ImPlot : : Bar ` .
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It should be fairly obvious what was what .
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- Some functions have been given names that would have otherwise collided with the ImGui namespace . This has been done to maintain a consistent
style with ImGui . E . g . , ' ImGui : : PushPlotStyleVar ` is now ' ImPlot : : PushStyleVar ' .
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- 2020 / 05 / 10 ( 0.2 ) - The following function / struct names were changes :
- ImPlotRange - > ImPlotLimits
- GetPlotRange ( ) - > GetPlotLimits ( )
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- SetNextPlotRange - > SetNextPlotLimits
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- SetNextPlotRangeX - > SetNextPlotLimitsX
- SetNextPlotRangeY - > SetNextPlotLimitsY
- 2020 / 05 / 10 ( 0.2 ) - Plot queries are pixel based by default . Query rects that maintain relative plot position have been removed . This was done to support multi - y - axis .
*/
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# include "implot.h"
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# include "implot_internal.h"
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# ifdef _MSC_VER
# define sprintf sprintf_s
# endif
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// Global plot context
ImPlotContext * GImPlot = NULL ;
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//-----------------------------------------------------------------------------
// Struct Implementations
//-----------------------------------------------------------------------------
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ImPlotInputMap : : ImPlotInputMap ( ) {
PanButton = ImGuiMouseButton_Left ;
PanMod = ImGuiKeyModFlags_None ;
FitButton = ImGuiMouseButton_Left ;
ContextMenuButton = ImGuiMouseButton_Right ;
BoxSelectButton = ImGuiMouseButton_Right ;
BoxSelectMod = ImGuiKeyModFlags_None ;
BoxSelectCancelButton = ImGuiMouseButton_Left ;
QueryButton = ImGuiMouseButton_Middle ;
QueryMod = ImGuiKeyModFlags_None ;
QueryToggleMod = ImGuiKeyModFlags_Ctrl ;
HorizontalMod = ImGuiKeyModFlags_Alt ;
VerticalMod = ImGuiKeyModFlags_Shift ;
}
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ImPlotStyle : : ImPlotStyle ( ) {
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LineWeight = 1 ;
Marker = ImPlotMarker_None ;
MarkerSize = 4 ;
MarkerWeight = 1 ;
FillAlpha = 1 ;
ErrorBarSize = 5 ;
ErrorBarWeight = 1.5f ;
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DigitalBitHeight = 8 ;
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DigitalBitGap = 4 ;
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PlotBorderSize = 1 ;
MinorAlpha = 0.25f ;
MajorTickLen = ImVec2 ( 10 , 10 ) ;
MinorTickLen = ImVec2 ( 5 , 5 ) ;
MajorTickSize = ImVec2 ( 1 , 1 ) ;
MinorTickSize = ImVec2 ( 1 , 1 ) ;
MajorGridSize = ImVec2 ( 1 , 1 ) ;
MinorGridSize = ImVec2 ( 1 , 1 ) ;
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PlotPadding = ImVec2 ( 8 , 8 ) ;
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LabelPadding = ImVec2 ( 5 , 5 ) ;
LegendPadding = ImVec2 ( 10 , 10 ) ;
InfoPadding = ImVec2 ( 10 , 10 ) ;
PlotMinSize = ImVec2 ( 300 , 225 ) ;
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ImPlot : : StyleColorsAuto ( this ) ;
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AntiAliasedLines = false ;
UseLocalTime = false ;
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Use24HourClock = false ;
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}
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namespace ImPlot {
const char * GetStyleColorName ( ImPlotCol col ) {
static const char * col_names [ ] = {
" Line " ,
" Fill " ,
" MarkerOutline " ,
" MarkerFill " ,
" ErrorBar " ,
" FrameBg " ,
" PlotBg " ,
" PlotBorder " ,
" LegendBg " ,
" LegendBorder " ,
" LegendText " ,
" TitleText " ,
" InlayText " ,
" XAxis " ,
" XAxisGrid " ,
" YAxis " ,
" YAxisGrid " ,
" YAxis2 " ,
" YAxisGrid2 " ,
" YAxis3 " ,
" YAxisGrid3 " ,
" Selection " ,
" Query " ,
" Crosshairs "
} ;
return col_names [ col ] ;
}
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const char * GetMarkerName ( ImPlotMarker marker ) {
switch ( marker ) {
case ImPlotMarker_None : return " None " ;
case ImPlotMarker_Circle : return " Circle " ;
case ImPlotMarker_Square : return " Square " ;
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case ImPlotMarker_Diamond : return " Diamond " ;
case ImPlotMarker_Up : return " Up " ;
case ImPlotMarker_Down : return " Down " ;
case ImPlotMarker_Left : return " Left " ;
case ImPlotMarker_Right : return " Right " ;
case ImPlotMarker_Cross : return " Cross " ;
case ImPlotMarker_Plus : return " Plus " ;
case ImPlotMarker_Asterisk : return " Asterisk " ;
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default : return " " ;
}
}
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ImVec4 GetAutoColor ( ImPlotCol idx ) {
ImVec4 col ( 0 , 0 , 0 , 1 ) ;
switch ( idx ) {
case ImPlotCol_Line : return col ; // these are plot dependent!
case ImPlotCol_Fill : return col ; // these are plot dependent!
case ImPlotCol_MarkerOutline : return col ; // these are plot dependent!
case ImPlotCol_MarkerFill : return col ; // these are plot dependent!
case ImPlotCol_ErrorBar : return ImGui : : GetStyleColorVec4 ( ImGuiCol_Text ) ;
case ImPlotCol_FrameBg : return ImGui : : GetStyleColorVec4 ( ImGuiCol_FrameBg ) ;
case ImPlotCol_PlotBg : return ImGui : : GetStyleColorVec4 ( ImGuiCol_WindowBg ) ;
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case ImPlotCol_PlotBorder : return ImGui : : GetStyleColorVec4 ( ImGuiCol_Border ) ;
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case ImPlotCol_LegendBg : return ImGui : : GetStyleColorVec4 ( ImGuiCol_PopupBg ) ;
case ImPlotCol_LegendBorder : return GetStyleColorVec4 ( ImPlotCol_PlotBorder ) ;
case ImPlotCol_LegendText : return GetStyleColorVec4 ( ImPlotCol_InlayText ) ;
case ImPlotCol_TitleText : return ImGui : : GetStyleColorVec4 ( ImGuiCol_Text ) ;
case ImPlotCol_InlayText : return ImGui : : GetStyleColorVec4 ( ImGuiCol_Text ) ;
case ImPlotCol_XAxis : return ImGui : : GetStyleColorVec4 ( ImGuiCol_Text ) ;
case ImPlotCol_XAxisGrid : return GetStyleColorVec4 ( ImPlotCol_XAxis ) * ImVec4 ( 1 , 1 , 1 , 0.25f ) ;
case ImPlotCol_YAxis : return ImGui : : GetStyleColorVec4 ( ImGuiCol_Text ) ;
case ImPlotCol_YAxisGrid : return GetStyleColorVec4 ( ImPlotCol_YAxis ) * ImVec4 ( 1 , 1 , 1 , 0.25f ) ;
case ImPlotCol_YAxis2 : return ImGui : : GetStyleColorVec4 ( ImGuiCol_Text ) ;
case ImPlotCol_YAxisGrid2 : return GetStyleColorVec4 ( ImPlotCol_YAxis2 ) * ImVec4 ( 1 , 1 , 1 , 0.25f ) ;
case ImPlotCol_YAxis3 : return ImGui : : GetStyleColorVec4 ( ImGuiCol_Text ) ;
case ImPlotCol_YAxisGrid3 : return GetStyleColorVec4 ( ImPlotCol_YAxis3 ) * ImVec4 ( 1 , 1 , 1 , 0.25f ) ;
case ImPlotCol_Selection : return ImVec4 ( 1 , 1 , 0 , 1 ) ;
case ImPlotCol_Query : return ImVec4 ( 0 , 1 , 0 , 1 ) ;
case ImPlotCol_Crosshairs : return GetStyleColorVec4 ( ImPlotCol_PlotBorder ) ;
default : return col ;
}
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}
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struct ImPlotStyleVarInfo {
ImGuiDataType Type ;
ImU32 Count ;
ImU32 Offset ;
void * GetVarPtr ( ImPlotStyle * style ) const { return ( void * ) ( ( unsigned char * ) style + Offset ) ; }
} ;
static const ImPlotStyleVarInfo GPlotStyleVarInfo [ ] =
{
{ ImGuiDataType_Float , 1 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , LineWeight ) } , // ImPlotStyleVar_LineWeight
{ ImGuiDataType_S32 , 1 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , Marker ) } , // ImPlotStyleVar_Marker
{ ImGuiDataType_Float , 1 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , MarkerSize ) } , // ImPlotStyleVar_MarkerSize
{ ImGuiDataType_Float , 1 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , MarkerWeight ) } , // ImPlotStyleVar_MarkerWeight
{ ImGuiDataType_Float , 1 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , FillAlpha ) } , // ImPlotStyleVar_FillAlpha
{ ImGuiDataType_Float , 1 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , ErrorBarSize ) } , // ImPlotStyleVar_ErrorBarSize
{ ImGuiDataType_Float , 1 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , ErrorBarWeight ) } , // ImPlotStyleVar_ErrorBarWeight
{ ImGuiDataType_Float , 1 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , DigitalBitHeight ) } , // ImPlotStyleVar_DigitalBitHeight
{ ImGuiDataType_Float , 1 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , DigitalBitGap ) } , // ImPlotStyleVar_DigitalBitGap
{ ImGuiDataType_Float , 1 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , PlotBorderSize ) } , // ImPlotStyleVar_PlotBorderSize
{ ImGuiDataType_Float , 1 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , MinorAlpha ) } , // ImPlotStyleVar_MinorAlpha
{ ImGuiDataType_Float , 2 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , MajorTickLen ) } , // ImPlotStyleVar_MajorTickLen
{ ImGuiDataType_Float , 2 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , MinorTickLen ) } , // ImPlotStyleVar_MinorTickLen
{ ImGuiDataType_Float , 2 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , MajorTickSize ) } , // ImPlotStyleVar_MajorTickSize
{ ImGuiDataType_Float , 2 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , MinorTickSize ) } , // ImPlotStyleVar_MinorTickSize
{ ImGuiDataType_Float , 2 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , MajorGridSize ) } , // ImPlotStyleVar_MajorGridSize
{ ImGuiDataType_Float , 2 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , MinorGridSize ) } , // ImPlotStyleVar_MinorGridSize
{ ImGuiDataType_Float , 2 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , PlotPadding ) } , // ImPlotStyleVar_PlotPadding
{ ImGuiDataType_Float , 2 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , LabelPadding ) } , // ImPlotStyleVar_LabelPaddine
{ ImGuiDataType_Float , 2 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , LegendPadding ) } , // ImPlotStyleVar_LegendPadding
{ ImGuiDataType_Float , 2 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , InfoPadding ) } , // ImPlotStyleVar_InfoPadding
{ ImGuiDataType_Float , 2 , ( ImU32 ) IM_OFFSETOF ( ImPlotStyle , PlotMinSize ) } // ImPlotStyleVar_PlotMinSize
} ;
static const ImPlotStyleVarInfo * GetPlotStyleVarInfo ( ImPlotStyleVar idx ) {
IM_ASSERT ( idx > = 0 & & idx < ImPlotStyleVar_COUNT ) ;
IM_ASSERT ( IM_ARRAYSIZE ( GPlotStyleVarInfo ) = = ImPlotStyleVar_COUNT ) ;
return & GPlotStyleVarInfo [ idx ] ;
}
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//-----------------------------------------------------------------------------
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// Generic Helpers
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//-----------------------------------------------------------------------------
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void AddTextVertical ( ImDrawList * DrawList , ImVec2 pos , ImU32 col , const char * text_begin , const char * text_end ) {
if ( ! text_end )
text_end = text_begin + strlen ( text_begin ) ;
ImGuiContext & g = * GImGui ;
ImFont * font = g . Font ;
pos . x = IM_FLOOR ( pos . x + font - > DisplayOffset . y ) ;
pos . y = IM_FLOOR ( pos . y + font - > DisplayOffset . x ) ;
const char * s = text_begin ;
const int vtx_count = ( int ) ( text_end - s ) * 4 ;
const int idx_count = ( int ) ( text_end - s ) * 6 ;
DrawList - > PrimReserve ( idx_count , vtx_count ) ;
const float scale = g . FontSize / font - > FontSize ;
while ( s < text_end ) {
unsigned int c = ( unsigned int ) * s ;
if ( c < 0x80 ) {
s + = 1 ;
}
else {
s + = ImTextCharFromUtf8 ( & c , s , text_end ) ;
if ( c = = 0 ) // Malformed UTF-8?
break ;
}
const ImFontGlyph * glyph = font - > FindGlyph ( ( ImWchar ) c ) ;
if ( glyph = = NULL )
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continue ;
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DrawList - > PrimQuadUV ( pos + ImVec2 ( glyph - > Y0 , - glyph - > X0 ) * scale , pos + ImVec2 ( glyph - > Y0 , - glyph - > X1 ) * scale ,
pos + ImVec2 ( glyph - > Y1 , - glyph - > X1 ) * scale , pos + ImVec2 ( glyph - > Y1 , - glyph - > X0 ) * scale ,
ImVec2 ( glyph - > U0 , glyph - > V0 ) , ImVec2 ( glyph - > U1 , glyph - > V0 ) ,
ImVec2 ( glyph - > U1 , glyph - > V1 ) , ImVec2 ( glyph - > U0 , glyph - > V1 ) ,
col ) ;
pos . y - = glyph - > AdvanceX * scale ;
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}
}
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double NiceNum ( double x , bool round ) {
double f ; /* fractional part of x */
double nf ; /* nice, rounded fraction */
int expv = ( int ) floor ( ImLog10 ( x ) ) ;
f = x / ImPow ( 10.0 , ( double ) expv ) ; /* between 1 and 10 */
if ( round )
if ( f < 1.5 )
nf = 1 ;
else if ( f < 3 )
nf = 2 ;
else if ( f < 7 )
nf = 5 ;
else
nf = 10 ;
else if ( f < = 1 )
nf = 1 ;
else if ( f < = 2 )
nf = 2 ;
else if ( f < = 5 )
nf = 5 ;
else
nf = 10 ;
return nf * ImPow ( 10.0 , expv ) ;
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}
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//-----------------------------------------------------------------------------
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// Context Utils
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//-----------------------------------------------------------------------------
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void SetImGuiContext ( ImGuiContext * ctx ) {
ImGui : : SetCurrentContext ( ctx ) ;
}
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ImPlotContext * CreateContext ( ) {
ImPlotContext * ctx = IM_NEW ( ImPlotContext ) ( ) ;
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Initialize ( ctx ) ;
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if ( GImPlot = = NULL )
SetCurrentContext ( ctx ) ;
return ctx ;
}
void DestroyContext ( ImPlotContext * ctx ) {
if ( ctx = = NULL )
ctx = GImPlot ;
if ( GImPlot = = ctx )
SetCurrentContext ( NULL ) ;
IM_DELETE ( ctx ) ;
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}
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ImPlotContext * GetCurrentContext ( ) {
return GImPlot ;
}
void SetCurrentContext ( ImPlotContext * ctx ) {
GImPlot = ctx ;
}
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void Initialize ( ImPlotContext * ctx ) {
Reset ( ctx ) ;
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ctx - > Colormap = GetColormap ( ImPlotColormap_Default , & ctx - > ColormapSize ) ;
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}
void Reset ( ImPlotContext * ctx ) {
// end child window if it was made
if ( ctx - > ChildWindowMade )
ImGui : : EndChild ( ) ;
ctx - > ChildWindowMade = false ;
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// reset the next plot/item data
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ctx - > NextPlotData = ImPlotNextPlotData ( ) ;
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ctx - > NextItemData = ImPlotNextItemData ( ) ;
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// reset items count
ctx - > VisibleItemCount = 0 ;
// reset legend items
ctx - > LegendIndices . shrink ( 0 ) ;
ctx - > LegendLabels . Buf . shrink ( 0 ) ;
// reset ticks/labels
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ctx - > XTicks . Reset ( ) ;
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for ( int i = 0 ; i < 3 ; + + i ) {
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ctx - > YTicks [ i ] . Reset ( ) ;
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}
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// reset extents/fit
ctx - > FitThisFrame = false ;
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ctx - > FitX = false ;
ctx - > ExtentsX . Min = HUGE_VAL ;
ctx - > ExtentsX . Max = - HUGE_VAL ;
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + ) {
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ctx - > ExtentsY [ i ] . Min = HUGE_VAL ;
ctx - > ExtentsY [ i ] . Max = - HUGE_VAL ;
ctx - > FitY [ i ] = false ;
}
// reset digital plot items count
ctx - > DigitalPlotItemCnt = 0 ;
ctx - > DigitalPlotOffset = 0 ;
// nullify plot
ctx - > CurrentPlot = NULL ;
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ctx - > CurrentItem = NULL ;
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}
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//-----------------------------------------------------------------------------
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// Plot Utils
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//-----------------------------------------------------------------------------
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ImPlotState * GetPlot ( const char * title ) {
ImGuiWindow * Window = GImGui - > CurrentWindow ;
const ImGuiID ID = Window - > GetID ( title ) ;
return GImPlot - > Plots . GetByKey ( ID ) ;
}
ImPlotState * GetCurrentPlot ( ) {
return GImPlot - > CurrentPlot ;
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}
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void BustPlotCache ( ) {
GImPlot - > Plots . Clear ( ) ;
}
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void FitPoint ( const ImPlotPoint & p ) {
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ImPlotContext & gp = * GImPlot ;
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const int y_axis = gp . CurrentPlot - > CurrentYAxis ;
ImPlotRange & ex_x = gp . ExtentsX ;
ImPlotRange & ex_y = gp . ExtentsY [ y_axis ] ;
const bool log_x = ImHasFlag ( gp . CurrentPlot - > XAxis . Flags , ImPlotAxisFlags_LogScale ) ;
const bool log_y = ImHasFlag ( gp . CurrentPlot - > YAxis [ y_axis ] . Flags , ImPlotAxisFlags_LogScale ) ;
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if ( ! ImNanOrInf ( p . x ) & & ! ( log_x & & p . x < = 0 ) ) {
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ex_x . Min = p . x < ex_x . Min ? p . x : ex_x . Min ;
ex_x . Max = p . x > ex_x . Max ? p . x : ex_x . Max ;
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}
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if ( ! ImNanOrInf ( p . y ) & & ! ( log_y & & p . y < = 0 ) ) {
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ex_y . Min = p . y < ex_y . Min ? p . y : ex_y . Min ;
ex_y . Max = p . y > ex_y . Max ? p . y : ex_y . Max ;
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}
}
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void PushLinkedAxis ( ImPlotAxis & axis ) {
if ( axis . LinkedMin ) { * axis . LinkedMin = axis . Range . Min ; }
if ( axis . LinkedMax ) { * axis . LinkedMax = axis . Range . Max ; }
}
void PullLinkedAxis ( ImPlotAxis & axis ) {
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if ( axis . LinkedMin ) { axis . SetMin ( * axis . LinkedMin ) ; }
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if ( axis . LinkedMax ) { axis . SetMax ( * axis . LinkedMax ) ; }
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}
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//-----------------------------------------------------------------------------
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// Coordinate Utils
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//-----------------------------------------------------------------------------
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void UpdateTransformCache ( ) {
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ImPlotContext & gp = * GImPlot ;
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// get pixels for transforms
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + ) {
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gp . PixelRange [ i ] = ImRect ( ImHasFlag ( gp . CurrentPlot - > XAxis . Flags , ImPlotAxisFlags_Invert ) ? gp . BB_Plot . Max . x : gp . BB_Plot . Min . x ,
ImHasFlag ( gp . CurrentPlot - > YAxis [ i ] . Flags , ImPlotAxisFlags_Invert ) ? gp . BB_Plot . Min . y : gp . BB_Plot . Max . y ,
ImHasFlag ( gp . CurrentPlot - > XAxis . Flags , ImPlotAxisFlags_Invert ) ? gp . BB_Plot . Min . x : gp . BB_Plot . Max . x ,
ImHasFlag ( gp . CurrentPlot - > YAxis [ i ] . Flags , ImPlotAxisFlags_Invert ) ? gp . BB_Plot . Max . y : gp . BB_Plot . Min . y ) ;
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gp . My [ i ] = ( gp . PixelRange [ i ] . Max . y - gp . PixelRange [ i ] . Min . y ) / gp . CurrentPlot - > YAxis [ i ] . Range . Size ( ) ;
}
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gp . LogDenX = ImLog10 ( gp . CurrentPlot - > XAxis . Range . Max / gp . CurrentPlot - > XAxis . Range . Min ) ;
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + )
gp . LogDenY [ i ] = ImLog10 ( gp . CurrentPlot - > YAxis [ i ] . Range . Max / gp . CurrentPlot - > YAxis [ i ] . Range . Min ) ;
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gp . Mx = ( gp . PixelRange [ 0 ] . Max . x - gp . PixelRange [ 0 ] . Min . x ) / gp . CurrentPlot - > XAxis . Range . Size ( ) ;
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}
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ImPlotPoint PixelsToPlot ( float x , float y , int y_axis_in ) {
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot ! = NULL , " PixelsToPlot() needs to be called between BeginPlot() and EndPlot()! " ) ;
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const int y_axis = y_axis_in > = 0 ? y_axis_in : gp . CurrentPlot - > CurrentYAxis ;
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ImPlotPoint plt ;
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plt . x = ( x - gp . PixelRange [ y_axis ] . Min . x ) / gp . Mx + gp . CurrentPlot - > XAxis . Range . Min ;
plt . y = ( y - gp . PixelRange [ y_axis ] . Min . y ) / gp . My [ y_axis ] + gp . CurrentPlot - > YAxis [ y_axis ] . Range . Min ;
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if ( ImHasFlag ( gp . CurrentPlot - > XAxis . Flags , ImPlotAxisFlags_LogScale ) ) {
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double t = ( plt . x - gp . CurrentPlot - > XAxis . Range . Min ) / gp . CurrentPlot - > XAxis . Range . Size ( ) ;
plt . x = ImPow ( 10 , t * gp . LogDenX ) * gp . CurrentPlot - > XAxis . Range . Min ;
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}
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if ( ImHasFlag ( gp . CurrentPlot - > YAxis [ y_axis ] . Flags , ImPlotAxisFlags_LogScale ) ) {
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double t = ( plt . y - gp . CurrentPlot - > YAxis [ y_axis ] . Range . Min ) / gp . CurrentPlot - > YAxis [ y_axis ] . Range . Size ( ) ;
plt . y = ImPow ( 10 , t * gp . LogDenY [ y_axis ] ) * gp . CurrentPlot - > YAxis [ y_axis ] . Range . Min ;
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}
return plt ;
}
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ImPlotPoint PixelsToPlot ( const ImVec2 & pix , int y_axis ) {
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return PixelsToPlot ( pix . x , pix . y , y_axis ) ;
}
// This function is convenient but should not be used to process a high volume of points. Use the Transformer structs below instead.
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ImVec2 PlotToPixels ( double x , double y , int y_axis_in ) {
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot ! = NULL , " PlotToPixels() needs to be called between BeginPlot() and EndPlot()! " ) ;
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const int y_axis = y_axis_in > = 0 ? y_axis_in : gp . CurrentPlot - > CurrentYAxis ;
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ImVec2 pix ;
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if ( ImHasFlag ( gp . CurrentPlot - > XAxis . Flags , ImPlotAxisFlags_LogScale ) ) {
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double t = ImLog10 ( x / gp . CurrentPlot - > XAxis . Range . Min ) / gp . LogDenX ;
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x = ImLerp ( gp . CurrentPlot - > XAxis . Range . Min , gp . CurrentPlot - > XAxis . Range . Max , ( float ) t ) ;
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}
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if ( ImHasFlag ( gp . CurrentPlot - > YAxis [ y_axis ] . Flags , ImPlotAxisFlags_LogScale ) ) {
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double t = ImLog10 ( y / gp . CurrentPlot - > YAxis [ y_axis ] . Range . Min ) / gp . LogDenY [ y_axis ] ;
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y = ImLerp ( gp . CurrentPlot - > YAxis [ y_axis ] . Range . Min , gp . CurrentPlot - > YAxis [ y_axis ] . Range . Max , ( float ) t ) ;
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}
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pix . x = ( float ) ( gp . PixelRange [ y_axis ] . Min . x + gp . Mx * ( x - gp . CurrentPlot - > XAxis . Range . Min ) ) ;
pix . y = ( float ) ( gp . PixelRange [ y_axis ] . Min . y + gp . My [ y_axis ] * ( y - gp . CurrentPlot - > YAxis [ y_axis ] . Range . Min ) ) ;
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return pix ;
}
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// This function is convenient but should not be used to process a high volume of points. Use the Transformer structs below instead.
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ImVec2 PlotToPixels ( const ImPlotPoint & plt , int y_axis ) {
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return PlotToPixels ( plt . x , plt . y , y_axis ) ;
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}
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//-----------------------------------------------------------------------------
// Legend Utils
//-----------------------------------------------------------------------------
int GetLegendCount ( ) {
ImPlotContext & gp = * GImPlot ;
return gp . LegendIndices . size ( ) ;
}
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const char * GetLegendLabel ( int i ) {
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ImPlotContext & gp = * GImPlot ;
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ImPlotItem * item = gp . CurrentPlot - > Items . GetByIndex ( gp . LegendIndices [ i ] ) ;
IM_ASSERT ( item - > NameOffset ! = - 1 & & item - > NameOffset < gp . LegendLabels . Buf . Size ) ;
return gp . LegendLabels . Buf . Data + item - > NameOffset ;
}
//-----------------------------------------------------------------------------
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// Tick Utils
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//-----------------------------------------------------------------------------
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void LabelTickDefault ( ImPlotTick & tick , ImGuiTextBuffer & buffer ) {
char temp [ 32 ] ;
if ( tick . ShowLabel ) {
tick . BufferOffset = buffer . size ( ) ;
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snprintf ( temp , 32 , " %.10g " , tick . PlotPos ) ;
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buffer . append ( temp , temp + strlen ( temp ) + 1 ) ;
tick . LabelSize = ImGui : : CalcTextSize ( buffer . Buf . Data + tick . BufferOffset ) ;
}
}
void LabelTickScientific ( ImPlotTick & tick , ImGuiTextBuffer & buffer ) {
char temp [ 32 ] ;
if ( tick . ShowLabel ) {
tick . BufferOffset = buffer . size ( ) ;
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snprintf ( temp , 32 , " %.0E " , tick . PlotPos ) ;
buffer . append ( temp , temp + strlen ( temp ) + 1 ) ;
tick . LabelSize = ImGui : : CalcTextSize ( buffer . Buf . Data + tick . BufferOffset ) ;
}
}
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void AddTicksDefault ( const ImPlotRange & range , int nMajor , int nMinor , ImPlotTickCollection & ticks ) {
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const double nice_range = NiceNum ( range . Size ( ) * 0.99 , false ) ;
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const double interval = NiceNum ( nice_range / ( nMajor - 1 ) , true ) ;
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const double graphmin = floor ( range . Min / interval ) * interval ;
const double graphmax = ceil ( range . Max / interval ) * interval ;
for ( double major = graphmin ; major < graphmax + 0.5 * interval ; major + = interval ) {
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if ( range . Contains ( major ) )
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ticks . AddTick ( major , true , true , LabelTickDefault ) ;
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for ( int i = 1 ; i < nMinor ; + + i ) {
double minor = major + i * interval / nMinor ;
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if ( range . Contains ( minor ) )
ticks . AddTick ( minor , false , true , LabelTickDefault ) ;
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}
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}
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}
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void AddTicksLogarithmic ( const ImPlotRange & range , int nMajor , ImPlotTickCollection & ticks ) {
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if ( range . Min < = 0 | | range . Max < = 0 )
return ;
double log_min = ImLog10 ( range . Min ) ;
double log_max = ImLog10 ( range . Max ) ;
int exp_step = ImMax ( 1 , ( int ) ( log_max - log_min ) / nMajor ) ;
int exp_min = ( int ) log_min ;
int exp_max = ( int ) log_max ;
if ( exp_step ! = 1 ) {
while ( exp_step % 3 ! = 0 ) exp_step + + ; // make step size multiple of three
while ( exp_min % exp_step ! = 0 ) exp_min - - ; // decrease exp_min until exp_min + N * exp_step will be 0
}
for ( int e = exp_min - exp_step ; e < ( exp_max + exp_step ) ; e + = exp_step ) {
double major1 = ImPow ( 10 , ( double ) ( e ) ) ;
double major2 = ImPow ( 10 , ( double ) ( e + 1 ) ) ;
double interval = ( major2 - major1 ) / 9 ;
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if ( major1 > = ( range . Min - DBL_EPSILON ) & & major1 < = ( range . Max + DBL_EPSILON ) )
ticks . AddTick ( major1 , true , true , LabelTickScientific ) ;
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for ( int j = 0 ; j < exp_step ; + + j ) {
major1 = ImPow ( 10 , ( double ) ( e + j ) ) ;
major2 = ImPow ( 10 , ( double ) ( e + j + 1 ) ) ;
interval = ( major2 - major1 ) / 9 ;
for ( int i = 1 ; i < ( 9 + ( int ) ( j < ( exp_step - 1 ) ) ) ; + + i ) {
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double minor = major1 + i * interval ;
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if ( minor > = ( range . Min - DBL_EPSILON ) & & minor < = ( range . Max + DBL_EPSILON ) )
ticks . AddTick ( minor , false , false , LabelTickScientific ) ;
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}
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}
}
}
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void AddTicksCustom ( const double * values , const char * const labels [ ] , int n , ImPlotTickCollection & ticks ) {
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for ( int i = 0 ; i < n ; + + i ) {
ImPlotTick tick ( values [ i ] , false , true ) ;
if ( labels ! = NULL ) {
tick . BufferOffset = ticks . Labels . size ( ) ;
ticks . Labels . append ( labels [ i ] , labels [ i ] + strlen ( labels [ i ] ) + 1 ) ;
tick . LabelSize = ImGui : : CalcTextSize ( labels [ i ] ) ;
}
else {
LabelTickDefault ( tick , ticks . Labels ) ;
}
ticks . AddTick ( tick ) ;
}
}
//-----------------------------------------------------------------------------
// Time Ticks and Utils
//-----------------------------------------------------------------------------
// this may not be thread safe?
static const double TimeUnitSpans [ ImPlotTimeUnit_COUNT ] = {
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0.000001 ,
0.001 ,
1 ,
60 ,
3600 ,
86400 ,
2629800 ,
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31557600
} ;
inline ImPlotTimeUnit GetUnitForRange ( double range ) {
static double cutoffs [ ImPlotTimeUnit_COUNT ] = { 0.001 , 1 , 60 , 3600 , 86400 , 2629800 , 31557600 , IMPLOT_MAX_TIME } ;
for ( int i = 0 ; i < ImPlotTimeUnit_COUNT ; + + i ) {
if ( range < = cutoffs [ i ] )
return ( ImPlotTimeUnit ) i ;
}
return ImPlotTimeUnit_Yr ;
}
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inline int LowerBoundStep ( int max_divs , const int * divs , const int * step , int size ) {
if ( max_divs < divs [ 0 ] )
return 0 ;
for ( int i = 1 ; i < size ; + + i ) {
if ( max_divs < divs [ i ] )
return step [ i - 1 ] ;
}
return step [ size - 1 ] ;
}
inline int GetTimeStep ( int max_divs , ImPlotTimeUnit unit ) {
if ( unit = = ImPlotTimeUnit_Ms | | unit = = ImPlotTimeUnit_Us ) {
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static const int step [ ] = { 500 , 250 , 200 , 100 , 50 , 25 , 20 , 10 , 5 , 2 , 1 } ;
static const int divs [ ] = { 2 , 4 , 5 , 10 , 20 , 40 , 50 , 100 , 200 , 500 , 1000 } ;
return LowerBoundStep ( max_divs , divs , step , 11 ) ;
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}
if ( unit = = ImPlotTimeUnit_S | | unit = = ImPlotTimeUnit_Min ) {
static const int step [ ] = { 30 , 15 , 10 , 5 , 1 } ;
static const int divs [ ] = { 2 , 4 , 6 , 12 , 60 } ;
return LowerBoundStep ( max_divs , divs , step , 5 ) ;
}
else if ( unit = = ImPlotTimeUnit_Hr ) {
static const int step [ ] = { 12 , 6 , 3 , 2 , 1 } ;
static const int divs [ ] = { 2 , 4 , 8 , 12 , 24 } ;
return LowerBoundStep ( max_divs , divs , step , 5 ) ;
}
else if ( unit = = ImPlotTimeUnit_Day ) {
static const int step [ ] = { 14 , 7 , 2 , 1 } ;
static const int divs [ ] = { 2 , 4 , 14 , 28 } ;
return LowerBoundStep ( max_divs , divs , step , 4 ) ;
}
else if ( unit = = ImPlotTimeUnit_Mo ) {
static const int step [ ] = { 6 , 3 , 2 , 1 } ;
static const int divs [ ] = { 2 , 4 , 6 , 12 } ;
return LowerBoundStep ( max_divs , divs , step , 4 ) ;
}
return 0 ;
}
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ImPlotTime MkGmtTime ( struct tm * ptm ) {
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ImPlotTime t ;
# ifdef _WIN32
t . S = _mkgmtime ( ptm ) ;
# else
t . S = timegm ( ptm ) ;
# endif
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if ( t . S < 0 )
t . S = 0 ;
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return t ;
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}
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tm * GetGmtTime ( const ImPlotTime & t , tm * ptm )
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{
# ifdef _WIN32
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if ( gmtime_s ( ptm , & t . S ) = = 0 )
return ptm ;
else
return NULL ;
# else
return gmtime_r ( & t . S , ptm ) ;
# endif
}
ImPlotTime MkLocTime ( struct tm * ptm ) {
ImPlotTime t ;
t . S = mktime ( ptm ) ;
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if ( t . S < 0 )
t . S = 0 ;
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return t ;
}
tm * GetLocTime ( const ImPlotTime & t , tm * ptm ) {
# ifdef _WIN32
if ( localtime_s ( ptm , & t . S ) = = 0 )
return ptm ;
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else
return NULL ;
# else
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return localtime_r ( & t . S , ptm ) ;
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# endif
}
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inline ImPlotTime MkTime ( struct tm * ptm ) {
if ( GetStyle ( ) . UseLocalTime )
return MkLocTime ( ptm ) ;
else
return MkGmtTime ( ptm ) ;
}
inline tm * GetTime ( const ImPlotTime & t , tm * ptm ) {
if ( GetStyle ( ) . UseLocalTime )
return GetLocTime ( t , ptm ) ;
else
return GetGmtTime ( t , ptm ) ;
}
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ImPlotTime MakeTime ( int year , int month , int day , int hour , int min , int sec , int us ) {
tm & Tm = GImPlot - > Tm ;
int yr = year - 1900 ;
if ( yr < 0 )
yr = 0 ;
sec = sec + us / 1000000 ;
us = us % 1000000 ;
Tm . tm_sec = sec ;
Tm . tm_min = min ;
Tm . tm_hour = hour ;
Tm . tm_mday = day ;
Tm . tm_mon = month ;
Tm . tm_year = yr ;
ImPlotTime t = MkTime ( & Tm ) ;
t . Us = us ;
return t ;
}
int GetYear ( const ImPlotTime & t ) {
tm & Tm = GImPlot - > Tm ;
GetTime ( t , & Tm ) ;
return Tm . tm_year + 1900 ;
}
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ImPlotTime AddTime ( const ImPlotTime & t , ImPlotTimeUnit unit , int count ) {
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tm & Tm = GImPlot - > Tm ;
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ImPlotTime t_out = t ;
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switch ( unit ) {
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case ImPlotTimeUnit_Us : t_out . Us + = count ; break ;
case ImPlotTimeUnit_Ms : t_out . Us + = count * 1000 ; break ;
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case ImPlotTimeUnit_S : t_out . S + = count ; break ;
case ImPlotTimeUnit_Min : t_out . S + = count * 60 ; break ;
case ImPlotTimeUnit_Hr : t_out . S + = count * 3600 ; break ;
case ImPlotTimeUnit_Day : t_out . S + = count * 86400 ; break ;
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case ImPlotTimeUnit_Mo : for ( int i = 0 ; i < abs ( count ) ; + + i ) {
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GetTime ( t_out , & Tm ) ;
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if ( count > 0 )
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t_out . S + = 86400 * GetDaysInMonth ( Tm . tm_year + 1900 , Tm . tm_mon ) ;
else if ( count < 0 )
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t_out . S - = 86400 * GetDaysInMonth ( Tm . tm_year + 1900 - ( Tm . tm_mon = = 0 ? 1 : 0 ) , Tm . tm_mon = = 0 ? 11 : Tm . tm_mon - 1 ) ; // NOT WORKING
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}
break ;
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case ImPlotTimeUnit_Yr : for ( int i = 0 ; i < abs ( count ) ; + + i ) {
if ( count > 0 )
t_out . S + = 86400 * ( 365 + ( int ) IsLeapYear ( GetYear ( t_out ) ) ) ;
else if ( count < 0 )
t_out . S - = 86400 * ( 365 + ( int ) IsLeapYear ( GetYear ( t_out ) - 1 ) ) ;
// this is incorrect if leap year and we are past Feb 28
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}
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break ;
default : break ;
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}
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t_out . RollOver ( ) ;
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return t_out ;
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}
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ImPlotTime FloorTime ( const ImPlotTime & t , ImPlotTimeUnit unit ) {
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GetTime ( t , & GImPlot - > Tm ) ;
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switch ( unit ) {
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case ImPlotTimeUnit_S : return ImPlotTime ( t . S , 0 ) ;
case ImPlotTimeUnit_Ms : return ImPlotTime ( t . S , ( t . Us / 1000 ) * 1000 ) ;
case ImPlotTimeUnit_Us : return t ;
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case ImPlotTimeUnit_Yr : GImPlot - > Tm . tm_mon = 0 ; // fall-through
case ImPlotTimeUnit_Mo : GImPlot - > Tm . tm_mday = 1 ; // fall-through
case ImPlotTimeUnit_Day : GImPlot - > Tm . tm_hour = 0 ; // fall-through
case ImPlotTimeUnit_Hr : GImPlot - > Tm . tm_min = 0 ; // fall-through
case ImPlotTimeUnit_Min : GImPlot - > Tm . tm_sec = 0 ; break ;
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default : return t ;
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}
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return MkTime ( & GImPlot - > Tm ) ;
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}
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ImPlotTime CeilTime ( const ImPlotTime & t , ImPlotTimeUnit unit ) {
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return AddTime ( FloorTime ( t , unit ) , unit , 1 ) ;
}
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ImPlotTime RoundTime ( const ImPlotTime & t , ImPlotTimeUnit unit ) {
ImPlotTime t1 = FloorTime ( t , unit ) ;
ImPlotTime t2 = AddTime ( t1 , unit , 1 ) ;
if ( t1 . S = = t2 . S )
return t . Us - t1 . Us < t2 . Us - t . Us ? t1 : t2 ;
return t . S - t1 . S < t2 . S - t . S ? t1 : t2 ;
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}
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ImPlotTime CombineDateTime ( const ImPlotTime & date_part , const ImPlotTime & tod_part ) {
tm & Tm = GImPlot - > Tm ;
GetTime ( date_part , & GImPlot - > Tm ) ;
int y = Tm . tm_year ;
int m = Tm . tm_mon ;
int d = Tm . tm_mday ;
GetTime ( tod_part , & GImPlot - > Tm ) ;
Tm . tm_year = y ;
Tm . tm_mon = m ;
Tm . tm_mday = d ;
ImPlotTime t = MkTime ( & Tm ) ;
t . Us = tod_part . Us ;
return t ;
}
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static const char * MONTH_NAMES [ ] = { " January " , " February " , " March " , " April " , " May " , " June " , " July " , " August " , " September " , " October " , " November " , " December " } ;
static const char * WD_ABRVS [ ] = { " Su " , " Mo " , " Tu " , " We " , " Th " , " Fr " , " Sa " } ;
static const char * MONTH_ABRVS [ ] = { " Jan " , " Feb " , " Mar " , " Apr " , " May " , " Jun " , " Jul " , " Aug " , " Sep " , " Oct " , " Nov " , " Dec " } ;
int FormatTime12 ( const ImPlotTime & t , char * buffer , int size , ImPlotTimeFmt fmt ) {
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tm & Tm = GImPlot - > Tm ;
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GetTime ( t , & Tm ) ;
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const char * ap = Tm . tm_hour < 12 ? " am " : " pm " ;
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const int us = t . Us % 1000 ;
const int ms = t . Us / 1000 ;
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const int sec = Tm . tm_sec ;
const int min = Tm . tm_min ;
const int hr = ( Tm . tm_hour = = 0 | | Tm . tm_hour = = 12 ) ? 12 : Tm . tm_hour % 12 ;
const int day = Tm . tm_mday ;
const int mon = Tm . tm_mon + 1 ;
const int year = Tm . tm_year + 1900 ;
const int yr = year % 100 ;
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switch ( fmt ) {
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case ImPlotTimeFmt_Us : return snprintf ( buffer , size , " .%03d %03d " , ms , us ) ;
case ImPlotTimeFmt_SUs : return snprintf ( buffer , size , " :%02d.%03d %03d " , sec , ms , us ) ;
case ImPlotTimeFmt_SMs : return snprintf ( buffer , size , " :%02d.%03d " , sec , ms ) ;
case ImPlotTimeFmt_S : return snprintf ( buffer , size , " :%02d " , sec ) ;
case ImPlotTimeFmt_HrMinS : return snprintf ( buffer , size , " %d:%02d:%02d%s " , hr , min , sec , ap ) ;
case ImPlotTimeFmt_HrMin : return snprintf ( buffer , size , " %d:%02d%s " , hr , min , ap ) ;
case ImPlotTimeFmt_Hr : return snprintf ( buffer , size , " %d%s " , hr , ap ) ;
case ImPlotTimeFmt_DayMo : return snprintf ( buffer , size , " %d/%d " , mon , day ) ;
case ImPlotTimeFmt_DayMoHr : return snprintf ( buffer , size , " %d/%d %d%s " , mon , day , hr , ap ) ;
case ImPlotTimeFmt_DayMoHrMin : return snprintf ( buffer , size , " %d/%d %d:%02d%s " , mon , day , hr , min , ap ) ;
case ImPlotTimeFmt_DayMoYr : return snprintf ( buffer , size , " %d/%d/%02d " , mon , day , yr ) ;
case ImPlotTimeFmt_DayMoYrHrMin : return snprintf ( buffer , size , " %d/%d/%02d %d:%02d%s " , mon , day , yr , hr , min , ap ) ;
case ImPlotTimeFmt_DayMoYrHrMinS : return snprintf ( buffer , size , " %d/%d/%02d %d:%02d:%02d%s " , mon , day , yr , hr , min , sec , ap ) ;
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case ImPlotTimeFmt_DayMoYrHrMinSUs : return snprintf ( buffer , size , " %d/%d/%d %d:%02d:%02d.%03d%03d%s " , mon , day , year , hr , min , sec , ms , us , ap ) ;
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case ImPlotTimeFmt_MoYr : return snprintf ( buffer , size , " %s %d " , MONTH_ABRVS [ Tm . tm_mon ] , year ) ;
case ImPlotTimeFmt_Mo : return snprintf ( buffer , size , " %s " , MONTH_ABRVS [ Tm . tm_mon ] ) ;
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case ImPlotTimeFmt_Yr : return snprintf ( buffer , size , " %d " , year ) ;
default : return 0 ;
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}
}
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int FormatTime24 ( const ImPlotTime & t , char * buffer , int size , ImPlotTimeFmt fmt ) {
tm & Tm = GImPlot - > Tm ;
GetTime ( t , & Tm ) ;
const int us = t . Us % 1000 ;
const int ms = t . Us / 1000 ;
const int sec = Tm . tm_sec ;
const int min = Tm . tm_min ;
const int hr = Tm . tm_hour ;
const int day = Tm . tm_mday ;
const int mon = Tm . tm_mon + 1 ;
const int year = Tm . tm_year + 1900 ;
const int yr = year % 100 ;
switch ( fmt ) {
case ImPlotTimeFmt_Us : return snprintf ( buffer , size , " .%03d %03d " , ms , us ) ;
case ImPlotTimeFmt_SUs : return snprintf ( buffer , size , " :%02d.%03d %03d " , sec , ms , us ) ;
case ImPlotTimeFmt_SMs : return snprintf ( buffer , size , " :%02d.%03d " , sec , ms ) ;
case ImPlotTimeFmt_S : return snprintf ( buffer , size , " :%02d " , sec ) ;
case ImPlotTimeFmt_HrMinS : return snprintf ( buffer , size , " %02d:%02d:%02d " , hr , min , sec ) ;
case ImPlotTimeFmt_HrMin : return snprintf ( buffer , size , " %02d:%02d " , hr , min ) ;
case ImPlotTimeFmt_Hr : return snprintf ( buffer , size , " %02d:00 " , hr ) ;
case ImPlotTimeFmt_DayMo : return snprintf ( buffer , size , " %d/%d " , mon , day ) ;
case ImPlotTimeFmt_DayMoHr : return snprintf ( buffer , size , " %d/%d %02d:00 " , mon , day , hr ) ;
case ImPlotTimeFmt_DayMoHrMin : return snprintf ( buffer , size , " %d/%d %02d:%02d " , mon , day , hr , min ) ;
case ImPlotTimeFmt_DayMoYr : return snprintf ( buffer , size , " %d/%d/%02d " , mon , day , yr ) ;
case ImPlotTimeFmt_DayMoYrHrMin : return snprintf ( buffer , size , " %d/%d/%02d %02d:%02d " , mon , day , yr , hr , min ) ;
case ImPlotTimeFmt_DayMoYrHrMinS : return snprintf ( buffer , size , " %d/%d/%02d %02d:%02d:%02d " , mon , day , yr , hr , min , sec ) ;
case ImPlotTimeFmt_DayMoYrHrMinSUs : return snprintf ( buffer , size , " %d/%d/%d %02d:%02d:%02d.%03d%03d " , mon , day , year , hr , min , sec , ms , us ) ;
case ImPlotTimeFmt_MoYr : return snprintf ( buffer , size , " %s %d " , MONTH_ABRVS [ Tm . tm_mon ] , year ) ;
case ImPlotTimeFmt_Mo : return snprintf ( buffer , size , " %s " , MONTH_ABRVS [ Tm . tm_mon ] ) ;
case ImPlotTimeFmt_Yr : return snprintf ( buffer , size , " %d " , year ) ;
default : return 0 ;
}
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}
// Returns the nominally largest possible width for a time format
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inline float GetTimeLabelWidth12 ( ImPlotTimeFmt fmt ) {
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switch ( fmt ) {
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case ImPlotTimeFmt_Us : return ImGui : : CalcTextSize ( " .888 888 " ) . x ; // .428 552
case ImPlotTimeFmt_SUs : return ImGui : : CalcTextSize ( " :88.888 888 " ) . x ; // :29.428 552
case ImPlotTimeFmt_SMs : return ImGui : : CalcTextSize ( " :88.888 " ) . x ; // :29.428
case ImPlotTimeFmt_S : return ImGui : : CalcTextSize ( " :88 " ) . x ; // :29
case ImPlotTimeFmt_HrMinS : return ImGui : : CalcTextSize ( " 88:88:88pm " ) . x ; // 7:21:29pm
case ImPlotTimeFmt_HrMin : return ImGui : : CalcTextSize ( " 88:88pm " ) . x ; // 7:21pm
case ImPlotTimeFmt_Hr : return ImGui : : CalcTextSize ( " 88pm " ) . x ; // 7pm
case ImPlotTimeFmt_DayMo : return ImGui : : CalcTextSize ( " 88/88 " ) . x ; // 10/3
case ImPlotTimeFmt_DayMoHr : return ImGui : : CalcTextSize ( " 88/88 88pm " ) . x ; // 10/3 7:21pm
case ImPlotTimeFmt_DayMoHrMin : return ImGui : : CalcTextSize ( " 88/88 88:88pm " ) . x ; // 10/3 7:21pm
case ImPlotTimeFmt_DayMoYr : return ImGui : : CalcTextSize ( " 88/88/88 " ) . x ; // 10/3/1991
case ImPlotTimeFmt_DayMoYrHrMin : return ImGui : : CalcTextSize ( " 88/88/88 88:88pm " ) . x ; // 10/3/91 7:21pm
case ImPlotTimeFmt_DayMoYrHrMinS : return ImGui : : CalcTextSize ( " 88/88/88 88:88:88pm " ) . x ; // 10/3/91 7:21:29pm
case ImPlotTimeFmt_DayMoYrHrMinSUs : return ImGui : : CalcTextSize ( " 88/88/8888 88:88:88.888888pm " ) . x ; // 10/3/1991 7:21:29.123456pm
case ImPlotTimeFmt_MoYr : return ImGui : : CalcTextSize ( " MMM 8888 " ) . x ; // Oct 1991
case ImPlotTimeFmt_Mo : return ImGui : : CalcTextSize ( " MMM " ) . x ; // Oct
case ImPlotTimeFmt_Yr : return ImGui : : CalcTextSize ( " 8888 " ) . x ; // 1991
default : return 0 ;
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}
}
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// Returns the nominally largest possible width for a time format
inline float GetTimeLabelWidth24 ( ImPlotTimeFmt fmt ) {
switch ( fmt ) {
case ImPlotTimeFmt_Us : return ImGui : : CalcTextSize ( " .888 888 " ) . x ; // .428 552
case ImPlotTimeFmt_SUs : return ImGui : : CalcTextSize ( " :88.888 888 " ) . x ; // :29.428 552
case ImPlotTimeFmt_SMs : return ImGui : : CalcTextSize ( " :88.888 " ) . x ; // :29.428
case ImPlotTimeFmt_S : return ImGui : : CalcTextSize ( " :88 " ) . x ; // :29
case ImPlotTimeFmt_HrMinS : return ImGui : : CalcTextSize ( " 88:88:88 " ) . x ; // 19:21:29
case ImPlotTimeFmt_HrMin : return ImGui : : CalcTextSize ( " 88:88 " ) . x ; // 19:21
case ImPlotTimeFmt_Hr : return ImGui : : CalcTextSize ( " 88:00 " ) . x ; // 19:00
case ImPlotTimeFmt_DayMo : return ImGui : : CalcTextSize ( " 88/88 " ) . x ; // 10/3
case ImPlotTimeFmt_DayMoHr : return ImGui : : CalcTextSize ( " 88/88 88:00 " ) . x ; // 10/3 19:00
case ImPlotTimeFmt_DayMoHrMin : return ImGui : : CalcTextSize ( " 88/88 88:88 " ) . x ; // 10/3 19:21
case ImPlotTimeFmt_DayMoYr : return ImGui : : CalcTextSize ( " 88/88/88 " ) . x ; // 10/3/1991
case ImPlotTimeFmt_DayMoYrHrMin : return ImGui : : CalcTextSize ( " 88/88/88 88:88 " ) . x ; // 10/3/91 19:21
case ImPlotTimeFmt_DayMoYrHrMinS : return ImGui : : CalcTextSize ( " 88/88/88 88:88:88 " ) . x ; // 10/3/91 19:21:29
case ImPlotTimeFmt_DayMoYrHrMinSUs : return ImGui : : CalcTextSize ( " 88/88/8888 88:88:88.888888 " ) . x ; // 10/3/1991 19:21:29.123456
case ImPlotTimeFmt_MoYr : return ImGui : : CalcTextSize ( " MMM 8888 " ) . x ; // Oct 1991
case ImPlotTimeFmt_Mo : return ImGui : : CalcTextSize ( " MMM " ) . x ; // Oct
case ImPlotTimeFmt_Yr : return ImGui : : CalcTextSize ( " 8888 " ) . x ; // 1991
default : return 0 ;
}
}
void PrintTime ( const ImPlotTime & t , ImPlotTimeFmt fmt ) {
static char buff [ 32 ] ;
FormatTime12 ( t , buff , 32 , fmt ) ;
printf ( " %s \n " , buff ) ;
}
inline void LabelTickTime ( ImPlotTick & tick , ImGuiTextBuffer & buffer , const ImPlotTime & t , ImPlotTimeFmt fmt , bool hour24 ) {
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char temp [ 32 ] ;
if ( tick . ShowLabel ) {
tick . BufferOffset = buffer . size ( ) ;
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hour24 ? FormatTime24 ( t , temp , 32 , fmt ) : FormatTime12 ( t , temp , 32 , fmt ) ;
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buffer . append ( temp , temp + strlen ( temp ) + 1 ) ;
tick . LabelSize = ImGui : : CalcTextSize ( buffer . Buf . Data + tick . BufferOffset ) ;
}
}
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inline bool TimeLabelSame ( const char * l1 , const char * l2 ) {
size_t len1 = strlen ( l1 ) ;
size_t len2 = strlen ( l2 ) ;
size_t n = len1 < len2 ? len1 : len2 ;
return strcmp ( l1 + len1 - n , l2 + len2 - n ) = = 0 ;
}
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static const ImPlotTimeFmt TimeFormatLevel0 [ ImPlotTimeUnit_COUNT ] = {
ImPlotTimeFmt_Us ,
ImPlotTimeFmt_SMs ,
ImPlotTimeFmt_S ,
ImPlotTimeFmt_HrMin ,
ImPlotTimeFmt_Hr ,
ImPlotTimeFmt_DayMo ,
ImPlotTimeFmt_Mo ,
ImPlotTimeFmt_Yr
} ;
static const ImPlotTimeFmt TimeFormatLevel1 [ ImPlotTimeUnit_COUNT ] = {
ImPlotTimeFmt_HrMin ,
ImPlotTimeFmt_HrMinS ,
ImPlotTimeFmt_HrMin ,
ImPlotTimeFmt_HrMin ,
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ImPlotTimeFmt_DayMoYr ,
ImPlotTimeFmt_DayMoYr ,
ImPlotTimeFmt_Yr ,
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ImPlotTimeFmt_Yr
} ;
static const ImPlotTimeFmt TimeFormatLevel1First [ ImPlotTimeUnit_COUNT ] = {
ImPlotTimeFmt_DayMoYrHrMinS ,
ImPlotTimeFmt_DayMoYrHrMinS ,
ImPlotTimeFmt_DayMoYrHrMin ,
ImPlotTimeFmt_DayMoYrHrMin ,
ImPlotTimeFmt_DayMoYr ,
ImPlotTimeFmt_DayMoYr ,
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ImPlotTimeFmt_Yr ,
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ImPlotTimeFmt_Yr
} ;
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static const ImPlotTimeFmt TimeFormatMouseCursor [ ImPlotTimeUnit_COUNT ] = {
ImPlotTimeFmt_Us ,
ImPlotTimeFmt_SUs ,
ImPlotTimeFmt_SMs ,
ImPlotTimeFmt_HrMinS ,
ImPlotTimeFmt_HrMin ,
ImPlotTimeFmt_DayMoHr ,
ImPlotTimeFmt_DayMoYr ,
ImPlotTimeFmt_MoYr
} ;
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void AddTicksTime ( const ImPlotRange & range , float plot_width , bool hour24 , ImPlotTickCollection & ticks ) {
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// get units for level 0 and level 1 labels
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const ImPlotTimeUnit unit0 = GetUnitForRange ( range . Size ( ) / ( plot_width / 100 ) ) ; // level = 0 (top)
const ImPlotTimeUnit unit1 = unit0 + 1 ; // level = 1 (bottom)
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// get time format specs
const ImPlotTimeFmt fmt0 = TimeFormatLevel0 [ unit0 ] ;
const ImPlotTimeFmt fmt1 = TimeFormatLevel1 [ unit1 ] ;
const ImPlotTimeFmt fmtf = TimeFormatLevel1First [ unit1 ] ;
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// min max times
const ImPlotTime t_min = ImPlotTime : : FromDouble ( range . Min ) ;
const ImPlotTime t_max = ImPlotTime : : FromDouble ( range . Max ) ;
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// maximum allowable density of labels
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const float max_density = 0.5f ;
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// book keeping
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const char * last_major = NULL ;
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if ( unit0 ! = ImPlotTimeUnit_Yr ) {
// pixels per major (level 1) division
const float pix_per_major_div = plot_width / ( float ) ( range . Size ( ) / TimeUnitSpans [ unit1 ] ) ;
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// nominal pixels taken up by labels
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const float fmt0_width = hour24 ? GetTimeLabelWidth24 ( fmt0 ) : GetTimeLabelWidth12 ( fmt0 ) ;
const float fmt1_width = hour24 ? GetTimeLabelWidth24 ( fmt1 ) : GetTimeLabelWidth12 ( fmt1 ) ;
const float fmtf_width = hour24 ? GetTimeLabelWidth24 ( fmtf ) : GetTimeLabelWidth12 ( fmtf ) ;
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// the maximum number of minor (level 0) labels that can fit between major (level 1) divisions
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const int minor_per_major = ( int ) ( max_density * pix_per_major_div / fmt0_width ) ;
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// the minor step size (level 0)
const int step = GetTimeStep ( minor_per_major , unit0 ) ;
// generate ticks
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ImPlotTime t1 = FloorTime ( ImPlotTime : : FromDouble ( range . Min ) , unit1 ) ;
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while ( t1 < t_max ) {
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// get next major
const ImPlotTime t2 = AddTime ( t1 , unit1 , 1 ) ;
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// add major tick
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if ( t1 > = t_min & & t1 < = t_max ) {
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// minor level 0 tick
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ImPlotTick tick_min ( t1 . ToDouble ( ) , true , true ) ;
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tick_min . Level = 0 ;
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LabelTickTime ( tick_min , ticks . Labels , t1 , fmt0 , hour24 ) ;
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ticks . AddTick ( tick_min ) ;
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// major level 1 tick
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ImPlotTick tick_maj ( t1 . ToDouble ( ) , true , true ) ;
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tick_maj . Level = 1 ;
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LabelTickTime ( tick_maj , ticks . Labels , t1 , last_major = = NULL ? fmtf : fmt1 , hour24 ) ;
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const char * this_major = ticks . Labels . Buf . Data + tick_maj . BufferOffset ;
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if ( last_major & & TimeLabelSame ( last_major , this_major ) )
tick_maj . ShowLabel = false ;
last_major = this_major ;
ticks . AddTick ( tick_maj ) ;
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}
// add minor ticks up until next major
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if ( minor_per_major > 1 & & ( t_min < = t2 & & t1 < = t_max ) ) {
ImPlotTime t12 = AddTime ( t1 , unit0 , step ) ;
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while ( t12 < t2 ) {
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float px_to_t2 = ( float ) ( ( t2 - t12 ) . ToDouble ( ) / range . Size ( ) ) * plot_width ;
if ( t12 > = t_min & & t12 < = t_max ) {
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ImPlotTick tick ( t12 . ToDouble ( ) , false , px_to_t2 > = fmt0_width ) ;
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tick . Level = 0 ;
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LabelTickTime ( tick , ticks . Labels , t12 , fmt0 , hour24 ) ;
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ticks . AddTick ( tick ) ;
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if ( last_major = = NULL & & px_to_t2 > = fmt0_width & & px_to_t2 > = ( fmt1_width + fmtf_width ) / 2 ) {
ImPlotTick tick_maj ( t12 . ToDouble ( ) , true , true ) ;
tick_maj . Level = 1 ;
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LabelTickTime ( tick_maj , ticks . Labels , t12 , fmtf , hour24 ) ;
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last_major = ticks . Labels . Buf . Data + tick_maj . BufferOffset ;
ticks . AddTick ( tick_maj ) ;
}
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}
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t12 = AddTime ( t12 , unit0 , step ) ;
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}
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}
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t1 = t2 ;
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}
}
else {
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const float label_width = hour24 ? GetTimeLabelWidth24 ( TimeFormatLevel0 [ ImPlotTimeUnit_Yr ] ) :
GetTimeLabelWidth12 ( TimeFormatLevel0 [ ImPlotTimeUnit_Yr ] ) ;
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const int max_labels = ( int ) ( max_density * plot_width / label_width ) ;
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const int year_min = GetYear ( t_min ) ;
const int year_max = GetYear ( CeilTime ( t_max , ImPlotTimeUnit_Yr ) ) ;
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const double nice_range = NiceNum ( ( year_max - year_min ) * 0.99 , false ) ;
const double interval = NiceNum ( nice_range / ( max_labels - 1 ) , true ) ;
const int graphmin = ( int ) ( floor ( year_min / interval ) * interval ) ;
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const int graphmax = ( int ) ( ceil ( year_max / interval ) * interval ) ;
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const int step = ( int ) interval < = 0 ? 1 : ( int ) interval ;
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for ( int y = graphmin ; y < graphmax ; y + = step ) {
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ImPlotTime t = MakeTime ( y ) ;
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if ( t > = t_min & & t < = t_max ) {
ImPlotTick tick ( t . ToDouble ( ) , true , true ) ;
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tick . Level = 0 ;
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LabelTickTime ( tick , ticks . Labels , t , TimeFormatLevel0 [ ImPlotTimeUnit_Yr ] , hour24 ) ;
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ticks . AddTick ( tick ) ;
}
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}
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}
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}
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//-----------------------------------------------------------------------------
// Axis Utils
//-----------------------------------------------------------------------------
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void UpdateAxisColors ( int axis_flag , ImPlotAxisColor * col ) {
const ImVec4 col_label = GetStyleColorVec4 ( axis_flag ) ;
const ImVec4 col_grid = GetStyleColorVec4 ( axis_flag + 1 ) ;
col - > Major = ImGui : : GetColorU32 ( col_grid ) ;
col - > Minor = ImGui : : GetColorU32 ( col_grid * ImVec4 ( 1 , 1 , 1 , GImPlot - > Style . MinorAlpha ) ) ;
col - > MajTxt = ImGui : : GetColorU32 ( col_label ) ;
col - > MinTxt = ImGui : : GetColorU32 ( col_label ) ;
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}
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//-----------------------------------------------------------------------------
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// BeginPlot()
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//-----------------------------------------------------------------------------
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bool BeginPlot ( const char * title , const char * x_label , const char * y_label , const ImVec2 & size ,
ImPlotFlags flags , ImPlotAxisFlags x_flags , ImPlotAxisFlags y_flags , ImPlotAxisFlags y2_flags , ImPlotAxisFlags y3_flags )
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{
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IM_ASSERT_USER_ERROR ( GImPlot ! = NULL , " No current context. Did you call ImPlot::CreateContext() or ImPlot::SetCurrentContext()? " ) ;
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot = = NULL , " Mismatched BeginPlot()/EndPlot()! " ) ;
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IM_ASSERT_USER_ERROR ( ! ( ImHasFlag ( x_flags , ImPlotAxisFlags_Time ) & & ImHasFlag ( x_flags , ImPlotAxisFlags_LogScale ) ) , " ImPlotAxisFlags_Time and ImPlotAxisFlags_LogScale cannot be enabled at the same time! " ) ;
IM_ASSERT_USER_ERROR ( ! ImHasFlag ( y_flags , ImPlotAxisFlags_Time ) , " Y axes cannot display time formatted labels! " ) ;
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// FRONT MATTER -----------------------------------------------------------
ImGuiContext & G = * GImGui ;
ImGuiWindow * Window = G . CurrentWindow ;
if ( Window - > SkipItems ) {
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Reset ( GImPlot ) ;
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return false ;
}
const ImGuiID ID = Window - > GetID ( title ) ;
const ImGuiStyle & Style = G . Style ;
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const ImGuiIO & IO = ImGui : : GetIO ( ) ;
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bool just_created = gp . Plots . GetByKey ( ID ) = = NULL ;
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gp . CurrentPlot = gp . Plots . GetOrAddByKey ( ID ) ;
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ImPlotState & plot = * gp . CurrentPlot ;
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plot . CurrentYAxis = 0 ;
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if ( just_created ) {
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plot . Flags = flags ;
plot . XAxis . Flags = x_flags ;
plot . YAxis [ 0 ] . Flags = y_flags ;
plot . YAxis [ 1 ] . Flags = y2_flags ;
plot . YAxis [ 2 ] . Flags = y3_flags ;
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}
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else {
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// TODO: Check which individual flags changed, and only reset those!
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// There's probably an easy bit mask trick I'm not aware of.
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if ( flags ! = plot . PreviousFlags )
plot . Flags = flags ;
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if ( x_flags ! = plot . XAxis . PreviousFlags )
plot . XAxis . Flags = x_flags ;
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if ( y_flags ! = plot . YAxis [ 0 ] . PreviousFlags )
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plot . YAxis [ 0 ] . Flags = y_flags ;
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if ( y2_flags ! = plot . YAxis [ 1 ] . PreviousFlags )
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plot . YAxis [ 1 ] . Flags = y2_flags ;
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if ( y3_flags ! = plot . YAxis [ 2 ] . PreviousFlags )
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plot . YAxis [ 2 ] . Flags = y3_flags ;
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}
plot . PreviousFlags = flags ;
plot . XAxis . PreviousFlags = x_flags ;
plot . YAxis [ 0 ] . PreviousFlags = y_flags ;
plot . YAxis [ 1 ] . PreviousFlags = y2_flags ;
plot . YAxis [ 2 ] . PreviousFlags = y3_flags ;
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// capture scroll with a child region
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if ( ! ImHasFlag ( plot . Flags , ImPlotFlags_NoChild ) ) {
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ImGui : : BeginChild ( title , ImVec2 ( size . x = = 0 ? IMPLOT_DEFAULT_W : size . x , size . y = = 0 ? IMPLOT_DEFAULT_H : size . y ) ) ;
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Window = ImGui : : GetCurrentWindow ( ) ;
Window - > ScrollMax . y = 1.0f ;
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gp . ChildWindowMade = true ;
}
else {
gp . ChildWindowMade = false ;
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}
ImDrawList & DrawList = * Window - > DrawList ;
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// NextPlotData -----------------------------------------------------------
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// linked axes
plot . XAxis . LinkedMin = gp . NextPlotData . LinkedXmin ;
plot . XAxis . LinkedMax = gp . NextPlotData . LinkedXmax ;
PullLinkedAxis ( plot . XAxis ) ;
for ( int i = 0 ; i < IMPLOT_Y_AXES ; + + i ) {
plot . YAxis [ i ] . LinkedMin = gp . NextPlotData . LinkedYmin [ i ] ;
plot . YAxis [ i ] . LinkedMax = gp . NextPlotData . LinkedYmax [ i ] ;
PullLinkedAxis ( plot . YAxis [ i ] ) ;
}
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if ( gp . NextPlotData . HasXRange ) {
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if ( just_created | | gp . NextPlotData . XRangeCond = = ImGuiCond_Always )
plot . XAxis . SetRange ( gp . NextPlotData . X ) ;
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}
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + ) {
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if ( gp . NextPlotData . HasYRange [ i ] ) {
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if ( just_created | | gp . NextPlotData . YRangeCond [ i ] = = ImGuiCond_Always )
plot . YAxis [ i ] . SetRange ( gp . NextPlotData . Y [ i ] ) ;
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}
}
// AXIS STATES ------------------------------------------------------------
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gp . X = ImPlotAxisState ( & plot . XAxis , gp . NextPlotData . HasXRange , gp . NextPlotData . XRangeCond , true ) ;
gp . Y [ 0 ] = ImPlotAxisState ( & plot . YAxis [ 0 ] , gp . NextPlotData . HasYRange [ 0 ] , gp . NextPlotData . YRangeCond [ 0 ] , true ) ;
gp . Y [ 1 ] = ImPlotAxisState ( & plot . YAxis [ 1 ] , gp . NextPlotData . HasYRange [ 1 ] , gp . NextPlotData . YRangeCond [ 1 ] , ImHasFlag ( plot . Flags , ImPlotFlags_YAxis2 ) ) ;
gp . Y [ 2 ] = ImPlotAxisState ( & plot . YAxis [ 2 ] , gp . NextPlotData . HasYRange [ 2 ] , gp . NextPlotData . YRangeCond [ 2 ] , ImHasFlag ( plot . Flags , ImPlotFlags_YAxis3 ) ) ;
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gp . LockPlot = gp . X . Lock & & gp . Y [ 0 ] . Lock & & gp . Y [ 1 ] . Lock & & gp . Y [ 2 ] . Lock ;
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; + + i ) {
if ( ! ImHasFlag ( plot . XAxis . Flags , ImPlotAxisFlags_LogScale ) & & ! ImHasFlag ( plot . YAxis [ i ] . Flags , ImPlotAxisFlags_LogScale ) )
gp . Scales [ i ] = ImPlotScale_LinLin ;
else if ( ImHasFlag ( plot . XAxis . Flags , ImPlotAxisFlags_LogScale ) & & ! ImHasFlag ( plot . YAxis [ i ] . Flags , ImPlotAxisFlags_LogScale ) )
gp . Scales [ i ] = ImPlotScale_LogLin ;
else if ( ! ImHasFlag ( plot . XAxis . Flags , ImPlotAxisFlags_LogScale ) & & ImHasFlag ( plot . YAxis [ i ] . Flags , ImPlotAxisFlags_LogScale ) )
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gp . Scales [ i ] = ImPlotScale_LinLog ;
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else if ( ImHasFlag ( plot . XAxis . Flags , ImPlotAxisFlags_LogScale ) & & ImHasFlag ( plot . YAxis [ i ] . Flags , ImPlotAxisFlags_LogScale ) )
gp . Scales [ i ] = ImPlotScale_LogLog ;
}
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// constraints
plot . XAxis . Constrain ( ) ;
for ( int i = 0 ; i < IMPLOT_Y_AXES ; + + i )
plot . YAxis [ i ] . Constrain ( ) ;
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// AXIS COLORS -----------------------------------------------------------------
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UpdateAxisColors ( ImPlotCol_XAxis , & gp . Col_X ) ;
UpdateAxisColors ( ImPlotCol_YAxis , & gp . Col_Y [ 0 ] ) ;
UpdateAxisColors ( ImPlotCol_YAxis2 , & gp . Col_Y [ 1 ] ) ;
UpdateAxisColors ( ImPlotCol_YAxis3 , & gp . Col_Y [ 2 ] ) ;
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// BB, PADDING, HOVER -----------------------------------------------------------
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// frame
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ImVec2 frame_size = ImGui : : CalcItemSize ( size , IMPLOT_DEFAULT_W , IMPLOT_DEFAULT_H ) ;
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if ( frame_size . x < gp . Style . PlotMinSize . x & & size . x < 0.0f )
frame_size . x = gp . Style . PlotMinSize . x ;
if ( frame_size . y < gp . Style . PlotMinSize . y & & size . y < 0.0f )
frame_size . y = gp . Style . PlotMinSize . y ;
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gp . BB_Frame = ImRect ( Window - > DC . CursorPos , Window - > DC . CursorPos + frame_size ) ;
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ImGui : : ItemSize ( gp . BB_Frame ) ;
if ( ! ImGui : : ItemAdd ( gp . BB_Frame , 0 , & gp . BB_Frame ) ) {
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Reset ( GImPlot ) ;
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return false ;
}
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gp . Hov_Frame = ImGui : : ItemHoverable ( gp . BB_Frame , ID ) ;
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ImGui : : RenderFrame ( gp . BB_Frame . Min , gp . BB_Frame . Max , GetStyleColorU32 ( ImPlotCol_FrameBg ) , true , Style . FrameRounding ) ;
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// canvas bb
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gp . BB_Canvas = ImRect ( gp . BB_Frame . Min + gp . Style . PlotPadding , gp . BB_Frame . Max - gp . Style . PlotPadding ) ;
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gp . RenderX = ( ! ImHasFlag ( plot . XAxis . Flags , ImPlotAxisFlags_NoGridLines ) | |
! ImHasFlag ( plot . XAxis . Flags , ImPlotAxisFlags_NoTickMarks ) | |
! ImHasFlag ( plot . XAxis . Flags , ImPlotAxisFlags_NoTickLabels ) ) ;
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + ) {
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gp . RenderY [ i ] = gp . Y [ i ] . Present & &
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( ! ImHasFlag ( plot . YAxis [ i ] . Flags , ImPlotAxisFlags_NoGridLines ) | |
! ImHasFlag ( plot . YAxis [ i ] . Flags , ImPlotAxisFlags_NoTickMarks ) | |
! ImHasFlag ( plot . YAxis [ i ] . Flags , ImPlotAxisFlags_NoTickLabels ) ) ;
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}
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// plot bb
// (1) calc top/bot padding and plot height
const ImVec2 title_size = ImGui : : CalcTextSize ( title , NULL , true ) ;
const float txt_height = ImGui : : GetTextLineHeight ( ) ;
const float pad_top = title_size . x > 0.0f ? txt_height + gp . Style . LabelPadding . y : 0 ;
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const float pad_bot = ( gp . X . HasLabels ? txt_height + gp . Style . LabelPadding . y + ( gp . X . IsTime ? txt_height + gp . Style . LabelPadding . y : 0 ) : 0 )
+ ( x_label ? txt_height + gp . Style . LabelPadding . y : 0 ) ;
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const float plot_height = gp . BB_Canvas . GetHeight ( ) - pad_top - pad_bot ;
// (2) get y tick labels (needed for left/right pad)
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + ) {
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if ( gp . RenderY [ i ] & & gp . NextPlotData . ShowDefaultTicksY [ i ] ) {
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if ( ImHasFlag ( plot . YAxis [ i ] . Flags , ImPlotAxisFlags_LogScale ) )
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AddTicksLogarithmic ( plot . YAxis [ i ] . Range , ImMax ( 2 , ( int ) IM_ROUND ( plot_height * 0.02f ) ) , gp . YTicks [ i ] ) ;
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else
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AddTicksDefault ( plot . YAxis [ i ] . Range , ImMax ( 2 , ( int ) IM_ROUND ( 0.0025 * plot_height ) ) , IMPLOT_SUB_DIV , gp . YTicks [ i ] ) ;
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}
}
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// (3) calc left/right pad
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const float pad_left = ( y_label ? txt_height + gp . Style . LabelPadding . x : 0 )
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+ ( gp . Y [ 0 ] . HasLabels ? gp . YTicks [ 0 ] . MaxWidth + gp . Style . LabelPadding . x : 0 ) ;
const float pad_right = ( ( gp . Y [ 1 ] . Present & & gp . Y [ 1 ] . HasLabels ) ? gp . YTicks [ 1 ] . MaxWidth + gp . Style . LabelPadding . x : 0 )
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+ ( ( gp . Y [ 1 ] . Present & & gp . Y [ 2 ] . Present ) ? gp . Style . LabelPadding . x + gp . Style . MinorTickLen . y : 0 )
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+ ( ( gp . Y [ 2 ] . Present & & gp . Y [ 2 ] . HasLabels ) ? gp . YTicks [ 2 ] . MaxWidth + gp . Style . LabelPadding . x : 0 ) ;
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const float plot_width = gp . BB_Canvas . GetWidth ( ) - pad_left - pad_right ;
// (4) get x ticks
if ( gp . RenderX & & gp . NextPlotData . ShowDefaultTicksX ) {
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if ( gp . X . IsTime )
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AddTicksTime ( plot . XAxis . Range , plot_width , gp . Style . Use24HourClock , gp . XTicks ) ;
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else if ( ImHasFlag ( plot . XAxis . Flags , ImPlotAxisFlags_LogScale ) )
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AddTicksLogarithmic ( plot . XAxis . Range , ( int ) IM_ROUND ( plot_width * 0.01f ) , gp . XTicks ) ;
else
AddTicksDefault ( plot . XAxis . Range , ImMax ( 2 , ( int ) IM_ROUND ( 0.0025 * plot_width ) ) , IMPLOT_SUB_DIV , gp . XTicks ) ;
}
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// (5) calc plot bb
gp . BB_Plot = ImRect ( gp . BB_Canvas . Min + ImVec2 ( pad_left , pad_top ) , gp . BB_Canvas . Max - ImVec2 ( pad_right , pad_bot ) ) ;
gp . Hov_Plot = gp . BB_Plot . Contains ( IO . MousePos ) ;
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// x axis region bb and hover
const ImRect xAxisRegion_bb ( gp . BB_Plot . GetBL ( ) , ImVec2 ( gp . BB_Plot . Max . x , gp . BB_Frame . Max . y ) ) ;
plot . XAxis . HoveredExt = xAxisRegion_bb . Contains ( IO . MousePos ) ;
plot . XAxis . HoveredTot = plot . XAxis . HoveredExt | | gp . Hov_Plot ;
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// axis label reference
gp . YAxisReference [ 0 ] = gp . BB_Plot . Min . x ;
gp . YAxisReference [ 1 ] = gp . BB_Plot . Max . x ;
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gp . YAxisReference [ 2 ] = ! gp . Y [ 1 ] . Present ? gp . BB_Plot . Max . x : ( gp . YAxisReference [ 1 ] + ( gp . Y [ 1 ] . HasLabels ? gp . Style . LabelPadding . x + gp . YTicks [ 1 ] . MaxWidth : 0 ) + gp . Style . LabelPadding . x + gp . Style . MinorTickLen . y ) ;
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// y axis regions bb and hover
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ImRect yAxisRegion_bb [ IMPLOT_Y_AXES ] ;
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yAxisRegion_bb [ 0 ] = ImRect ( ImVec2 ( gp . BB_Frame . Min . x , gp . BB_Plot . Min . y ) , ImVec2 ( gp . BB_Plot . Min . x , gp . BB_Plot . Max . y ) ) ;
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yAxisRegion_bb [ 1 ] = gp . Y [ 2 ] . Present
? ImRect ( gp . BB_Plot . GetTR ( ) , ImVec2 ( gp . YAxisReference [ 2 ] , gp . BB_Plot . Max . y ) )
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: ImRect ( gp . BB_Plot . GetTR ( ) , ImVec2 ( gp . BB_Frame . Max . x , gp . BB_Plot . Max . y ) ) ;
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yAxisRegion_bb [ 2 ] = ImRect ( ImVec2 ( gp . YAxisReference [ 2 ] , gp . BB_Plot . Min . y ) , ImVec2 ( gp . BB_Frame . Max . x , gp . BB_Plot . Max . y ) ) ;
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; + + i ) {
plot . YAxis [ i ] . HoveredExt = gp . Y [ i ] . Present & & yAxisRegion_bb [ i ] . Contains ( IO . MousePos ) ;
plot . YAxis [ i ] . HoveredTot = plot . YAxis [ i ] . HoveredExt | | gp . Hov_Plot ;
}
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#if 0
ImGui : : GetForegroundDrawList ( ) - > AddRect ( gp . BB_Canvas . Min , gp . BB_Canvas . Max , IM_COL32_WHITE ) ;
ImGui : : GetForegroundDrawList ( ) - > AddRectFilled ( xAxisRegion_bb . Min , xAxisRegion_bb . Max , IM_COL32 ( 255 , 0 , 0 , plot . XAxis . HoveredTot ? 128 : 64 ) ) ;
ImGui : : GetForegroundDrawList ( ) - > AddRectFilled ( yAxisRegion_bb [ 0 ] . Min , yAxisRegion_bb [ 0 ] . Max , IM_COL32 ( 255 , 255 , 0 , plot . YAxis [ 0 ] . HoveredTot ? 128 : 64 ) ) ;
if ( gp . Y [ 1 ] . Present )
ImGui : : GetForegroundDrawList ( ) - > AddRectFilled ( yAxisRegion_bb [ 1 ] . Min , yAxisRegion_bb [ 1 ] . Max , IM_COL32 ( 0 , 255 , 0 , plot . YAxis [ 1 ] . HoveredTot ? 128 : 64 ) ) ;
if ( gp . Y [ 2 ] . Present )
ImGui : : GetForegroundDrawList ( ) - > AddRectFilled ( yAxisRegion_bb [ 2 ] . Min , yAxisRegion_bb [ 2 ] . Max , IM_COL32 ( 0 , 0 , 255 , plot . YAxis [ 2 ] . HoveredTot ? 128 : 64 ) ) ;
# endif
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const bool any_hov_y_axis_region = plot . YAxis [ 0 ] . HoveredTot | | plot . YAxis [ 1 ] . HoveredTot | | plot . YAxis [ 2 ] . HoveredTot ;
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// legend hovered from last frame
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const bool hov_legend = ! ImHasFlag ( plot . Flags , ImPlotFlags_NoLegend ) ? gp . Hov_Frame & & plot . BB_Legend . Contains ( IO . MousePos ) : false ;
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bool hov_query = false ;
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if ( gp . Hov_Frame & & gp . Hov_Plot & & plot . Queried & & ! plot . Querying ) {
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ImRect bb_query = plot . QueryRect ;
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bb_query . Min + = gp . BB_Plot . Min ;
bb_query . Max + = gp . BB_Plot . Min ;
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hov_query = bb_query . Contains ( IO . MousePos ) ;
}
// QUERY DRAG -------------------------------------------------------------
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if ( plot . DraggingQuery & & ( IO . MouseReleased [ gp . InputMap . PanButton ] | | ! IO . MouseDown [ gp . InputMap . PanButton ] ) ) {
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plot . DraggingQuery = false ;
}
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if ( plot . DraggingQuery ) {
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ImGui : : SetMouseCursor ( ImGuiMouseCursor_ResizeAll ) ;
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plot . QueryRect . Min + = IO . MouseDelta ;
plot . QueryRect . Max + = IO . MouseDelta ;
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}
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if ( gp . Hov_Frame & & gp . Hov_Plot & & hov_query & & ! plot . DraggingQuery & & ! plot . Selecting & & ! hov_legend ) {
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ImGui : : SetMouseCursor ( ImGuiMouseCursor_ResizeAll ) ;
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const bool any_y_dragging = plot . YAxis [ 0 ] . Dragging | | plot . YAxis [ 1 ] . Dragging | | plot . YAxis [ 2 ] . Dragging ;
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if ( IO . MouseDown [ gp . InputMap . PanButton ] & & ! plot . XAxis . Dragging & & ! any_y_dragging ) {
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plot . DraggingQuery = true ;
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}
}
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// DRAG INPUT -------------------------------------------------------------
// end drags
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if ( plot . XAxis . Dragging & & ( IO . MouseReleased [ gp . InputMap . PanButton ] | | ! IO . MouseDown [ gp . InputMap . PanButton ] ) ) {
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plot . XAxis . Dragging = false ;
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G . IO . MouseDragMaxDistanceSqr [ 0 ] = 0 ;
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}
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + ) {
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if ( plot . YAxis [ i ] . Dragging & & ( IO . MouseReleased [ gp . InputMap . PanButton ] | | ! IO . MouseDown [ gp . InputMap . PanButton ] ) ) {
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plot . YAxis [ i ] . Dragging = false ;
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G . IO . MouseDragMaxDistanceSqr [ 0 ] = 0 ;
}
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}
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const bool any_y_dragging = plot . YAxis [ 0 ] . Dragging | | plot . YAxis [ 1 ] . Dragging | | plot . YAxis [ 2 ] . Dragging ;
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bool drag_in_progress = plot . XAxis . Dragging | | any_y_dragging ;
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// do drag
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if ( drag_in_progress ) {
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UpdateTransformCache ( ) ;
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if ( ! gp . X . Lock & & plot . XAxis . Dragging ) {
ImPlotPoint plot_tl = PixelsToPlot ( gp . BB_Plot . Min - IO . MouseDelta , 0 ) ;
ImPlotPoint plot_br = PixelsToPlot ( gp . BB_Plot . Max - IO . MouseDelta , 0 ) ;
if ( ! gp . X . LockMin )
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plot . XAxis . SetMin ( gp . X . Invert ? plot_br . x : plot_tl . x ) ;
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if ( ! gp . X . LockMax )
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plot . XAxis . SetMax ( gp . X . Invert ? plot_tl . x : plot_br . x ) ;
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}
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + ) {
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if ( ! gp . Y [ i ] . Lock & & plot . YAxis [ i ] . Dragging ) {
ImPlotPoint plot_tl = PixelsToPlot ( gp . BB_Plot . Min - IO . MouseDelta , i ) ;
ImPlotPoint plot_br = PixelsToPlot ( gp . BB_Plot . Max - IO . MouseDelta , i ) ;
if ( ! gp . Y [ i ] . LockMin )
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plot . YAxis [ i ] . SetMin ( gp . Y [ i ] . Invert ? plot_tl . y : plot_br . y ) ;
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if ( ! gp . Y [ i ] . LockMax )
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plot . YAxis [ i ] . SetMax ( gp . Y [ i ] . Invert ? plot_br . y : plot_tl . y ) ;
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}
}
// Set the mouse cursor based on which axes are moving.
int direction = 0 ;
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if ( ! gp . X . Lock & & plot . XAxis . Dragging ) {
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direction | = ( 1 < < 1 ) ;
}
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + ) {
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if ( ! gp . Y [ i ] . Present ) { continue ; }
if ( ! gp . Y [ i ] . Lock & & plot . YAxis [ i ] . Dragging ) {
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direction | = ( 1 < < 2 ) ;
break ;
}
}
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if ( IO . MouseDragMaxDistanceSqr [ 0 ] > 5 ) {
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if ( direction = = 0 )
ImGui : : SetMouseCursor ( ImGuiMouseCursor_NotAllowed ) ;
else if ( direction = = ( 1 < < 1 ) )
ImGui : : SetMouseCursor ( ImGuiMouseCursor_ResizeEW ) ;
else if ( direction = = ( 1 < < 2 ) )
ImGui : : SetMouseCursor ( ImGuiMouseCursor_ResizeNS ) ;
else
ImGui : : SetMouseCursor ( ImGuiMouseCursor_ResizeAll ) ;
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}
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}
// start drag
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if ( ! drag_in_progress & & gp . Hov_Frame & & IO . MouseClicked [ gp . InputMap . PanButton ] & & ImHasFlag ( IO . KeyMods , gp . InputMap . PanMod ) & & ! plot . Selecting & & ! hov_legend & & ! hov_query & & ! plot . DraggingQuery ) {
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if ( plot . XAxis . HoveredTot ) {
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plot . XAxis . Dragging = true ;
}
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + ) {
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if ( plot . YAxis [ i ] . HoveredTot ) {
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plot . YAxis [ i ] . Dragging = true ;
}
}
}
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// SCROLL INPUT -----------------------------------------------------------
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if ( gp . Hov_Frame & & ( plot . XAxis . HoveredTot | | any_hov_y_axis_region ) & & IO . MouseWheel ! = 0 ) {
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UpdateTransformCache ( ) ;
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float zoom_rate = IMPLOT_ZOOM_RATE ;
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if ( IO . MouseWheel > 0 )
zoom_rate = ( - zoom_rate ) / ( 1.0f + ( 2.0f * zoom_rate ) ) ;
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float tx = ImRemap ( IO . MousePos . x , gp . BB_Plot . Min . x , gp . BB_Plot . Max . x , 0.0f , 1.0f ) ;
float ty = ImRemap ( IO . MousePos . y , gp . BB_Plot . Min . y , gp . BB_Plot . Max . y , 0.0f , 1.0f ) ;
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if ( plot . XAxis . HoveredTot & & ! gp . X . Lock ) {
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ImPlotAxisScale axis_scale ( 0 , tx , ty , zoom_rate ) ;
const ImPlotPoint & plot_tl = axis_scale . Min ;
const ImPlotPoint & plot_br = axis_scale . Max ;
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if ( ! gp . X . LockMin )
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plot . XAxis . SetMin ( gp . X . Invert ? plot_br . x : plot_tl . x ) ;
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if ( ! gp . X . LockMax )
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plot . XAxis . SetMax ( gp . X . Invert ? plot_tl . x : plot_br . x ) ;
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}
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + ) {
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if ( plot . YAxis [ i ] . HoveredTot & & ! gp . Y [ i ] . Lock ) {
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ImPlotAxisScale axis_scale ( i , tx , ty , zoom_rate ) ;
const ImPlotPoint & plot_tl = axis_scale . Min ;
const ImPlotPoint & plot_br = axis_scale . Max ;
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if ( ! gp . Y [ i ] . LockMin )
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plot . YAxis [ i ] . SetMin ( gp . Y [ i ] . Invert ? plot_tl . y : plot_br . y ) ;
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if ( ! gp . Y [ i ] . LockMax )
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plot . YAxis [ i ] . SetMax ( gp . Y [ i ] . Invert ? plot_br . y : plot_tl . y ) ;
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}
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}
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}
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// BOX-SELECTION AND QUERY ------------------------------------------------
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// confirm selection
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if ( plot . Selecting & & ( IO . MouseReleased [ gp . InputMap . BoxSelectButton ] | | ! IO . MouseDown [ gp . InputMap . BoxSelectButton ] ) ) {
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UpdateTransformCache ( ) ;
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ImVec2 select_size = plot . SelectStart - IO . MousePos ;
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if ( ! ImHasFlag ( plot . Flags , ImPlotFlags_NoBoxSelect ) ) {
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ImPlotPoint p1 = PixelsToPlot ( plot . SelectStart ) ;
ImPlotPoint p2 = PixelsToPlot ( IO . MousePos ) ;
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const bool x_can_change = ! ImHasFlag ( IO . KeyMods , gp . InputMap . HorizontalMod ) & & ImFabs ( select_size . x ) > 2 ;
const bool y_can_change = ! ImHasFlag ( IO . KeyMods , gp . InputMap . VerticalMod ) & & ImFabs ( select_size . y ) > 2 ;
if ( ! gp . X . LockMin & & x_can_change )
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plot . XAxis . SetMin ( ImMin ( p1 . x , p2 . x ) ) ;
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if ( ! gp . X . LockMax & & x_can_change )
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plot . XAxis . SetMax ( ImMax ( p1 . x , p2 . x ) ) ;
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + ) {
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p1 = PixelsToPlot ( plot . SelectStart , i ) ;
p2 = PixelsToPlot ( IO . MousePos , i ) ;
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if ( ! gp . Y [ i ] . LockMin & & y_can_change )
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plot . YAxis [ i ] . SetMin ( ImMin ( p1 . y , p2 . y ) ) ;
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if ( ! gp . Y [ i ] . LockMax & & y_can_change )
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plot . YAxis [ i ] . SetMax ( ImMax ( p1 . y , p2 . y ) ) ;
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}
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}
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plot . Selecting = false ;
}
// bad selection
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if ( plot . Selecting & & ( ImHasFlag ( plot . Flags , ImPlotFlags_NoBoxSelect ) | | gp . LockPlot ) & & ImLengthSqr ( plot . SelectStart - IO . MousePos ) > 4 ) {
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ImGui : : SetMouseCursor ( ImGuiMouseCursor_NotAllowed ) ;
}
// cancel selection
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if ( plot . Selecting & & ( IO . MouseClicked [ gp . InputMap . BoxSelectCancelButton ] | | IO . MouseDown [ gp . InputMap . BoxSelectCancelButton ] ) ) {
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plot . Selecting = false ;
}
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// begin selection or query
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if ( gp . Hov_Frame & & gp . Hov_Plot & & IO . MouseClicked [ gp . InputMap . BoxSelectButton ] & & ImHasFlag ( IO . KeyMods , gp . InputMap . BoxSelectMod ) ) {
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plot . SelectStart = IO . MousePos ;
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plot . Selecting = true ;
}
// update query
if ( plot . Querying ) {
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UpdateTransformCache ( ) ;
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plot . QueryRect . Min . x = ImHasFlag ( IO . KeyMods , gp . InputMap . HorizontalMod ) ? gp . BB_Plot . Min . x : ImMin ( plot . QueryStart . x , IO . MousePos . x ) ;
plot . QueryRect . Max . x = ImHasFlag ( IO . KeyMods , gp . InputMap . HorizontalMod ) ? gp . BB_Plot . Max . x : ImMax ( plot . QueryStart . x , IO . MousePos . x ) ;
plot . QueryRect . Min . y = ImHasFlag ( IO . KeyMods , gp . InputMap . VerticalMod ) ? gp . BB_Plot . Min . y : ImMin ( plot . QueryStart . y , IO . MousePos . y ) ;
plot . QueryRect . Max . y = ImHasFlag ( IO . KeyMods , gp . InputMap . VerticalMod ) ? gp . BB_Plot . Max . y : ImMax ( plot . QueryStart . y , IO . MousePos . y ) ;
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plot . QueryRect . Min - = gp . BB_Plot . Min ;
plot . QueryRect . Max - = gp . BB_Plot . Min ;
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}
// end query
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if ( plot . Querying & & ( IO . MouseReleased [ gp . InputMap . QueryButton ] | | IO . MouseReleased [ gp . InputMap . BoxSelectButton ] ) ) {
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plot . Querying = false ;
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if ( plot . QueryRect . GetWidth ( ) > 2 & & plot . QueryRect . GetHeight ( ) > 2 )
plot . Queried = true ;
else
plot . Queried = false ;
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}
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// begin query
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if ( ImHasFlag ( plot . Flags , ImPlotFlags_Query ) & & gp . Hov_Frame & & gp . Hov_Plot & & IO . MouseClicked [ gp . InputMap . QueryButton ] & & ImHasFlag ( IO . KeyMods , gp . InputMap . QueryMod ) ) {
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plot . QueryRect = ImRect ( 0 , 0 , 0 , 0 ) ;
plot . Querying = true ;
plot . Queried = true ;
plot . QueryStart = IO . MousePos ;
}
// toggle between select/query
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if ( ImHasFlag ( plot . Flags , ImPlotFlags_Query ) & & plot . Selecting & & ImHasFlag ( IO . KeyMods , gp . InputMap . QueryToggleMod ) ) {
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plot . Selecting = false ;
plot . QueryRect = ImRect ( 0 , 0 , 0 , 0 ) ;
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plot . Querying = true ;
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plot . Queried = true ;
plot . QueryStart = plot . SelectStart ;
}
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if ( ! ImHasFlag ( plot . Flags , ImPlotFlags_NoBoxSelect ) & & plot . Querying & & ! ImHasFlag ( IO . KeyMods , gp . InputMap . QueryToggleMod ) & & ! IO . MouseDown [ gp . InputMap . QueryButton ] ) {
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plot . Selecting = true ;
plot . Querying = false ;
plot . Queried = false ;
plot . QueryRect = ImRect ( 0 , 0 , 0 , 0 ) ;
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}
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if ( ! ImHasFlag ( plot . Flags , ImPlotFlags_Query ) ) {
plot . Queried = false ;
plot . Querying = false ;
plot . QueryRect = ImRect ( 0 , 0 , 0 , 0 ) ;
}
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// FIT -----------------------------------------------------------
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// fit from double click
if ( IO . MouseDoubleClicked [ gp . InputMap . FitButton ] & & gp . Hov_Frame & & ( plot . XAxis . HoveredTot | | any_hov_y_axis_region ) & & ! hov_legend & & ! hov_query ) {
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gp . FitThisFrame = true ;
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gp . FitX = plot . XAxis . HoveredTot ;
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + )
gp . FitY [ i ] = plot . YAxis [ i ] . HoveredTot ;
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}
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// fit from FitNextPlotAxes
if ( gp . NextPlotData . FitX ) {
gp . FitThisFrame = true ;
gp . FitX = true ;
}
for ( int i = 0 ; i < IMPLOT_Y_AXES ; + + i ) {
if ( gp . NextPlotData . FitY [ i ] ) {
gp . FitThisFrame = true ;
gp . FitY [ i ] = true ;
}
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}
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// FOCUS ------------------------------------------------------------------
// focus window
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if ( ( IO . MouseClicked [ 0 ] | | IO . MouseClicked [ 1 ] | | IO . MouseClicked [ 2 ] ) & & gp . Hov_Frame )
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ImGui : : FocusWindow ( ImGui : : GetCurrentWindow ( ) ) ;
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UpdateTransformCache ( ) ;
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// set mouse position
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + ) {
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gp . MousePos [ i ] = PixelsToPlot ( IO . MousePos , i ) ;
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}
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// RENDER -----------------------------------------------------------------
// grid bg
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DrawList . AddRectFilled ( gp . BB_Plot . Min , gp . BB_Plot . Max , GetStyleColorU32 ( ImPlotCol_PlotBg ) ) ;
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// render axes
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PushPlotClipRect ( ) ;
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// transform ticks (TODO: Move this into ImPlotTickCollection)
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if ( gp . RenderX ) {
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for ( int t = 0 ; t < gp . XTicks . Size ; t + + ) {
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ImPlotTick * xt = & gp . XTicks . Ticks [ t ] ;
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xt - > PixelPos = PlotToPixels ( xt - > PlotPos , 0 , 0 ) . x ;
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}
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}
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + ) {
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if ( gp . RenderY [ i ] ) {
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for ( int t = 0 ; t < gp . YTicks [ i ] . Size ; t + + ) {
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ImPlotTick * yt = & gp . YTicks [ i ] . Ticks [ t ] ;
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yt - > PixelPos = PlotToPixels ( 0 , yt - > PlotPos , i ) . y ;
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}
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}
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}
// render grid
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if ( ! ImHasFlag ( plot . XAxis . Flags , ImPlotAxisFlags_NoGridLines ) ) {
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float density = gp . XTicks . Size / gp . BB_Plot . GetWidth ( ) ;
ImVec4 col_min = ImGui : : ColorConvertU32ToFloat4 ( gp . Col_X . Minor ) ;
col_min . w * = ImClamp ( ImRemap ( density , 0.1f , 0.2f , 1.0f , 0.0f ) , 0.0f , 1.0f ) ;
ImU32 col_min32 = ImGui : : ColorConvertFloat4ToU32 ( col_min ) ;
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for ( int t = 0 ; t < gp . XTicks . Size ; t + + ) {
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ImPlotTick & xt = gp . XTicks . Ticks [ t ] ;
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if ( xt . Level = = 0 ) {
if ( xt . Major )
DrawList . AddLine ( ImVec2 ( xt . PixelPos , gp . BB_Plot . Min . y ) , ImVec2 ( xt . PixelPos , gp . BB_Plot . Max . y ) , gp . Col_X . Major , gp . Style . MajorGridSize . x ) ;
else if ( density < 0.2f )
DrawList . AddLine ( ImVec2 ( xt . PixelPos , gp . BB_Plot . Min . y ) , ImVec2 ( xt . PixelPos , gp . BB_Plot . Max . y ) , col_min32 , gp . Style . MinorGridSize . x ) ;
}
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}
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}
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + ) {
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if ( gp . Y [ i ] . Present & & ! ImHasFlag ( plot . YAxis [ i ] . Flags , ImPlotAxisFlags_NoGridLines ) ) {
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float density = gp . YTicks [ i ] . Size / gp . BB_Plot . GetHeight ( ) ;
ImVec4 col_min = ImGui : : ColorConvertU32ToFloat4 ( gp . Col_Y [ i ] . Minor ) ;
col_min . w * = ImClamp ( ImRemap ( density , 0.1f , 0.2f , 1.0f , 0.0f ) , 0.0f , 1.0f ) ;
ImU32 col_min32 = ImGui : : ColorConvertFloat4ToU32 ( col_min ) ;
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for ( int t = 0 ; t < gp . YTicks [ i ] . Size ; t + + ) {
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ImPlotTick & yt = gp . YTicks [ i ] . Ticks [ t ] ;
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if ( yt . Major )
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DrawList . AddLine ( ImVec2 ( gp . BB_Plot . Min . x , yt . PixelPos ) , ImVec2 ( gp . BB_Plot . Max . x , yt . PixelPos ) , gp . Col_Y [ i ] . Major , gp . Style . MajorGridSize . y ) ;
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else if ( density < 0.2f )
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DrawList . AddLine ( ImVec2 ( gp . BB_Plot . Min . x , yt . PixelPos ) , ImVec2 ( gp . BB_Plot . Max . x , yt . PixelPos ) , col_min32 , gp . Style . MinorGridSize . y ) ;
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}
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}
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}
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PopPlotClipRect ( ) ;
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// render title
if ( title_size . x > 0.0f ) {
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ImU32 col = GetStyleColorU32 ( ImPlotCol_TitleText ) ;
const char * title_end = ImGui : : FindRenderedTextEnd ( title , NULL ) ;
DrawList . AddText ( ImVec2 ( gp . BB_Canvas . GetCenter ( ) . x - title_size . x * 0.5f , gp . BB_Canvas . Min . y ) , col , title , title_end ) ;
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}
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// render axis labels
if ( x_label ) {
const ImVec2 xLabel_size = ImGui : : CalcTextSize ( x_label ) ;
const ImVec2 xLabel_pos ( gp . BB_Plot . GetCenter ( ) . x - xLabel_size . x * 0.5f , gp . BB_Canvas . Max . y - txt_height ) ;
DrawList . AddText ( xLabel_pos , gp . Col_X . MajTxt , x_label ) ;
}
if ( y_label ) {
const ImVec2 yLabel_size = CalcTextSizeVertical ( y_label ) ;
const ImVec2 yLabel_pos ( gp . BB_Canvas . Min . x , gp . BB_Plot . GetCenter ( ) . y + yLabel_size . y * 0.5f ) ;
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AddTextVertical ( & DrawList , yLabel_pos , gp . Col_Y [ 0 ] . MajTxt , y_label ) ;
}
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// render tick labels
ImGui : : PushClipRect ( gp . BB_Frame . Min , gp . BB_Frame . Max , true ) ;
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if ( ! ImHasFlag ( plot . XAxis . Flags , ImPlotAxisFlags_NoTickLabels ) ) {
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for ( int t = 0 ; t < gp . XTicks . Size ; t + + ) {
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ImPlotTick * xt = & gp . XTicks . Ticks [ t ] ;
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if ( xt - > ShowLabel & & xt - > PixelPos > = gp . BB_Plot . Min . x - 1 & & xt - > PixelPos < = gp . BB_Plot . Max . x + 1 )
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DrawList . AddText ( ImVec2 ( xt - > PixelPos - xt - > LabelSize . x * 0.5f , gp . BB_Plot . Max . y + gp . Style . LabelPadding . y + xt - > Level * ( txt_height + gp . Style . LabelPadding . y ) ) ,
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xt - > Major ? gp . Col_X . MajTxt : gp . Col_X . MinTxt , gp . XTicks . GetLabel ( t ) ) ;
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}
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}
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + ) {
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if ( gp . Y [ i ] . Present & & ! ImHasFlag ( plot . YAxis [ i ] . Flags , ImPlotAxisFlags_NoTickLabels ) ) {
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for ( int t = 0 ; t < gp . YTicks [ i ] . Size ; t + + ) {
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const float x_start = gp . YAxisReference [ i ] + ( i = = 0 ? ( - gp . Style . LabelPadding . x - gp . YTicks [ i ] . Ticks [ t ] . LabelSize . x ) : gp . Style . LabelPadding . x ) ;
ImPlotTick * yt = & gp . YTicks [ i ] . Ticks [ t ] ;
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if ( yt - > ShowLabel & & yt - > PixelPos > = gp . BB_Plot . Min . y - 1 & & yt - > PixelPos < = gp . BB_Plot . Max . y + 1 ) {
ImVec2 start ( x_start , yt - > PixelPos - 0.5f * yt - > LabelSize . y ) ;
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DrawList . AddText ( start , yt - > Major ? gp . Col_Y [ i ] . MajTxt : gp . Col_Y [ i ] . MinTxt , gp . YTicks [ i ] . GetLabel ( t ) ) ;
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}
}
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}
}
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ImGui : : PopClipRect ( ) ;
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// push plot ID into stack
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ImGui : : PushID ( ID ) ;
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return true ;
}
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//-----------------------------------------------------------------------------
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// Context Menu
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//-----------------------------------------------------------------------------
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template < typename F >
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bool DragFloat ( const char * , F * , float , F , F ) {
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return false ;
}
template < >
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bool DragFloat < double > ( const char * label , double * v , float v_speed , double v_min , double v_max ) {
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return ImGui : : DragScalar ( label , ImGuiDataType_Double , v , v_speed , & v_min , & v_max , " %.3f " , 1 ) ;
}
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template < >
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bool DragFloat < float > ( const char * label , float * v , float v_speed , float v_min , float v_max ) {
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return ImGui : : DragScalar ( label , ImGuiDataType_Float , v , v_speed , & v_min , & v_max , " %.3f " , 1 ) ;
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}
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inline void BeginDisabledControls ( bool cond ) {
if ( cond ) {
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ImGui : : PushItemFlag ( ImGuiItemFlags_Disabled , true ) ;
ImGui : : PushStyleVar ( ImGuiStyleVar_Alpha , ImGui : : GetStyle ( ) . Alpha * 0.25f ) ;
}
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}
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inline void EndDisabledControls ( bool cond ) {
if ( cond ) {
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ImGui : : PopItemFlag ( ) ;
ImGui : : PopStyleVar ( ) ;
}
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}
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void ShowAxisContextMenu ( ImPlotAxisState & state , bool time_allowed ) {
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ImGui : : PushItemWidth ( 75 ) ;
ImPlotAxis & axis = * state . Axis ;
bool total_lock = state . HasRange & & state . RangeCond = = ImGuiCond_Always ;
bool logscale = ImHasFlag ( axis . Flags , ImPlotAxisFlags_LogScale ) ;
bool timescale = ImHasFlag ( axis . Flags , ImPlotAxisFlags_Time ) ;
bool grid = ! ImHasFlag ( axis . Flags , ImPlotAxisFlags_NoGridLines ) ;
bool ticks = ! ImHasFlag ( axis . Flags , ImPlotAxisFlags_NoTickMarks ) ;
bool labels = ! ImHasFlag ( axis . Flags , ImPlotAxisFlags_NoTickLabels ) ;
double drag_speed = ( axis . Range . Size ( ) < = DBL_EPSILON ) ? DBL_EPSILON * 1.0e+13 : 0.01 * axis . Range . Size ( ) ; // recover from almost equal axis limits.
if ( timescale ) {
ImPlotTime tmin = ImPlotTime : : FromDouble ( axis . Range . Min ) ;
ImPlotTime tmax = ImPlotTime : : FromDouble ( axis . Range . Max ) ;
BeginDisabledControls ( total_lock ) ;
if ( ImGui : : Checkbox ( " ##LockMin " , & state . LockMin ) )
ImFlipFlag ( axis . Flags , ImPlotAxisFlags_LockMin ) ;
EndDisabledControls ( total_lock ) ;
ImGui : : SameLine ( ) ;
BeginDisabledControls ( state . LockMin ) ;
if ( ImGui : : BeginMenu ( " Min Time " ) ) {
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if ( ShowTimePicker ( " mintime " , & tmin , GImPlot - > Style . Use24HourClock ) ) {
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if ( tmin > = tmax )
tmax = AddTime ( tmin , ImPlotTimeUnit_S , 1 ) ;
axis . SetRange ( tmin . ToDouble ( ) , tmax . ToDouble ( ) ) ;
}
ImGui : : Separator ( ) ;
if ( ShowDatePicker ( " mindate " , & axis . PickerLevel , & axis . PickerTimeMin , & tmin , & tmax ) ) {
tmin = CombineDateTime ( axis . PickerTimeMin , tmin ) ;
if ( tmin > = tmax )
tmax = AddTime ( tmin , ImPlotTimeUnit_S , 1 ) ;
axis . SetRange ( tmin . ToDouble ( ) , tmax . ToDouble ( ) ) ;
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}
ImGui : : EndMenu ( ) ;
}
EndDisabledControls ( state . LockMin ) ;
BeginDisabledControls ( total_lock ) ;
if ( ImGui : : Checkbox ( " ##LockMax " , & state . LockMax ) )
ImFlipFlag ( axis . Flags , ImPlotAxisFlags_LockMax ) ;
EndDisabledControls ( total_lock ) ;
ImGui : : SameLine ( ) ;
BeginDisabledControls ( state . LockMax ) ;
if ( ImGui : : BeginMenu ( " Max Time " ) ) {
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if ( ShowTimePicker ( " maxtime " , & tmax , GImPlot - > Style . Use24HourClock ) ) {
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if ( tmax < = tmin )
tmin = AddTime ( tmax , ImPlotTimeUnit_S , - 1 ) ;
axis . SetRange ( tmin . ToDouble ( ) , tmax . ToDouble ( ) ) ;
}
ImGui : : Separator ( ) ;
if ( ShowDatePicker ( " maxdate " , & axis . PickerLevel , & axis . PickerTimeMax , & tmin , & tmax ) ) {
tmax = CombineDateTime ( axis . PickerTimeMax , tmax ) ;
if ( tmax < = tmin )
tmin = AddTime ( tmax , ImPlotTimeUnit_S , - 1 ) ;
axis . SetRange ( tmin . ToDouble ( ) , tmax . ToDouble ( ) ) ;
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}
ImGui : : EndMenu ( ) ;
}
EndDisabledControls ( state . LockMax ) ;
}
else {
BeginDisabledControls ( total_lock ) ;
if ( ImGui : : Checkbox ( " ##LockMin " , & state . LockMin ) )
ImFlipFlag ( axis . Flags , ImPlotAxisFlags_LockMin ) ;
EndDisabledControls ( total_lock ) ;
ImGui : : SameLine ( ) ;
BeginDisabledControls ( state . LockMin ) ;
double temp_min = axis . Range . Min ;
if ( DragFloat ( " Min " , & temp_min , ( float ) drag_speed , - HUGE_VAL , axis . Range . Max - DBL_EPSILON ) )
axis . SetMin ( temp_min ) ;
EndDisabledControls ( state . LockMin ) ;
BeginDisabledControls ( total_lock ) ;
if ( ImGui : : Checkbox ( " ##LockMax " , & state . LockMax ) )
ImFlipFlag ( axis . Flags , ImPlotAxisFlags_LockMax ) ;
EndDisabledControls ( total_lock ) ;
ImGui : : SameLine ( ) ;
BeginDisabledControls ( state . LockMax ) ;
double temp_max = axis . Range . Max ;
if ( DragFloat ( " Max " , & temp_max , ( float ) drag_speed , axis . Range . Min + DBL_EPSILON , HUGE_VAL ) )
axis . SetMax ( temp_max ) ;
EndDisabledControls ( state . LockMax ) ;
}
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ImGui : : Separator ( ) ;
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if ( ImGui : : Checkbox ( " Invert " , & state . Invert ) )
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ImFlipFlag ( axis . Flags , ImPlotAxisFlags_Invert ) ;
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BeginDisabledControls ( timescale & & time_allowed ) ;
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if ( ImGui : : Checkbox ( " Log Scale " , & logscale ) )
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ImFlipFlag ( axis . Flags , ImPlotAxisFlags_LogScale ) ;
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EndDisabledControls ( timescale & & time_allowed ) ;
if ( time_allowed ) {
BeginDisabledControls ( logscale ) ;
if ( ImGui : : Checkbox ( " Time " , & timescale ) )
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ImFlipFlag ( axis . Flags , ImPlotAxisFlags_Time ) ;
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EndDisabledControls ( logscale ) ;
}
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ImGui : : Separator ( ) ;
if ( ImGui : : Checkbox ( " Grid Lines " , & grid ) )
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ImFlipFlag ( axis . Flags , ImPlotAxisFlags_NoGridLines ) ;
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if ( ImGui : : Checkbox ( " Tick Marks " , & ticks ) )
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ImFlipFlag ( axis . Flags , ImPlotAxisFlags_NoTickMarks ) ;
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if ( ImGui : : Checkbox ( " Labels " , & labels ) )
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ImFlipFlag ( axis . Flags , ImPlotAxisFlags_NoTickLabels ) ;
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}
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void ShowPlotContextMenu ( ImPlotState & plot ) {
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ImPlotContext & gp = * GImPlot ;
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if ( ImGui : : BeginMenu ( " X-Axis " ) ) {
ImGui : : PushID ( " X " ) ;
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ShowAxisContextMenu ( gp . X , true ) ;
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ImGui : : PopID ( ) ;
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ImGui : : EndMenu ( ) ;
}
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + ) {
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if ( i = = 1 & & ! ImHasFlag ( plot . Flags , ImPlotFlags_YAxis2 ) ) {
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continue ;
}
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if ( i = = 2 & & ! ImHasFlag ( plot . Flags , ImPlotFlags_YAxis3 ) ) {
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continue ;
}
char buf [ 10 ] = { } ;
if ( i = = 0 ) {
snprintf ( buf , sizeof ( buf ) - 1 , " Y-Axis " ) ;
} else {
snprintf ( buf , sizeof ( buf ) - 1 , " Y-Axis %d " , i + 1 ) ;
}
if ( ImGui : : BeginMenu ( buf ) ) {
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ImGui : : PushID ( i ) ;
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ShowAxisContextMenu ( gp . Y [ i ] , false ) ;
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ImGui : : PopID ( ) ;
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ImGui : : EndMenu ( ) ;
}
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}
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ImGui : : Separator ( ) ;
if ( ( ImGui : : BeginMenu ( " Settings " ) ) ) {
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if ( ImGui : : MenuItem ( " Box Select " , NULL , ! ImHasFlag ( plot . Flags , ImPlotFlags_NoBoxSelect ) ) ) {
ImFlipFlag ( plot . Flags , ImPlotFlags_NoBoxSelect ) ;
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}
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if ( ImGui : : MenuItem ( " Query " , NULL , ImHasFlag ( plot . Flags , ImPlotFlags_Query ) ) ) {
ImFlipFlag ( plot . Flags , ImPlotFlags_Query ) ;
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}
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if ( ImGui : : MenuItem ( " Crosshairs " , NULL , ImHasFlag ( plot . Flags , ImPlotFlags_Crosshairs ) ) ) {
ImFlipFlag ( plot . Flags , ImPlotFlags_Crosshairs ) ;
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}
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if ( ImGui : : MenuItem ( " Mouse Position " , NULL , ! ImHasFlag ( plot . Flags , ImPlotFlags_NoMousePos ) ) ) {
ImFlipFlag ( plot . Flags , ImPlotFlags_NoMousePos ) ;
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}
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if ( ImGui : : MenuItem ( " Anti-Aliased Lines " , NULL , ImHasFlag ( plot . Flags , ImPlotFlags_AntiAliased ) ) ) {
ImFlipFlag ( plot . Flags , ImPlotFlags_AntiAliased ) ;
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}
ImGui : : EndMenu ( ) ;
}
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if ( ImGui : : MenuItem ( " Legend " , NULL , ! ImHasFlag ( plot . Flags , ImPlotFlags_NoLegend ) ) ) {
ImFlipFlag ( plot . Flags , ImPlotFlags_NoLegend ) ;
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}
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# ifdef IMPLOT_DEBUG
if ( ImGui : : BeginMenu ( " Debug " ) ) {
ImGui : : PushItemWidth ( 50 ) ;
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ImGui : : LabelText ( " Plots " , " %d " , gp . Plots . GetSize ( ) ) ;
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ImGui : : LabelText ( " Color Mods " , " %d " , gp . ColorModifiers . size ( ) ) ;
ImGui : : LabelText ( " Style Mods " , " %d " , gp . StyleModifiers . size ( ) ) ;
ImGui : : TextUnformatted ( gp . XTicks . Labels . Buf . Data , gp . XTicks . Labels . Buf . Data + gp . XTicks . Labels . size ( ) ) ;
ImGui : : TextUnformatted ( gp . YTicks [ 0 ] . Labels . Buf . Data , gp . YTicks [ 0 ] . Labels . Buf . Data + gp . YTicks [ 0 ] . Labels . size ( ) ) ;
// ImGui::TextUnformatted(gp.YTicks[1].Labels.Buf.Data, gp.YTicks[1].Labels.Buf.Data + gp.YTicks[1].Labels.size());
// ImGui::TextUnformatted(gp.YTicks[2].Labels.Buf.Data, gp.YTicks[2].Labels.Buf.Data + gp.YTicks[2].Labels.size());
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ImGui : : PopItemWidth ( ) ;
ImGui : : EndMenu ( ) ;
}
# endif
}
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//-----------------------------------------------------------------------------
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// EndPlot()
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//-----------------------------------------------------------------------------
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void EndPlot ( ) {
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IM_ASSERT_USER_ERROR ( GImPlot ! = NULL , " No current context. Did you call ImPlot::CreateContext() or ImPlot::SetCurrentContext()? " ) ;
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot ! = NULL , " Mismatched BeginPlot()/EndPlot()! " ) ;
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ImGuiContext & G = * GImGui ;
ImPlotState & plot = * gp . CurrentPlot ;
ImGuiWindow * Window = G . CurrentWindow ;
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ImDrawList & DrawList = * Window - > DrawList ;
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const ImGuiIO & IO = ImGui : : GetIO ( ) ;
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// AXIS STATES ------------------------------------------------------------
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const bool any_y_locked = gp . Y [ 0 ] . Lock | | gp . Y [ 1 ] . Present ? gp . Y [ 1 ] . Lock : false | | gp . Y [ 2 ] . Present ? gp . Y [ 2 ] . Lock : false ;
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const bool any_y_dragging = plot . YAxis [ 0 ] . Dragging | | plot . YAxis [ 1 ] . Dragging | | plot . YAxis [ 2 ] . Dragging ;
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// FINAL RENDER -----------------------------------------------------------
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// render ticks
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PushPlotClipRect ( ) ;
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if ( ! ImHasFlag ( plot . XAxis . Flags , ImPlotAxisFlags_NoTickMarks ) ) {
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for ( int t = 0 ; t < gp . XTicks . Size ; t + + ) {
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ImPlotTick * xt = & gp . XTicks . Ticks [ t ] ;
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if ( xt - > Level = = 0 )
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DrawList . AddLine ( ImVec2 ( xt - > PixelPos , gp . BB_Plot . Max . y ) ,
ImVec2 ( xt - > PixelPos , gp . BB_Plot . Max . y - ( xt - > Major ? gp . Style . MajorTickLen . x : gp . Style . MinorTickLen . x ) ) ,
gp . Col_X . Major ,
xt - > Major ? gp . Style . MajorTickSize . x : gp . Style . MinorTickSize . x ) ;
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}
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}
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PopPlotClipRect ( ) ;
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ImGui : : PushClipRect ( gp . BB_Plot . Min , ImVec2 ( gp . BB_Frame . Max . x , gp . BB_Plot . Max . y ) , true ) ;
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int axis_count = 0 ;
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + ) {
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if ( ! gp . Y [ i ] . Present ) { continue ; }
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axis_count + + ;
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float x_start = gp . YAxisReference [ i ] ;
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if ( ! ImHasFlag ( plot . YAxis [ i ] . Flags , ImPlotAxisFlags_NoTickMarks ) ) {
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float direction = ( i = = 0 ) ? 1.0f : - 1.0f ;
bool no_major = axis_count > = 3 ;
for ( int t = 0 ; t < gp . YTicks [ i ] . Size ; t + + ) {
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ImPlotTick * yt = & gp . YTicks [ i ] . Ticks [ t ] ;
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ImVec2 start = ImVec2 ( x_start , yt - > PixelPos ) ;
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DrawList . AddLine ( start ,
start + ImVec2 ( direction * ( ( ! no_major & & yt - > Major ) ? gp . Style . MajorTickLen . y : gp . Style . MinorTickLen . y ) , 0 ) ,
gp . Col_Y [ i ] . Major ,
( ! no_major & & yt - > Major ) ? gp . Style . MajorTickSize . y : gp . Style . MinorTickSize . y ) ;
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}
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}
if ( axis_count > = 3 ) {
// Draw a bar next to the ticks to act as a visual separator.
DrawList . AddLine (
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ImVec2 ( x_start , gp . BB_Plot . Min . y ) ,
ImVec2 ( x_start , gp . BB_Plot . Max . y ) ,
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GetStyleColorU32 ( ImPlotCol_YAxisGrid3 ) , 1 ) ;
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}
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}
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ImGui : : PopClipRect ( ) ;
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// render y-axis drag/drop hover
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if ( ( gp . Y [ 1 ] . Present | | gp . Y [ 2 ] . Present ) & & ImGui : : IsDragDropPayloadBeingAccepted ( ) ) {
for ( int i = 0 ; i < IMPLOT_Y_AXES ; + + i ) {
if ( plot . YAxis [ i ] . HoveredExt ) {
float x_loc = gp . YAxisReference [ i ] ;
ImVec2 p1 ( x_loc - 5 , gp . BB_Plot . Min . y - 5 ) ;
ImVec2 p2 ( x_loc + 5 , gp . BB_Plot . Max . y + 5 ) ;
DrawList . AddRect ( p1 , p2 , ImGui : : GetColorU32 ( ImGuiCol_DragDropTarget ) , 0.0f , ImDrawCornerFlags_All , 2.0f ) ;
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}
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}
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}
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PushPlotClipRect ( ) ;
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// render selection/query
if ( plot . Selecting ) {
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const ImRect select_bb ( ImMin ( IO . MousePos , plot . SelectStart ) , ImMax ( IO . MousePos , plot . SelectStart ) ) ;
const bool wide_enough = ImFabs ( select_bb . GetWidth ( ) ) > 2 ;
const bool tall_enough = ImFabs ( select_bb . GetHeight ( ) ) > 2 ;
const bool big_enough = wide_enough & & tall_enough ;
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if ( plot . Selecting & & ! gp . LockPlot & & ! ImHasFlag ( plot . Flags , ImPlotFlags_NoBoxSelect ) ) {
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const ImVec4 col = GetStyleColorVec4 ( ImPlotCol_Selection ) ;
const ImU32 col_bg = ImGui : : GetColorU32 ( col * ImVec4 ( 1 , 1 , 1 , 0.25f ) ) ;
const ImU32 col_bd = ImGui : : GetColorU32 ( col ) ;
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if ( IO . KeyMods = = ( gp . InputMap . HorizontalMod | gp . InputMap . VerticalMod ) & & big_enough ) {
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DrawList . AddRectFilled ( gp . BB_Plot . Min , gp . BB_Plot . Max , col_bg ) ;
DrawList . AddRect ( gp . BB_Plot . Min , gp . BB_Plot . Max , col_bd ) ;
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}
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else if ( ( gp . X . Lock | | IO . KeyMods = = gp . InputMap . HorizontalMod ) & & tall_enough ) {
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DrawList . AddRectFilled ( ImVec2 ( gp . BB_Plot . Min . x , select_bb . Min . y ) , ImVec2 ( gp . BB_Plot . Max . x , select_bb . Max . y ) , col_bg ) ;
DrawList . AddRect ( ImVec2 ( gp . BB_Plot . Min . x , select_bb . Min . y ) , ImVec2 ( gp . BB_Plot . Max . x , select_bb . Max . y ) , col_bd ) ;
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}
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else if ( ( any_y_locked | | IO . KeyMods = = gp . InputMap . VerticalMod ) & & wide_enough ) {
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DrawList . AddRectFilled ( ImVec2 ( select_bb . Min . x , gp . BB_Plot . Min . y ) , ImVec2 ( select_bb . Max . x , gp . BB_Plot . Max . y ) , col_bg ) ;
DrawList . AddRect ( ImVec2 ( select_bb . Min . x , gp . BB_Plot . Min . y ) , ImVec2 ( select_bb . Max . x , gp . BB_Plot . Max . y ) , col_bd ) ;
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}
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else if ( big_enough ) {
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DrawList . AddRectFilled ( select_bb . Min , select_bb . Max , col_bg ) ;
DrawList . AddRect ( select_bb . Min , select_bb . Max , col_bd ) ;
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}
}
}
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if ( ImHasFlag ( plot . Flags , ImPlotFlags_Query ) ) // draw query rect only when query enabled.
{
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const ImVec4 col = GetStyleColorVec4 ( ImPlotCol_Query ) ;
const ImU32 col_bd = ImGui : : GetColorU32 ( col * ImVec4 ( 1 , 1 , 1 , 0.25f ) ) ;
const ImU32 col_bg = ImGui : : GetColorU32 ( col ) ;
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if ( plot . Querying | | plot . Queried ) {
if ( plot . QueryRect . GetWidth ( ) > 2 & & plot . QueryRect . GetHeight ( ) > 2 ) {
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DrawList . AddRectFilled ( plot . QueryRect . Min + gp . BB_Plot . Min , plot . QueryRect . Max + gp . BB_Plot . Min , col_bd ) ;
DrawList . AddRect ( plot . QueryRect . Min + gp . BB_Plot . Min , plot . QueryRect . Max + gp . BB_Plot . Min , col_bg ) ;
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}
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}
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else if ( plot . Queried ) {
ImRect bb_query = plot . QueryRect ;
bb_query . Min + = gp . BB_Plot . Min ;
bb_query . Max + = gp . BB_Plot . Min ;
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DrawList . AddRectFilled ( bb_query . Min , bb_query . Max , col_bd ) ;
DrawList . AddRect ( bb_query . Min , bb_query . Max , col_bg ) ;
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}
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}
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// render legend
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const float txt_ht = ImGui : : GetTextLineHeight ( ) ;
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const ImVec2 legend_offset = gp . Style . LegendPadding ;
const ImVec2 legend_spacing ( 5 , 5 ) ;
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const float legend_icon_size = txt_ht ;
ImRect legend_content_bb ;
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int nItems = GetLegendCount ( ) ;
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bool hov_legend = false ;
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if ( ! ImHasFlag ( plot . Flags , ImPlotFlags_NoLegend ) & & nItems > 0 ) {
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// get max width
float max_label_width = 0 ;
for ( int i = 0 ; i < nItems ; + + i ) {
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const char * label = GetLegendLabel ( i ) ;
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ImVec2 labelWidth = ImGui : : CalcTextSize ( label , NULL , true ) ;
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max_label_width = labelWidth . x > max_label_width ? labelWidth . x : max_label_width ;
}
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legend_content_bb = ImRect ( gp . BB_Plot . Min + legend_offset , gp . BB_Plot . Min + legend_offset + ImVec2 ( max_label_width , nItems * txt_ht ) ) ;
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plot . BB_Legend = ImRect ( legend_content_bb . Min , legend_content_bb . Max + legend_spacing * 2 + ImVec2 ( legend_icon_size , 0 ) ) ;
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hov_legend = ! ImHasFlag ( plot . Flags , ImPlotFlags_NoLegend ) ? gp . Hov_Frame & & plot . BB_Legend . Contains ( IO . MousePos ) : false ;
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// render legend box
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ImU32 col_bg = GetStyleColorU32 ( ImPlotCol_LegendBg ) ;
ImU32 col_bd = GetStyleColorU32 ( ImPlotCol_LegendBorder ) ;
ImVec4 col_txt = GetStyleColorVec4 ( ImPlotCol_LegendText ) ;
ImU32 col_txt_dis = ImGui : : GetColorU32 ( col_txt * ImVec4 ( 1 , 1 , 1 , 0.25f ) ) ;
DrawList . AddRectFilled ( plot . BB_Legend . Min , plot . BB_Legend . Max , col_bg ) ;
DrawList . AddRect ( plot . BB_Legend . Min , plot . BB_Legend . Max , col_bd ) ;
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// render each legend item
for ( int i = 0 ; i < nItems ; + + i ) {
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ImPlotItem * item = GetItem ( i ) ;
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ImRect icon_bb ;
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icon_bb . Min = legend_content_bb . Min + legend_spacing + ImVec2 ( 0 , i * txt_ht ) + ImVec2 ( 2 , 2 ) ;
icon_bb . Max = legend_content_bb . Min + legend_spacing + ImVec2 ( 0 , i * txt_ht ) + ImVec2 ( legend_icon_size - 2 , legend_icon_size - 2 ) ;
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ImRect label_bb ;
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label_bb . Min = legend_content_bb . Min + legend_spacing + ImVec2 ( 0 , i * txt_ht ) + ImVec2 ( 2 , 2 ) ;
label_bb . Max = legend_content_bb . Min + legend_spacing + ImVec2 ( 0 , i * txt_ht ) + ImVec2 ( legend_content_bb . Max . x , legend_icon_size - 2 ) ;
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ImU32 col_hl_txt ;
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if ( hov_legend & & ( icon_bb . Contains ( IO . MousePos ) | | label_bb . Contains ( IO . MousePos ) ) ) {
item - > LegendHovered = true ;
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col_hl_txt = ImGui : : GetColorU32 ( ImLerp ( col_txt , item - > Color , 0.25f ) ) ;
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}
else
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{
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item - > LegendHovered = false ;
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col_hl_txt = ImGui : : GetColorU32 ( col_txt ) ;
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}
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ImU32 iconColor ;
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ImVec4 item_color = item - > Color ;
item_color . w = 1 ;
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if ( hov_legend & & icon_bb . Contains ( IO . MousePos ) ) {
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ImVec4 colAlpha = item_color ;
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colAlpha . w = 0.5f ;
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iconColor = item - > Show ? ImGui : : GetColorU32 ( colAlpha )
: ImGui : : GetColorU32 ( ImGuiCol_TextDisabled , 0.5f ) ;
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if ( IO . MouseClicked [ 0 ] )
item - > Show = ! item - > Show ;
} else {
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iconColor = item - > Show ? ImGui : : GetColorU32 ( item_color ) : col_txt_dis ;
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}
DrawList . AddRectFilled ( icon_bb . Min , icon_bb . Max , iconColor , 1 ) ;
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const char * label = GetLegendLabel ( i ) ;
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const char * text_display_end = ImGui : : FindRenderedTextEnd ( label , NULL ) ;
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if ( label ! = text_display_end )
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DrawList . AddText ( legend_content_bb . Min + legend_spacing + ImVec2 ( legend_icon_size , i * txt_ht ) , item - > Show ? col_hl_txt : col_txt_dis , label , text_display_end ) ;
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}
}
// render crosshairs
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if ( ImHasFlag ( plot . Flags , ImPlotFlags_Crosshairs ) & & gp . Hov_Plot & & gp . Hov_Frame & &
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! ( plot . XAxis . Dragging | | any_y_dragging ) & & ! plot . Selecting & & ! plot . Querying & & ! hov_legend ) {
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ImGui : : SetMouseCursor ( ImGuiMouseCursor_None ) ;
ImVec2 xy = IO . MousePos ;
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ImVec2 h1 ( gp . BB_Plot . Min . x , xy . y ) ;
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ImVec2 h2 ( xy . x - 5 , xy . y ) ;
ImVec2 h3 ( xy . x + 5 , xy . y ) ;
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ImVec2 h4 ( gp . BB_Plot . Max . x , xy . y ) ;
ImVec2 v1 ( xy . x , gp . BB_Plot . Min . y ) ;
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ImVec2 v2 ( xy . x , xy . y - 5 ) ;
ImVec2 v3 ( xy . x , xy . y + 5 ) ;
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ImVec2 v4 ( xy . x , gp . BB_Plot . Max . y ) ;
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ImU32 col = GetStyleColorU32 ( ImPlotCol_Crosshairs ) ;
DrawList . AddLine ( h1 , h2 , col ) ;
DrawList . AddLine ( h3 , h4 , col ) ;
DrawList . AddLine ( v1 , v2 , col ) ;
DrawList . AddLine ( v3 , v4 , col ) ;
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}
// render mouse pos
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if ( ! ImHasFlag ( plot . Flags , ImPlotFlags_NoMousePos ) & & gp . Hov_Plot ) {
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char buffer [ 128 ] = { } ;
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ImBufferWriter writer ( buffer , sizeof ( buffer ) ) ;
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// x
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if ( ImHasFlag ( plot . XAxis . Flags , ImPlotAxisFlags_LogScale ) ) {
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writer . Write ( " %.3E " , gp . MousePos [ 0 ] . x ) ;
}
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else if ( ImHasFlag ( plot . XAxis . Flags , ImPlotAxisFlags_Time ) ) {
ImPlotTimeUnit unit = GetUnitForRange ( plot . XAxis . Range . Size ( ) / ( gp . BB_Plot . GetWidth ( ) / 100 ) ) ;
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const int written = gp . Style . Use24HourClock ? FormatTime24 ( ImPlotTime : : FromDouble ( gp . MousePos [ 0 ] . x ) , & writer . Buffer [ writer . Pos ] , writer . Size - writer . Pos - 1 , TimeFormatMouseCursor [ unit ] )
: FormatTime12 ( ImPlotTime : : FromDouble ( gp . MousePos [ 0 ] . x ) , & writer . Buffer [ writer . Pos ] , writer . Size - writer . Pos - 1 , TimeFormatMouseCursor [ unit ] ) ;
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if ( written > 0 )
writer . Pos + = ImMin ( written , writer . Size - writer . Pos - 1 ) ;
}
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else {
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double range_x = gp . XTicks . Size > 1 ? ( gp . XTicks . Ticks [ 1 ] . PlotPos - gp . XTicks . Ticks [ 0 ] . PlotPos ) : plot . XAxis . Range . Size ( ) ;
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writer . Write ( " %.*f " , Precision ( range_x ) , gp . MousePos [ 0 ] . x ) ;
}
// y1
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if ( ImHasFlag ( plot . YAxis [ 0 ] . Flags , ImPlotAxisFlags_LogScale ) ) {
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writer . Write ( " ,%.3E " , gp . MousePos [ 0 ] . y ) ;
}
else {
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double range_y = gp . YTicks [ 0 ] . Size > 1 ? ( gp . YTicks [ 0 ] . Ticks [ 1 ] . PlotPos - gp . YTicks [ 0 ] . Ticks [ 0 ] . PlotPos ) : plot . YAxis [ 0 ] . Range . Size ( ) ;
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writer . Write ( " ,%.*f " , Precision ( range_y ) , gp . MousePos [ 0 ] . y ) ;
}
// y2
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if ( ImHasFlag ( plot . Flags , ImPlotFlags_YAxis2 ) ) {
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if ( ImHasFlag ( plot . YAxis [ 1 ] . Flags , ImPlotAxisFlags_LogScale ) ) {
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writer . Write ( " ,(%.3E) " , gp . MousePos [ 1 ] . y ) ;
}
else {
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double range_y = gp . YTicks [ 1 ] . Size > 1 ? ( gp . YTicks [ 1 ] . Ticks [ 1 ] . PlotPos - gp . YTicks [ 1 ] . Ticks [ 0 ] . PlotPos ) : plot . YAxis [ 1 ] . Range . Size ( ) ;
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writer . Write ( " ,(%.*f) " , Precision ( range_y ) , gp . MousePos [ 1 ] . y ) ;
}
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}
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// y3
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if ( ImHasFlag ( plot . Flags , ImPlotFlags_YAxis3 ) ) {
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if ( ImHasFlag ( plot . YAxis [ 2 ] . Flags , ImPlotAxisFlags_LogScale ) ) {
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writer . Write ( " ,(%.3E) " , gp . MousePos [ 2 ] . y ) ;
}
else {
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double range_y = gp . YTicks [ 2 ] . Size > 1 ? ( gp . YTicks [ 2 ] . Ticks [ 1 ] . PlotPos - gp . YTicks [ 2 ] . Ticks [ 0 ] . PlotPos ) : plot . YAxis [ 2 ] . Range . Size ( ) ;
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writer . Write ( " ,(%.*f) " , Precision ( range_y ) , gp . MousePos [ 2 ] . y ) ;
}
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}
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ImVec2 size = ImGui : : CalcTextSize ( buffer ) ;
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ImVec2 pos = gp . BB_Plot . Max - size - gp . Style . InfoPadding ;
DrawList . AddText ( pos , GetStyleColorU32 ( ImPlotCol_InlayText ) , buffer ) ;
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}
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PopPlotClipRect ( ) ;
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// render border
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if ( gp . Style . PlotBorderSize > 0 )
DrawList . AddRect ( gp . BB_Plot . Min , gp . BB_Plot . Max , GetStyleColorU32 ( ImPlotCol_PlotBorder ) , 0 , ImDrawCornerFlags_All , gp . Style . PlotBorderSize ) ;
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// FIT DATA --------------------------------------------------------------
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if ( gp . FitThisFrame & & ( gp . VisibleItemCount > 0 | | plot . Queried ) ) {
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if ( gp . FitX & & ! ImHasFlag ( plot . XAxis . Flags , ImPlotAxisFlags_LockMin ) & & ! ImNanOrInf ( gp . ExtentsX . Min ) ) {
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plot . XAxis . Range . Min = ( gp . ExtentsX . Min ) ;
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}
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if ( gp . FitX & & ! ImHasFlag ( plot . XAxis . Flags , ImPlotAxisFlags_LockMax ) & & ! ImNanOrInf ( gp . ExtentsX . Max ) ) {
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plot . XAxis . Range . Max = ( gp . ExtentsX . Max ) ;
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}
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if ( ( plot . XAxis . Range . Max - plot . XAxis . Range . Min ) < = ( 2.0 * FLT_EPSILON ) ) {
plot . XAxis . Range . Max + = FLT_EPSILON ;
plot . XAxis . Range . Min - = FLT_EPSILON ;
}
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plot . XAxis . Constrain ( ) ;
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for ( int i = 0 ; i < IMPLOT_Y_AXES ; i + + ) {
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if ( gp . FitY [ i ] & & ! ImHasFlag ( plot . YAxis [ i ] . Flags , ImPlotAxisFlags_LockMin ) & & ! ImNanOrInf ( gp . ExtentsY [ i ] . Min ) ) {
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plot . YAxis [ i ] . Range . Min = ( gp . ExtentsY [ i ] . Min ) ;
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}
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if ( gp . FitY [ i ] & & ! ImHasFlag ( plot . YAxis [ i ] . Flags , ImPlotAxisFlags_LockMax ) & & ! ImNanOrInf ( gp . ExtentsY [ i ] . Max ) ) {
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plot . YAxis [ i ] . Range . Max = ( gp . ExtentsY [ i ] . Max ) ;
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}
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if ( ( plot . YAxis [ i ] . Range . Max - plot . YAxis [ i ] . Range . Min ) < = ( 2.0 * FLT_EPSILON ) ) {
plot . YAxis [ i ] . Range . Max + = FLT_EPSILON ;
plot . YAxis [ i ] . Range . Min - = FLT_EPSILON ;
}
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plot . YAxis [ i ] . Constrain ( ) ;
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}
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}
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// CONTEXT MENUS -----------------------------------------------------------
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if ( ! ImHasFlag ( plot . Flags , ImPlotFlags_NoMenus ) & & gp . Hov_Frame & & gp . Hov_Plot & & IO . MouseDoubleClicked [ gp . InputMap . ContextMenuButton ] & & ! hov_legend )
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ImGui : : OpenPopup ( " ##PlotContext " ) ;
if ( ImGui : : BeginPopup ( " ##PlotContext " ) ) {
ShowPlotContextMenu ( plot ) ;
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ImGui : : EndPopup ( ) ;
}
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if ( ! ImHasFlag ( plot . Flags , ImPlotFlags_NoMenus ) & & gp . Hov_Frame & & plot . XAxis . HoveredExt & & IO . MouseDoubleClicked [ gp . InputMap . ContextMenuButton ] & & ! hov_legend )
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ImGui : : OpenPopup ( " ##XContext " ) ;
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if ( ImGui : : BeginPopup ( " ##XContext " ) ) {
ImGui : : Text ( " X-Axis " ) ; ImGui : : Separator ( ) ;
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ShowAxisContextMenu ( gp . X , true ) ;
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ImGui : : EndPopup ( ) ;
}
for ( int i = 0 ; i < IMPLOT_Y_AXES ; + + i ) {
ImGui : : PushID ( i ) ;
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if ( ! ImHasFlag ( plot . Flags , ImPlotFlags_NoMenus ) & & gp . Hov_Frame & & plot . YAxis [ i ] . HoveredExt & & IO . MouseDoubleClicked [ gp . InputMap . ContextMenuButton ] & & ! hov_legend )
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ImGui : : OpenPopup ( " ##YContext " ) ;
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if ( ImGui : : BeginPopup ( " ##YContext " ) ) {
if ( i = = 0 ) {
ImGui : : Text ( " Y-Axis " ) ; ImGui : : Separator ( ) ;
}
else {
ImGui : : Text ( " Y-Axis %d " , i + 1 ) ; ImGui : : Separator ( ) ;
}
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ShowAxisContextMenu ( gp . Y [ i ] , false ) ;
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ImGui : : EndPopup ( ) ;
}
ImGui : : PopID ( ) ;
}
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// LINKED AXES ------------------------------------------------------------
PushLinkedAxis ( plot . XAxis ) ;
for ( int i = 0 ; i < IMPLOT_Y_AXES ; + + i )
PushLinkedAxis ( plot . YAxis [ i ] ) ;
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// CLEANUP ----------------------------------------------------------------
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// reset the plot items for the next frame
for ( int i = 0 ; i < gp . CurrentPlot - > Items . GetSize ( ) ; + + i ) {
gp . CurrentPlot - > Items . GetByIndex ( i ) - > SeenThisFrame = false ;
}
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// Pop ImGui::PushID at the end of BeginPlot
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ImGui : : PopID ( ) ;
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// Reset context for next plot
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Reset ( GImPlot ) ;
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}
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//-----------------------------------------------------------------------------
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// MISC API
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//-----------------------------------------------------------------------------
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ImPlotInputMap & GetInputMap ( ) {
return GImPlot - > InputMap ;
}
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void SetNextPlotLimits ( double x_min , double x_max , double y_min , double y_max , ImGuiCond cond ) {
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IM_ASSERT_USER_ERROR ( GImPlot - > CurrentPlot = = NULL , " SetNextPlotLimits() needs to be called before BeginPlot()! " ) ;
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SetNextPlotLimitsX ( x_min , x_max , cond ) ;
SetNextPlotLimitsY ( y_min , y_max , cond ) ;
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}
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void SetNextPlotLimitsX ( double x_min , double x_max , ImGuiCond cond ) {
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot = = NULL , " SetNextPlotLSetNextPlotLimitsXimitsY() needs to be called before BeginPlot()! " ) ;
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IM_ASSERT ( cond = = 0 | | ImIsPowerOfTwo ( cond ) ) ; // Make sure the user doesn't attempt to combine multiple condition flags.
gp . NextPlotData . HasXRange = true ;
gp . NextPlotData . XRangeCond = cond ;
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gp . NextPlotData . X . Min = x_min ;
gp . NextPlotData . X . Max = x_max ;
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}
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void SetNextPlotLimitsY ( double y_min , double y_max , ImGuiCond cond , int y_axis ) {
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot = = NULL , " SetNextPlotLimitsY() needs to be called before BeginPlot()! " ) ;
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IM_ASSERT_USER_ERROR ( y_axis > = 0 & & y_axis < IMPLOT_Y_AXES , " y_axis needs to be between 0 and IMPLOT_Y_AXES " ) ;
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IM_ASSERT ( cond = = 0 | | ImIsPowerOfTwo ( cond ) ) ; // Make sure the user doesn't attempt to combine multiple condition flags.
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gp . NextPlotData . HasYRange [ y_axis ] = true ;
gp . NextPlotData . YRangeCond [ y_axis ] = cond ;
gp . NextPlotData . Y [ y_axis ] . Min = y_min ;
gp . NextPlotData . Y [ y_axis ] . Max = y_max ;
}
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void LinkNextPlotLimits ( double * xmin , double * xmax , double * ymin , double * ymax , double * ymin2 , double * ymax2 , double * ymin3 , double * ymax3 ) {
ImPlotContext & gp = * GImPlot ;
gp . NextPlotData . LinkedXmin = xmin ;
gp . NextPlotData . LinkedXmax = xmax ;
gp . NextPlotData . LinkedYmin [ 0 ] = ymin ;
gp . NextPlotData . LinkedYmax [ 0 ] = ymax ;
gp . NextPlotData . LinkedYmin [ 1 ] = ymin2 ;
gp . NextPlotData . LinkedYmax [ 1 ] = ymax2 ;
gp . NextPlotData . LinkedYmin [ 2 ] = ymin3 ;
gp . NextPlotData . LinkedYmax [ 2 ] = ymax3 ;
}
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void FitNextPlotAxes ( bool x , bool y , bool y2 , bool y3 ) {
ImPlotContext & gp = * GImPlot ;
IM_ASSERT_USER_ERROR ( gp . CurrentPlot = = NULL , " FitNextPlotAxes() needs to be called before BeginPlot()! " ) ;
gp . NextPlotData . FitX = x ;
gp . NextPlotData . FitY [ 0 ] = y ;
gp . NextPlotData . FitY [ 1 ] = y2 ;
gp . NextPlotData . FitY [ 2 ] = y3 ;
}
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void SetNextPlotTicksX ( const double * values , int n_ticks , const char * const labels [ ] , bool show_default ) {
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot = = NULL , " SetNextPlotTicksX() needs to be called before BeginPlot()! " ) ;
gp . NextPlotData . ShowDefaultTicksX = show_default ;
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AddTicksCustom ( values , labels , n_ticks , gp . XTicks ) ;
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}
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void SetNextPlotTicksX ( double x_min , double x_max , int n_ticks , const char * const labels [ ] , bool show_default ) {
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IM_ASSERT_USER_ERROR ( n_ticks > 1 , " The number of ticks must be greater than 1 " ) ;
static ImVector < double > buffer ;
FillRange ( buffer , n_ticks , x_min , x_max ) ;
SetNextPlotTicksX ( & buffer [ 0 ] , n_ticks , labels , show_default ) ;
}
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void SetNextPlotTicksY ( const double * values , int n_ticks , const char * const labels [ ] , bool show_default , int y_axis ) {
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot = = NULL , " SetNextPlotTicksY() needs to be called before BeginPlot()! " ) ;
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IM_ASSERT_USER_ERROR ( y_axis > = 0 & & y_axis < IMPLOT_Y_AXES , " y_axis needs to be between 0 and IMPLOT_Y_AXES " ) ;
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gp . NextPlotData . ShowDefaultTicksY [ y_axis ] = show_default ;
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AddTicksCustom ( values , labels , n_ticks , gp . YTicks [ y_axis ] ) ;
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}
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void SetNextPlotTicksY ( double y_min , double y_max , int n_ticks , const char * const labels [ ] , bool show_default , int y_axis ) {
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IM_ASSERT_USER_ERROR ( n_ticks > 1 , " The number of ticks must be greater than 1 " ) ;
static ImVector < double > buffer ;
FillRange ( buffer , n_ticks , y_min , y_max ) ;
SetNextPlotTicksY ( & buffer [ 0 ] , n_ticks , labels , show_default , y_axis ) ;
}
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void SetPlotYAxis ( int y_axis ) {
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot ! = NULL , " SetPlotYAxis() needs to be called between BeginPlot() and EndPlot()! " ) ;
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IM_ASSERT_USER_ERROR ( y_axis > = 0 & & y_axis < IMPLOT_Y_AXES , " y_axis needs to be between 0 and IMPLOT_Y_AXES " ) ;
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gp . CurrentPlot - > CurrentYAxis = y_axis ;
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}
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ImVec2 GetPlotPos ( ) {
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot ! = NULL , " GetPlotPos() needs to be called between BeginPlot() and EndPlot()! " ) ;
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return gp . BB_Plot . Min ;
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}
ImVec2 GetPlotSize ( ) {
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot ! = NULL , " GetPlotSize() needs to be called between BeginPlot() and EndPlot()! " ) ;
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return gp . BB_Plot . GetSize ( ) ;
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}
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ImDrawList * GetPlotDrawList ( ) {
return ImGui : : GetWindowDrawList ( ) ;
}
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void PushPlotClipRect ( ) {
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot ! = NULL , " PushPlotClipRect() needs to be called between BeginPlot() and EndPlot()! " ) ;
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ImGui : : PushClipRect ( gp . BB_Plot . Min , gp . BB_Plot . Max , true ) ;
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}
void PopPlotClipRect ( ) {
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ImGui : : PopClipRect ( ) ;
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}
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bool IsPlotHovered ( ) {
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot ! = NULL , " IsPlotHovered() needs to be called between BeginPlot() and EndPlot()! " ) ;
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return gp . Hov_Frame & & gp . Hov_Plot ;
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}
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bool IsPlotXAxisHovered ( ) {
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot ! = NULL , " IsPlotXAxisHovered() needs to be called between BeginPlot() and EndPlot()! " ) ;
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return gp . CurrentPlot - > XAxis . HoveredExt ;
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}
bool IsPlotYAxisHovered ( int y_axis_in ) {
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( y_axis_in > = - 1 & & y_axis_in < IMPLOT_Y_AXES , " y_axis needs to between -1 and IMPLOT_Y_AXES " ) ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot ! = NULL , " IsPlotYAxisHovered() needs to be called between BeginPlot() and EndPlot()! " ) ;
const int y_axis = y_axis_in > = 0 ? y_axis_in : gp . CurrentPlot - > CurrentYAxis ;
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return gp . CurrentPlot - > YAxis [ y_axis ] . HoveredExt ;
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}
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ImPlotPoint GetPlotMousePos ( int y_axis_in ) {
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( y_axis_in > = - 1 & & y_axis_in < IMPLOT_Y_AXES , " y_axis needs to between -1 and IMPLOT_Y_AXES " ) ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot ! = NULL , " GetPlotMousePos() needs to be called between BeginPlot() and EndPlot()! " ) ;
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const int y_axis = y_axis_in > = 0 ? y_axis_in : gp . CurrentPlot - > CurrentYAxis ;
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return gp . MousePos [ y_axis ] ;
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}
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ImPlotLimits GetPlotLimits ( int y_axis_in ) {
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( y_axis_in > = - 1 & & y_axis_in < IMPLOT_Y_AXES , " y_axis needs to between -1 and IMPLOT_Y_AXES " ) ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot ! = NULL , " GetPlotLimits() needs to be called between BeginPlot() and EndPlot()! " ) ;
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const int y_axis = y_axis_in > = 0 ? y_axis_in : gp . CurrentPlot - > CurrentYAxis ;
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ImPlotState & plot = * gp . CurrentPlot ;
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ImPlotLimits limits ;
limits . X = plot . XAxis . Range ;
limits . Y = plot . YAxis [ y_axis ] . Range ;
return limits ;
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}
bool IsPlotQueried ( ) {
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot ! = NULL , " IsPlotQueried() needs to be called between BeginPlot() and EndPlot()! " ) ;
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return gp . CurrentPlot - > Queried ;
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}
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ImPlotLimits GetPlotQuery ( int y_axis_in ) {
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( y_axis_in > = - 1 & & y_axis_in < IMPLOT_Y_AXES , " y_axis needs to between -1 and IMPLOT_Y_AXES " ) ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot ! = NULL , " GetPlotQuery() needs to be called between BeginPlot() and EndPlot()! " ) ;
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ImPlotState & plot = * gp . CurrentPlot ;
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const int y_axis = y_axis_in > = 0 ? y_axis_in : gp . CurrentPlot - > CurrentYAxis ;
UpdateTransformCache ( ) ;
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ImPlotPoint p1 = PixelsToPlot ( plot . QueryRect . Min + gp . BB_Plot . Min , y_axis ) ;
ImPlotPoint p2 = PixelsToPlot ( plot . QueryRect . Max + gp . BB_Plot . Min , y_axis ) ;
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ImPlotLimits result ;
result . X . Min = ImMin ( p1 . x , p2 . x ) ;
result . X . Max = ImMax ( p1 . x , p2 . x ) ;
result . Y . Min = ImMin ( p1 . y , p2 . y ) ;
result . Y . Max = ImMax ( p1 . y , p2 . y ) ;
return result ;
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}
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bool IsLegendEntryHovered ( const char * label_id ) {
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ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( gp . CurrentPlot ! = NULL , " IsPlotItemHighlight() needs to be called between BeginPlot() and EndPlot()! " ) ;
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ImGuiID id = ImGui : : GetID ( label_id ) ;
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ImPlotItem * item = gp . CurrentPlot - > Items . GetByKey ( id ) ;
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return item & & item - > LegendHovered ;
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}
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bool BeginLegendDragDropSource ( const char * label_id , ImGuiDragDropFlags flags ) {
ImPlotContext & gp = * GImPlot ;
IM_ASSERT_USER_ERROR ( gp . CurrentPlot ! = NULL , " BeginLegendDragDropSource() needs to be called between BeginPlot() and EndPlot()! " ) ;
ImGuiID source_id = ImGui : : GetID ( label_id ) ;
ImPlotItem * item = gp . CurrentPlot - > Items . GetByKey ( source_id ) ;
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bool is_hovered = item & & item - > LegendHovered ;
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ImGuiContext & g = * GImGui ;
ImGuiWindow * window = g . CurrentWindow ;
ImGuiMouseButton mouse_button = ImGuiMouseButton_Left ;
if ( g . IO . MouseDown [ mouse_button ] = = false ) {
if ( g . ActiveId = = source_id )
ImGui : : ClearActiveID ( ) ;
return false ;
}
if ( is_hovered & & g . IO . MouseClicked [ mouse_button ] ) {
ImGui : : SetActiveID ( source_id , window ) ;
ImGui : : FocusWindow ( window ) ;
}
if ( g . ActiveId ! = source_id )
return false ;
// Allow the underlying widget to display/return hovered during the mouse
// release frame, else we would get a flicker.
g . ActiveIdAllowOverlap = is_hovered ;
// Disable navigation and key inputs while dragging
g . ActiveIdUsingNavDirMask = ~ ( ImU32 ) 0 ;
g . ActiveIdUsingNavInputMask = ~ ( ImU32 ) 0 ;
g . ActiveIdUsingKeyInputMask = ~ ( ImU64 ) 0 ;
if ( ImGui : : IsMouseDragging ( mouse_button ) ) {
if ( ! g . DragDropActive ) {
ImGui : : ClearDragDrop ( ) ;
ImGuiPayload & payload = g . DragDropPayload ;
payload . SourceId = source_id ;
payload . SourceParentId = 0 ;
g . DragDropActive = true ;
g . DragDropSourceFlags = 0 ;
g . DragDropMouseButton = mouse_button ;
}
g . DragDropSourceFrameCount = g . FrameCount ;
g . DragDropWithinSource = true ;
if ( ! ( flags & ImGuiDragDropFlags_SourceNoPreviewTooltip ) ) {
// Target can request the Source to not display its tooltip (we use a
// dedicated flag to make this request explicit) We unfortunately can't
// just modify the source flags and skip the call to BeginTooltip, as
// caller may be emitting contents.
ImGui : : BeginTooltip ( ) ;
if ( g . DragDropAcceptIdPrev & & ( g . DragDropAcceptFlags & ImGuiDragDropFlags_AcceptNoPreviewTooltip ) ) {
ImGuiWindow * tooltip_window = g . CurrentWindow ;
tooltip_window - > SkipItems = true ;
tooltip_window - > HiddenFramesCanSkipItems = 1 ;
}
}
return true ;
}
return false ;
}
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void EndLegendDragDropSource ( ) {
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ImGui : : EndDragDropSource ( ) ;
}
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bool BeginLegendPopup ( const char * label_id , ImGuiMouseButton mouse_button ) {
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ImPlotContext & gp = * GImPlot ;
IM_ASSERT_USER_ERROR ( gp . CurrentPlot ! = NULL , " BeginLegendPopup() needs to be called between BeginPlot() and EndPlot()! " ) ;
ImGuiWindow * window = GImGui - > CurrentWindow ;
if ( window - > SkipItems )
return false ;
ImGuiID id = ImGui : : GetID ( label_id ) ;
if ( ImGui : : IsMouseReleased ( mouse_button ) ) {
ImPlotItem * item = gp . CurrentPlot - > Items . GetByKey ( id ) ;
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if ( item & & item - > LegendHovered )
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ImGui : : OpenPopupEx ( id ) ;
}
return ImGui : : BeginPopupEx ( id , ImGuiWindowFlags_AlwaysAutoResize | ImGuiWindowFlags_NoTitleBar | ImGuiWindowFlags_NoSavedSettings ) ;
}
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void EndLegendPopup ( ) {
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ImGui : : EndPopup ( ) ;
}
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//-----------------------------------------------------------------------------
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// STYLING
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//-----------------------------------------------------------------------------
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ImPlotStyle & GetStyle ( ) {
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ImPlotContext & gp = * GImPlot ;
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return gp . Style ;
}
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void PushStyleColor ( ImPlotCol idx , ImU32 col ) {
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ImPlotContext & gp = * GImPlot ;
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ImGuiColorMod backup ;
backup . Col = idx ;
backup . BackupValue = gp . Style . Colors [ idx ] ;
gp . ColorModifiers . push_back ( backup ) ;
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gp . Style . Colors [ idx ] = ImGui : : ColorConvertU32ToFloat4 ( col ) ;
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}
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void PushStyleColor ( ImPlotCol idx , const ImVec4 & col ) {
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ImPlotContext & gp = * GImPlot ;
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ImGuiColorMod backup ;
backup . Col = idx ;
backup . BackupValue = gp . Style . Colors [ idx ] ;
gp . ColorModifiers . push_back ( backup ) ;
gp . Style . Colors [ idx ] = col ;
}
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void PopStyleColor ( int count ) {
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ImPlotContext & gp = * GImPlot ;
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while ( count > 0 )
{
ImGuiColorMod & backup = gp . ColorModifiers . back ( ) ;
gp . Style . Colors [ backup . Col ] = backup . BackupValue ;
gp . ColorModifiers . pop_back ( ) ;
count - - ;
}
}
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void PushStyleVar ( ImPlotStyleVar idx , float val ) {
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ImPlotContext & gp = * GImPlot ;
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const ImPlotStyleVarInfo * var_info = GetPlotStyleVarInfo ( idx ) ;
if ( var_info - > Type = = ImGuiDataType_Float & & var_info - > Count = = 1 ) {
float * pvar = ( float * ) var_info - > GetVarPtr ( & gp . Style ) ;
gp . StyleModifiers . push_back ( ImGuiStyleMod ( idx , * pvar ) ) ;
* pvar = val ;
return ;
}
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IM_ASSERT ( 0 & & " Called PushStyleVar() float variant but variable is not a float! " ) ;
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}
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void PushStyleVar ( ImPlotStyleVar idx , int val ) {
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ImPlotContext & gp = * GImPlot ;
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const ImPlotStyleVarInfo * var_info = GetPlotStyleVarInfo ( idx ) ;
if ( var_info - > Type = = ImGuiDataType_S32 & & var_info - > Count = = 1 ) {
int * pvar = ( int * ) var_info - > GetVarPtr ( & gp . Style ) ;
gp . StyleModifiers . push_back ( ImGuiStyleMod ( idx , * pvar ) ) ;
* pvar = val ;
return ;
}
else if ( var_info - > Type = = ImGuiDataType_Float & & var_info - > Count = = 1 ) {
float * pvar = ( float * ) var_info - > GetVarPtr ( & gp . Style ) ;
gp . StyleModifiers . push_back ( ImGuiStyleMod ( idx , * pvar ) ) ;
* pvar = ( float ) val ;
return ;
}
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IM_ASSERT ( 0 & & " Called PushStyleVar() int variant but variable is not a int! " ) ;
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}
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void PushStyleVar ( ImGuiStyleVar idx , const ImVec2 & val )
{
ImPlotContext & gp = * GImPlot ;
const ImPlotStyleVarInfo * var_info = GetPlotStyleVarInfo ( idx ) ;
if ( var_info - > Type = = ImGuiDataType_Float & & var_info - > Count = = 2 )
{
ImVec2 * pvar = ( ImVec2 * ) var_info - > GetVarPtr ( & gp . Style ) ;
gp . StyleModifiers . push_back ( ImGuiStyleMod ( idx , * pvar ) ) ;
* pvar = val ;
return ;
}
IM_ASSERT ( 0 & & " Called PushStyleVar() ImVec2 variant but variable is not a ImVec2! " ) ;
}
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void PopStyleVar ( int count ) {
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ImPlotContext & gp = * GImPlot ;
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while ( count > 0 ) {
ImGuiStyleMod & backup = gp . StyleModifiers . back ( ) ;
const ImPlotStyleVarInfo * info = GetPlotStyleVarInfo ( backup . VarIdx ) ;
void * data = info - > GetVarPtr ( & gp . Style ) ;
if ( info - > Type = = ImGuiDataType_Float & & info - > Count = = 1 ) {
( ( float * ) data ) [ 0 ] = backup . BackupFloat [ 0 ] ;
}
else if ( info - > Type = = ImGuiDataType_Float & & info - > Count = = 2 ) {
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( ( float * ) data ) [ 0 ] = backup . BackupFloat [ 0 ] ;
( ( float * ) data ) [ 1 ] = backup . BackupFloat [ 1 ] ;
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}
else if ( info - > Type = = ImGuiDataType_S32 & & info - > Count = = 1 ) {
( ( int * ) data ) [ 0 ] = backup . BackupInt [ 0 ] ;
}
gp . StyleModifiers . pop_back ( ) ;
count - - ;
}
}
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//------------------------------------------------------------------------------
// COLORMAPS
//------------------------------------------------------------------------------
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void PushColormap ( ImPlotColormap colormap ) {
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ImPlotContext & gp = * GImPlot ;
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gp . ColormapModifiers . push_back ( ImPlotColormapMod ( gp . Colormap , gp . ColormapSize ) ) ;
gp . Colormap = GetColormap ( colormap , & gp . ColormapSize ) ;
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}
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void PushColormap ( const ImVec4 * colormap , int size ) {
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ImPlotContext & gp = * GImPlot ;
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gp . ColormapModifiers . push_back ( ImPlotColormapMod ( gp . Colormap , gp . ColormapSize ) ) ;
gp . Colormap = colormap ;
gp . ColormapSize = size ;
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}
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void PopColormap ( int count ) {
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ImPlotContext & gp = * GImPlot ;
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while ( count > 0 ) {
const ImPlotColormapMod & backup = gp . ColormapModifiers . back ( ) ;
gp . Colormap = backup . Colormap ;
gp . ColormapSize = backup . ColormapSize ;
gp . ColormapModifiers . pop_back ( ) ;
count - - ;
}
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}
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void SetColormap ( ImPlotColormap colormap , int samples ) {
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ImPlotContext & gp = * GImPlot ;
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gp . Colormap = GetColormap ( colormap , & gp . ColormapSize ) ;
if ( samples > 1 ) {
static ImVector < ImVec4 > resampled ;
resampled . resize ( samples ) ;
ResampleColormap ( gp . Colormap , gp . ColormapSize , & resampled [ 0 ] , samples ) ;
SetColormap ( & resampled [ 0 ] , samples ) ;
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}
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else {
BustItemCache ( ) ;
}
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}
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void SetColormap ( const ImVec4 * colors , int size ) {
ImPlotContext & gp = * GImPlot ;
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IM_ASSERT_USER_ERROR ( colors ! = NULL , " You can't set the colors to NULL! " ) ;
IM_ASSERT_USER_ERROR ( size > 0 , " The number of colors must be greater than 0! " ) ;
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static ImVector < ImVec4 > user_colormap ;
user_colormap . shrink ( 0 ) ;
user_colormap . reserve ( size ) ;
for ( int i = 0 ; i < size ; + + i )
user_colormap . push_back ( colors [ i ] ) ;
gp . Colormap = & user_colormap [ 0 ] ;
gp . ColormapSize = size ;
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BustItemCache ( ) ;
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}
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const ImVec4 * GetColormap ( ImPlotColormap colormap , int * size_out ) {
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static const int csizes [ ImPlotColormap_COUNT ] = { 10 , 10 , 9 , 9 , 12 , 11 , 11 , 11 , 11 , 11 , 11 } ;
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static const ImOffsetCalculator < ImPlotColormap_COUNT > coffs ( csizes ) ;
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static ImVec4 cdata [ ] = {
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// ImPlotColormap_Default // X11 Named Colors
ImVec4 ( 0.0f , 0.7490196228f , 1.0f , 1.0f ) , // Blues::DeepSkyBlue,
ImVec4 ( 1.0f , 0.0f , 0.0f , 1.0f ) , // Reds::Red,
ImVec4 ( 0.4980392158f , 1.0f , 0.0f , 1.0f ) , // Greens::Chartreuse,
ImVec4 ( 1.0f , 1.0f , 0.0f , 1.0f ) , // Yellows::Yellow,
ImVec4 ( 0.0f , 1.0f , 1.0f , 1.0f ) , // Cyans::Cyan,
ImVec4 ( 1.0f , 0.6470588446f , 0.0f , 1.0f ) , // Oranges::Orange,
ImVec4 ( 1.0f , 0.0f , 1.0f , 1.0f ) , // Purples::Magenta,
ImVec4 ( 0.5411764979f , 0.1686274558f , 0.8862745166f , 1.0f ) , // Purples::BlueViolet,
ImVec4 ( 0.5f , 0.5f , 0.5f , 1.0f ) , // Grays::Gray50,
ImVec4 ( 0.8235294223f , 0.7058823705f , 0.5490196347f , 1.0f ) , // Browns::Tan
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// ImPlotColormap_Deep
ImVec4 ( 0.298f , 0.447f , 0.690f , 1.000f ) ,
ImVec4 ( 0.867f , 0.518f , 0.322f , 1.000f ) ,
ImVec4 ( 0.333f , 0.659f , 0.408f , 1.000f ) ,
ImVec4 ( 0.769f , 0.306f , 0.322f , 1.000f ) ,
ImVec4 ( 0.506f , 0.446f , 0.702f , 1.000f ) ,
ImVec4 ( 0.576f , 0.471f , 0.376f , 1.000f ) ,
ImVec4 ( 0.855f , 0.545f , 0.765f , 1.000f ) ,
ImVec4 ( 0.549f , 0.549f , 0.549f , 1.000f ) ,
ImVec4 ( 0.800f , 0.725f , 0.455f , 1.000f ) ,
ImVec4 ( 0.392f , 0.710f , 0.804f , 1.000f ) ,
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// ImPlotColormap_Dark
ImVec4 ( 0.894118f , 0.101961f , 0.109804f , 1.0f ) ,
ImVec4 ( 0.215686f , 0.494118f , 0.721569f , 1.0f ) ,
ImVec4 ( 0.301961f , 0.686275f , 0.290196f , 1.0f ) ,
ImVec4 ( 0.596078f , 0.305882f , 0.639216f , 1.0f ) ,
ImVec4 ( 1.000000f , 0.498039f , 0.000000f , 1.0f ) ,
ImVec4 ( 1.000000f , 1.000000f , 0.200000f , 1.0f ) ,
ImVec4 ( 0.650980f , 0.337255f , 0.156863f , 1.0f ) ,
ImVec4 ( 0.968627f , 0.505882f , 0.749020f , 1.0f ) ,
ImVec4 ( 0.600000f , 0.600000f , 0.600000f , 1.0f ) ,
// ImPlotColormap_Pastel
ImVec4 ( 0.984314f , 0.705882f , 0.682353f , 1.0f ) ,
ImVec4 ( 0.701961f , 0.803922f , 0.890196f , 1.0f ) ,
ImVec4 ( 0.800000f , 0.921569f , 0.772549f , 1.0f ) ,
ImVec4 ( 0.870588f , 0.796078f , 0.894118f , 1.0f ) ,
ImVec4 ( 0.996078f , 0.850980f , 0.650980f , 1.0f ) ,
ImVec4 ( 1.000000f , 1.000000f , 0.800000f , 1.0f ) ,
ImVec4 ( 0.898039f , 0.847059f , 0.741176f , 1.0f ) ,
ImVec4 ( 0.992157f , 0.854902f , 0.925490f , 1.0f ) ,
ImVec4 ( 0.949020f , 0.949020f , 0.949020f , 1.0f ) ,
// ImPlotColormap_Paired
ImVec4 ( 0.258824f , 0.807843f , 0.890196f , 1.0f ) ,
ImVec4 ( 0.121569f , 0.470588f , 0.705882f , 1.0f ) ,
ImVec4 ( 0.698039f , 0.874510f , 0.541176f , 1.0f ) ,
ImVec4 ( 0.200000f , 0.627451f , 0.172549f , 1.0f ) ,
ImVec4 ( 0.984314f , 0.603922f , 0.600000f , 1.0f ) ,
ImVec4 ( 0.890196f , 0.101961f , 0.109804f , 1.0f ) ,
ImVec4 ( 0.992157f , 0.749020f , 0.435294f , 1.0f ) ,
ImVec4 ( 1.000000f , 0.498039f , 0.000000f , 1.0f ) ,
ImVec4 ( 0.792157f , 0.698039f , 0.839216f , 1.0f ) ,
ImVec4 ( 0.415686f , 0.239216f , 0.603922f , 1.0f ) ,
ImVec4 ( 1.000000f , 1.000000f , 0.600000f , 1.0f ) ,
ImVec4 ( 0.694118f , 0.349020f , 0.156863f , 1.0f ) ,
// ImPlotColormap_Viridis
ImVec4 ( 0.267004f , 0.004874f , 0.329415f , 1.0f ) ,
ImVec4 ( 0.282623f , 0.140926f , 0.457517f , 1.0f ) ,
ImVec4 ( 0.253935f , 0.265254f , 0.529983f , 1.0f ) ,
ImVec4 ( 0.206756f , 0.371758f , 0.553117f , 1.0f ) ,
ImVec4 ( 0.163625f , 0.471133f , 0.558148f , 1.0f ) ,
ImVec4 ( 0.127568f , 0.566949f , 0.550556f , 1.0f ) ,
ImVec4 ( 0.134692f , 0.658636f , 0.517649f , 1.0f ) ,
ImVec4 ( 0.266941f , 0.748751f , 0.440573f , 1.0f ) ,
ImVec4 ( 0.477504f , 0.821444f , 0.318195f , 1.0f ) ,
ImVec4 ( 0.741388f , 0.873449f , 0.149561f , 1.0f ) ,
ImVec4 ( 0.993248f , 0.906157f , 0.143936f , 1.0f ) ,
// ImPlotColormap_Plasma
ImVec4 ( 5.03830e-02 f , 2.98030e-02 f , 5.27975e-01 f , 1.00000e+00 f ) ,
ImVec4 ( 2.54627e-01 f , 1.38820e-02 f , 6.15419e-01 f , 1.00000e+00 f ) ,
ImVec4 ( 4.17642e-01 f , 5.64000e-04 f , 6.58390e-01 f , 1.00000e+00 f ) ,
ImVec4 ( 5.62738e-01 f , 5.15450e-02 f , 6.41509e-01 f , 1.00000e+00 f ) ,
ImVec4 ( 6.92840e-01 f , 1.65141e-01 f , 5.64522e-01 f , 1.00000e+00 f ) ,
ImVec4 ( 7.98216e-01 f , 2.80197e-01 f , 4.69538e-01 f , 1.00000e+00 f ) ,
ImVec4 ( 8.81443e-01 f , 3.92529e-01 f , 3.83229e-01 f , 1.00000e+00 f ) ,
ImVec4 ( 9.49217e-01 f , 5.17763e-01 f , 2.95662e-01 f , 1.00000e+00 f ) ,
ImVec4 ( 9.88260e-01 f , 6.52325e-01 f , 2.11364e-01 f , 1.00000e+00 f ) ,
ImVec4 ( 9.88648e-01 f , 8.09579e-01 f , 1.45357e-01 f , 1.00000e+00 f ) ,
ImVec4 ( 9.40015e-01 f , 9.75158e-01 f , 1.31326e-01 f , 1.00000e+00 f ) ,
// ImPlotColormap_Hot
ImVec4 ( 0.2500f , 0.f , 0.f , 1.0f ) ,
ImVec4 ( 0.5000f , 0.f , 0.f , 1.0f ) ,
ImVec4 ( 0.7500f , 0.f , 0.f , 1.0f ) ,
ImVec4 ( 1.0000f , 0.f , 0.f , 1.0f ) ,
ImVec4 ( 1.0000f , 0.2500f , 0.f , 1.0f ) ,
ImVec4 ( 1.0000f , 0.5000f , 0.f , 1.0f ) ,
ImVec4 ( 1.0000f , 0.7500f , 0.f , 1.0f ) ,
ImVec4 ( 1.0000f , 1.0000f , 0.f , 1.0f ) ,
ImVec4 ( 1.0000f , 1.0000f , 0.3333f , 1.0f ) ,
ImVec4 ( 1.0000f , 1.0000f , 0.6667f , 1.0f ) ,
ImVec4 ( 1.0000f , 1.0000f , 1.0000f , 1.0f ) ,
// ImPlotColormap_Cool
ImVec4 ( 0.f , 1.0000f , 1.0000f , 1.0f ) ,
ImVec4 ( 0.1000f , 0.9000f , 1.0000f , 1.0f ) ,
ImVec4 ( 0.2000f , 0.8000f , 1.0000f , 1.0f ) ,
ImVec4 ( 0.3000f , 0.7000f , 1.0000f , 1.0f ) ,
ImVec4 ( 0.4000f , 0.6000f , 1.0000f , 1.0f ) ,
ImVec4 ( 0.5000f , 0.5000f , 1.0000f , 1.0f ) ,
ImVec4 ( 0.6000f , 0.4000f , 1.0000f , 1.0f ) ,
ImVec4 ( 0.7000f , 0.3000f , 1.0000f , 1.0f ) ,
ImVec4 ( 0.8000f , 0.2000f , 1.0000f , 1.0f ) ,
ImVec4 ( 0.9000f , 0.1000f , 1.0000f , 1.0f ) ,
ImVec4 ( 1.0000f , 0.f , 1.0000f , 1.0f ) ,
// ImPlotColormap_Pink
ImVec4 ( 0.2887f , 0.f , 0.f , 1.0f ) ,
ImVec4 ( 0.4830f , 0.2582f , 0.2582f , 1.0f ) ,
ImVec4 ( 0.6191f , 0.3651f , 0.3651f , 1.0f ) ,
ImVec4 ( 0.7303f , 0.4472f , 0.4472f , 1.0f ) ,
ImVec4 ( 0.7746f , 0.5916f , 0.5164f , 1.0f ) ,
ImVec4 ( 0.8165f , 0.7071f , 0.5774f , 1.0f ) ,
ImVec4 ( 0.8563f , 0.8062f , 0.6325f , 1.0f ) ,
ImVec4 ( 0.8944f , 0.8944f , 0.6831f , 1.0f ) ,
ImVec4 ( 0.9309f , 0.9309f , 0.8028f , 1.0f ) ,
ImVec4 ( 0.9661f , 0.9661f , 0.9068f , 1.0f ) ,
ImVec4 ( 1.0000f , 1.0000f , 1.0000f , 1.0f ) ,
// ImPlotColormap_Jet
ImVec4 ( 0.f , 0.f , 0.6667f , 1.0f ) ,
ImVec4 ( 0.f , 0.f , 1.0000f , 1.0f ) ,
ImVec4 ( 0.f , 0.3333f , 1.0000f , 1.0f ) ,
ImVec4 ( 0.f , 0.6667f , 1.0000f , 1.0f ) ,
ImVec4 ( 0.f , 1.0000f , 1.0000f , 1.0f ) ,
ImVec4 ( 0.3333f , 1.0000f , 0.6667f , 1.0f ) ,
ImVec4 ( 0.6667f , 1.0000f , 0.3333f , 1.0f ) ,
ImVec4 ( 1.0000f , 1.0000f , 0.f , 1.0f ) ,
ImVec4 ( 1.0000f , 0.6667f , 0.f , 1.0f ) ,
ImVec4 ( 1.0000f , 0.3333f , 0.f , 1.0f ) ,
ImVec4 ( 1.0000f , 0.f , 0.f , 1.0f )
} ;
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* size_out = csizes [ colormap ] ;
return & cdata [ coffs . Offsets [ colormap ] ] ;
}
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const char * GetColormapName ( ImPlotColormap colormap ) {
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static const char * cmap_names [ ] = { " Default " , " Deep " , " Dark " , " Pastel " , " Paired " , " Viridis " , " Plasma " , " Hot " , " Cool " , " Pink " , " Jet " } ;
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return cmap_names [ colormap ] ;
}
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void ResampleColormap ( const ImVec4 * colormap_in , int size_in , ImVec4 * colormap_out , int size_out ) {
for ( int i = 0 ; i < size_out ; + + i ) {
float t = i * 1.0f / ( size_out - 1 ) ;
colormap_out [ i ] = LerpColormap ( colormap_in , size_in , t ) ;
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}
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}
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int GetColormapSize ( ) {
ImPlotContext & gp = * GImPlot ;
return gp . ColormapSize ;
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}
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ImVec4 GetColormapColor ( int index ) {
ImPlotContext & gp = * GImPlot ;
IM_ASSERT_USER_ERROR ( index > = 0 , " The Colormap index must be greater than zero! " ) ;
return gp . Colormap [ index % gp . ColormapSize ] ;
}
ImVec4 LerpColormap ( const ImVec4 * colormap , int size , float t ) {
float tc = ImClamp ( t , 0.0f , 1.0f ) ;
int i1 = ( int ) ( ( size - 1 ) * tc ) ;
int i2 = i1 + 1 ;
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if ( i2 = = size | | size = = 1 )
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return colormap [ i1 ] ;
float t1 = ( float ) i1 / ( float ) ( size - 1 ) ;
float t2 = ( float ) i2 / ( float ) ( size - 1 ) ;
float tr = ImRemap ( t , t1 , t2 , 0.0f , 1.0f ) ;
return ImLerp ( colormap [ i1 ] , colormap [ i2 ] , tr ) ;
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}
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ImVec4 LerpColormap ( float t ) {
ImPlotContext & gp = * GImPlot ;
return LerpColormap ( gp . Colormap , gp . ColormapSize , t ) ;
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}
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ImVec4 NextColormapColor ( ) {
ImPlotContext & gp = * GImPlot ;
IM_ASSERT_USER_ERROR ( gp . CurrentPlot ! = NULL , " NextColormapColor() needs to be called between BeginPlot() and EndPlot()! " ) ;
ImVec4 col = gp . Colormap [ gp . CurrentPlot - > ColormapIdx % gp . ColormapSize ] ;
gp . CurrentPlot - > ColormapIdx + + ;
return col ;
}
void ShowColormapScale ( double scale_min , double scale_max , float height ) {
ImPlotContext & gp = * GImPlot ;
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static ImPlotTickCollection ticks ;
ticks . Reset ( ) ;
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ImPlotRange range ;
range . Min = scale_min ;
range . Max = scale_max ;
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AddTicksDefault ( range , 10 , 0 , ticks ) ;
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ImGuiContext & G = * GImGui ;
ImGuiWindow * Window = G . CurrentWindow ;
if ( Window - > SkipItems )
return ;
const float txt_off = 5 ;
const float bar_w = 20 ;
ImDrawList & DrawList = * Window - > DrawList ;
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ImVec2 size ( bar_w + txt_off + ticks . MaxWidth + 2 * gp . Style . PlotPadding . x , height ) ;
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ImRect bb_frame = ImRect ( Window - > DC . CursorPos , Window - > DC . CursorPos + size ) ;
ImGui : : ItemSize ( bb_frame ) ;
if ( ! ImGui : : ItemAdd ( bb_frame , 0 , & bb_frame ) )
return ;
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ImGui : : RenderFrame ( bb_frame . Min , bb_frame . Max , GetStyleColorU32 ( ImPlotCol_FrameBg ) ) ;
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ImRect bb_grad ( bb_frame . Min + gp . Style . PlotPadding , bb_frame . Min + ImVec2 ( bar_w + gp . Style . PlotPadding . x , height - gp . Style . PlotPadding . y ) ) ;
int num_cols = GetColormapSize ( ) ;
float h_step = ( height - 2 * gp . Style . PlotPadding . y ) / ( num_cols - 1 ) ;
for ( int i = 0 ; i < num_cols - 1 ; + + i ) {
ImRect rect ( bb_grad . Min . x , bb_grad . Min . y + h_step * i , bb_grad . Max . x , bb_grad . Min . y + h_step * ( i + 1 ) ) ;
ImU32 col1 = ImGui : : GetColorU32 ( GetColormapColor ( num_cols - 1 - i ) ) ;
ImU32 col2 = ImGui : : GetColorU32 ( GetColormapColor ( num_cols - 1 - ( i + 1 ) ) ) ;
DrawList . AddRectFilledMultiColor ( rect . Min , rect . Max , col1 , col1 , col2 , col2 ) ;
}
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ImVec4 col_tik4 = ImGui : : GetStyleColorVec4 ( ImGuiCol_Text ) ;
col_tik4 . w * = 0.25f ;
const ImU32 col_tick = ImGui : : GetColorU32 ( col_tik4 ) ;
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ImGui : : PushClipRect ( bb_frame . Min , bb_frame . Max , true ) ;
for ( int i = 0 ; i < ticks . Size ; + + i ) {
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float ypos = ImRemap ( ( float ) ticks . Ticks [ i ] . PlotPos , ( float ) range . Max , ( float ) range . Min , bb_grad . Min . y , bb_grad . Max . y ) ;
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if ( ypos < bb_grad . Max . y - 2 & & ypos > bb_grad . Min . y + 2 )
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DrawList . AddLine ( ImVec2 ( bb_grad . Max . x - 1 , ypos ) , ImVec2 ( bb_grad . Max . x - ( ticks . Ticks [ i ] . Major ? 10.0f : 5.0f ) , ypos ) , col_tick , 1.0f ) ;
DrawList . AddText ( ImVec2 ( bb_grad . Max . x - 1 , ypos ) + ImVec2 ( txt_off , - ticks . Ticks [ i ] . LabelSize . y * 0.5f ) , GetStyleColorU32 ( ImPlotCol_TitleText ) , ticks . GetLabel ( i ) ) ;
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}
ImGui : : PopClipRect ( ) ;
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DrawList . AddRect ( bb_grad . Min , bb_grad . Max , GetStyleColorU32 ( ImPlotCol_PlotBorder ) ) ;
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}
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//-----------------------------------------------------------------------------
// Style Editor etc.
//-----------------------------------------------------------------------------
static void HelpMarker ( const char * desc ) {
ImGui : : TextDisabled ( " (?) " ) ;
if ( ImGui : : IsItemHovered ( ) ) {
ImGui : : BeginTooltip ( ) ;
ImGui : : PushTextWrapPos ( ImGui : : GetFontSize ( ) * 35.0f ) ;
ImGui : : TextUnformatted ( desc ) ;
ImGui : : PopTextWrapPos ( ) ;
ImGui : : EndTooltip ( ) ;
}
}
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bool ShowStyleSelector ( const char * label )
{
static int style_idx = - 1 ;
if ( ImGui : : Combo ( label , & style_idx , " Auto \0 Classic \0 Dark \0 Light \0 " ) )
{
switch ( style_idx )
{
case 0 : StyleColorsAuto ( ) ; break ;
case 1 : StyleColorsClassic ( ) ; break ;
case 2 : StyleColorsDark ( ) ; break ;
case 3 : StyleColorsLight ( ) ; break ;
}
return true ;
}
return false ;
}
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void ShowStyleEditor ( ImPlotStyle * ref ) {
ImPlotContext & gp = * GImPlot ;
ImPlotStyle & style = GetStyle ( ) ;
static ImPlotStyle ref_saved_style ;
// Default to using internal storage as reference
static bool init = true ;
if ( init & & ref = = NULL )
ref_saved_style = style ;
init = false ;
if ( ref = = NULL )
ref = & ref_saved_style ;
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if ( ImPlot : : ShowStyleSelector ( " Colors##Selector " ) )
ref_saved_style = style ;
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// Save/Revert button
if ( ImGui : : Button ( " Save Ref " ) )
* ref = ref_saved_style = style ;
ImGui : : SameLine ( ) ;
if ( ImGui : : Button ( " Revert Ref " ) )
style = * ref ;
ImGui : : SameLine ( ) ;
HelpMarker ( " Save/Revert in local non-persistent storage. Default Colors definition are not affected. "
" Use \" Export \" below to save them somewhere. " ) ;
if ( ImGui : : BeginTabBar ( " ##StyleEditor " ) ) {
if ( ImGui : : BeginTabItem ( " Variables " ) ) {
ImGui : : Text ( " Item Styling " ) ;
ImGui : : SliderFloat ( " LineWeight " , & style . LineWeight , 0.0f , 5.0f , " %.1f " ) ;
ImGui : : SliderFloat ( " MarkerSize " , & style . MarkerSize , 2.0f , 10.0f , " %.1f " ) ;
ImGui : : SliderFloat ( " MarkerWeight " , & style . MarkerWeight , 0.0f , 5.0f , " %.1f " ) ;
ImGui : : SliderFloat ( " FillAlpha " , & style . FillAlpha , 0.0f , 1.0f , " %.2f " ) ;
ImGui : : SliderFloat ( " ErrorBarSize " , & style . ErrorBarSize , 0.0f , 10.0f , " %.1f " ) ;
ImGui : : SliderFloat ( " ErrorBarWeight " , & style . ErrorBarWeight , 0.0f , 5.0f , " %.1f " ) ;
ImGui : : SliderFloat ( " DigitalBitHeight " , & style . DigitalBitHeight , 0.0f , 20.0f , " %.1f " ) ;
ImGui : : SliderFloat ( " DigitalBitGap " , & style . DigitalBitGap , 0.0f , 20.0f , " %.1f " ) ;
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float indent = ImGui : : CalcItemWidth ( ) - ImGui : : GetFrameHeight ( ) ;
ImGui : : Indent ( ImGui : : CalcItemWidth ( ) - ImGui : : GetFrameHeight ( ) ) ;
ImGui : : Checkbox ( " AntiAliasedLines " , & style . AntiAliasedLines ) ;
ImGui : : Unindent ( indent ) ;
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ImGui : : Text ( " Plot Styling " ) ;
ImGui : : SliderFloat ( " PlotBorderSize " , & style . PlotBorderSize , 0.0f , 2.0f , " %.0f " ) ;
ImGui : : SliderFloat ( " MinorAlpha " , & style . MinorAlpha , 0.0f , 1.0f , " %.2f " ) ;
ImGui : : SliderFloat2 ( " MajorTickLen " , ( float * ) & style . MajorTickLen , 0.0f , 20.0f , " %.0f " ) ;
ImGui : : SliderFloat2 ( " MinorTickLen " , ( float * ) & style . MinorTickLen , 0.0f , 20.0f , " %.0f " ) ;
ImGui : : SliderFloat2 ( " MajorTickSize " , ( float * ) & style . MajorTickSize , 0.0f , 2.0f , " %.1f " ) ;
ImGui : : SliderFloat2 ( " MinorTickSize " , ( float * ) & style . MinorTickSize , 0.0f , 2.0f , " %.1f " ) ;
ImGui : : SliderFloat2 ( " MajorGridSize " , ( float * ) & style . MajorGridSize , 0.0f , 2.0f , " %.1f " ) ;
ImGui : : SliderFloat2 ( " MinorGridSize " , ( float * ) & style . MinorGridSize , 0.0f , 2.0f , " %.1f " ) ;
ImGui : : Text ( " Plot Padding " ) ;
ImGui : : SliderFloat2 ( " PlotPadding " , ( float * ) & style . PlotPadding , 0.0f , 20.0f , " %.0f " ) ;
ImGui : : SliderFloat2 ( " LabelPadding " , ( float * ) & style . LabelPadding , 0.0f , 20.0f , " %.0f " ) ;
ImGui : : SliderFloat2 ( " LegendPadding " , ( float * ) & style . LegendPadding , 0.0f , 20.0f , " %.0f " ) ;
ImGui : : SliderFloat2 ( " InfoPadding " , ( float * ) & style . InfoPadding , 0.0f , 20.0f , " %.0f " ) ;
ImGui : : SliderFloat2 ( " PlotMinSize " , ( float * ) & style . PlotMinSize , 0.0f , 300 , " %.0f " ) ;
ImGui : : EndTabItem ( ) ;
}
if ( ImGui : : BeginTabItem ( " Colors " ) ) {
static int output_dest = 0 ;
static bool output_only_modified = false ;
if ( ImGui : : Button ( " Export " , ImVec2 ( 75 , 0 ) ) ) {
if ( output_dest = = 0 )
ImGui : : LogToClipboard ( ) ;
else
ImGui : : LogToTTY ( ) ;
ImGui : : LogText ( " ImVec4* colors = ImPlot::GetStyle().Colors; \n " ) ;
for ( int i = 0 ; i < ImPlotCol_COUNT ; i + + ) {
const ImVec4 & col = style . Colors [ i ] ;
const char * name = ImPlot : : GetStyleColorName ( i ) ;
if ( ! output_only_modified | | memcmp ( & col , & ref - > Colors [ i ] , sizeof ( ImVec4 ) ) ! = 0 ) {
if ( IsColorAuto ( i ) )
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ImGui : : LogText ( " colors[ImPlotCol_%s]%*s= IMPLOT_AUTO_COL; \n " , name , 14 - ( int ) strlen ( name ) , " " ) ;
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else
ImGui : : LogText ( " colors[ImPlotCol_%s]%*s= ImVec4(%.2ff, %.2ff, %.2ff, %.2ff); \n " ,
name , 14 - ( int ) strlen ( name ) , " " , col . x , col . y , col . z , col . w ) ;
}
}
ImGui : : LogFinish ( ) ;
}
ImGui : : SameLine ( ) ; ImGui : : SetNextItemWidth ( 120 ) ; ImGui : : Combo ( " ##output_type " , & output_dest , " To Clipboard \0 To TTY \0 " ) ;
ImGui : : SameLine ( ) ; ImGui : : Checkbox ( " Only Modified Colors " , & output_only_modified ) ;
static ImGuiTextFilter filter ;
filter . Draw ( " Filter colors " , ImGui : : GetFontSize ( ) * 16 ) ;
static ImGuiColorEditFlags alpha_flags = ImGuiColorEditFlags_AlphaPreviewHalf ;
if ( ImGui : : RadioButton ( " Opaque " , alpha_flags = = ImGuiColorEditFlags_None ) ) { alpha_flags = ImGuiColorEditFlags_None ; } ImGui : : SameLine ( ) ;
if ( ImGui : : RadioButton ( " Alpha " , alpha_flags = = ImGuiColorEditFlags_AlphaPreview ) ) { alpha_flags = ImGuiColorEditFlags_AlphaPreview ; } ImGui : : SameLine ( ) ;
if ( ImGui : : RadioButton ( " Both " , alpha_flags = = ImGuiColorEditFlags_AlphaPreviewHalf ) ) { alpha_flags = ImGuiColorEditFlags_AlphaPreviewHalf ; } ImGui : : SameLine ( ) ;
HelpMarker (
" In the color list: \n "
" Left-click on colored square to open color picker, \n "
" Right-click to open edit options menu. " ) ;
ImGui : : Separator ( ) ;
ImGui : : PushItemWidth ( - 160 ) ;
for ( int i = 0 ; i < ImPlotCol_COUNT ; i + + ) {
const char * name = ImPlot : : GetStyleColorName ( i ) ;
if ( ! filter . PassFilter ( name ) )
continue ;
ImGui : : PushID ( i ) ;
ImVec4 temp = GetStyleColorVec4 ( i ) ;
const bool is_auto = IsColorAuto ( i ) ;
if ( ! is_auto )
ImGui : : PushStyleVar ( ImGuiStyleVar_Alpha , 0.25f ) ;
if ( ImGui : : Button ( " Auto " ) ) {
if ( is_auto )
style . Colors [ i ] = temp ;
else
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style . Colors [ i ] = IMPLOT_AUTO_COL ;
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BustItemCache ( ) ;
}
if ( ! is_auto )
ImGui : : PopStyleVar ( ) ;
ImGui : : SameLine ( ) ;
if ( ImGui : : ColorEdit4 ( name , & temp . x , ImGuiColorEditFlags_NoInputs | alpha_flags ) ) {
style . Colors [ i ] = temp ;
BustItemCache ( ) ;
}
if ( memcmp ( & style . Colors [ i ] , & ref - > Colors [ i ] , sizeof ( ImVec4 ) ) ! = 0 ) {
ImGui : : SameLine ( 175 ) ; if ( ImGui : : Button ( " Save " ) ) { ref - > Colors [ i ] = style . Colors [ i ] ; }
ImGui : : SameLine ( ) ; if ( ImGui : : Button ( " Revert " ) ) {
style . Colors [ i ] = ref - > Colors [ i ] ;
BustItemCache ( ) ;
}
}
ImGui : : PopID ( ) ;
}
ImGui : : PopItemWidth ( ) ;
ImGui : : Separator ( ) ;
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ImGui : : Text ( " Colors that are set to Auto (i.e. IMPLOT_AUTO_COL) will \n "
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" be automatically deduced from your ImGui style or the \n "
" current ImPlot Colormap. If you want to style individual \n "
" plot items, use Push/PopStyleColor around its function. " ) ;
ImGui : : EndTabItem ( ) ;
}
if ( ImGui : : BeginTabItem ( " Colormaps " ) ) {
static int output_dest = 0 ;
if ( ImGui : : Button ( " Export " , ImVec2 ( 75 , 0 ) ) ) {
if ( output_dest = = 0 )
ImGui : : LogToClipboard ( ) ;
else
ImGui : : LogToTTY ( ) ;
ImGui : : LogText ( " static const ImVec4 colormap[%d] = { \n " , gp . ColormapSize ) ;
for ( int i = 0 ; i < gp . ColormapSize ; + + i ) {
const ImVec4 & col = gp . Colormap [ i ] ;
ImGui : : LogText ( " ImVec4(%.2ff, %.2ff, %.2ff, %.2ff)%s \n " , col . x , col . y , col . z , col . w , i = = gp . ColormapSize - 1 ? " " : " , " ) ;
}
ImGui : : LogText ( " }; " ) ;
ImGui : : LogFinish ( ) ;
}
ImGui : : SameLine ( ) ; ImGui : : SetNextItemWidth ( 120 ) ; ImGui : : Combo ( " ##output_type " , & output_dest , " To Clipboard \0 To TTY \0 " ) ;
ImGui : : SameLine ( ) ; HelpMarker ( " Export code for selected Colormap \n (built in or custom). " ) ;
ImGui : : Separator ( ) ;
static ImVector < ImVec4 > custom ;
static bool custom_set = false ;
for ( int i = 0 ; i < ImPlotColormap_COUNT ; + + i ) {
ImGui : : PushID ( i ) ;
int size ;
const ImVec4 * cmap = GetColormap ( i , & size ) ;
bool selected = cmap = = gp . Colormap ;
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if ( selected ) {
custom_set = false ;
}
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if ( ! selected )
ImGui : : PushStyleVar ( ImGuiStyleVar_Alpha , 0.25f ) ;
if ( ImGui : : Button ( GetColormapName ( i ) , ImVec2 ( 75 , 0 ) ) ) {
SetColormap ( i ) ;
custom_set = false ;
}
if ( ! selected )
ImGui : : PopStyleVar ( ) ;
ImGui : : SameLine ( ) ;
for ( int c = 0 ; c < size ; + + c ) {
ImGui : : PushID ( c ) ;
ImGui : : ColorButton ( " " , cmap [ c ] ) ;
if ( c ! = size - 1 )
ImGui : : SameLine ( ) ;
ImGui : : PopID ( ) ;
}
ImGui : : PopID ( ) ;
}
if ( custom . Size = = 0 ) {
custom . push_back ( ImVec4 ( 1 , 1 , 1 , 1 ) ) ;
custom . push_back ( ImVec4 ( 0.5f , 0.5f , 0.5f , 1 ) ) ;
}
ImGui : : Separator ( ) ;
ImGui : : BeginGroup ( ) ;
bool custom_set_now = custom_set ;
if ( ! custom_set_now )
ImGui : : PushStyleVar ( ImGuiStyleVar_Alpha , 0.25f ) ;
if ( ImGui : : Button ( " Custom " , ImVec2 ( 75 , 0 ) ) ) {
SetColormap ( & custom [ 0 ] , custom . Size ) ;
custom_set = true ;
}
if ( ! custom_set_now )
ImGui : : PopStyleVar ( ) ;
if ( ImGui : : Button ( " + " , ImVec2 ( ( 75 - ImGui : : GetStyle ( ) . ItemSpacing . x ) / 2 , 0 ) ) ) {
custom . push_back ( ImVec4 ( 0 , 0 , 0 , 1 ) ) ;
if ( custom_set ) {
SetColormap ( & custom [ 0 ] , custom . Size ) ;
}
}
ImGui : : SameLine ( ) ;
if ( ImGui : : Button ( " - " , ImVec2 ( ( 75 - ImGui : : GetStyle ( ) . ItemSpacing . x ) / 2 , 0 ) ) & & custom . Size > 1 ) {
custom . pop_back ( ) ;
if ( custom_set ) {
SetColormap ( & custom [ 0 ] , custom . Size ) ;
}
}
ImGui : : EndGroup ( ) ;
ImGui : : SameLine ( ) ;
ImGui : : BeginGroup ( ) ;
for ( int c = 0 ; c < custom . Size ; + + c ) {
ImGui : : PushID ( c ) ;
if ( ImGui : : ColorEdit4 ( " ##Col1 " , & custom [ c ] . x , ImGuiColorEditFlags_NoInputs ) & & custom_set ) {
SetColormap ( & custom [ 0 ] , custom . Size ) ;
}
if ( ( c + 1 ) % 12 ! = 0 )
ImGui : : SameLine ( ) ;
ImGui : : PopID ( ) ;
}
ImGui : : EndGroup ( ) ;
ImGui : : EndTabItem ( ) ;
}
ImGui : : EndTabBar ( ) ;
}
}
void ShowUserGuide ( ) {
ImGui : : BulletText ( " Left click and drag within the plot area to pan X and Y axes. " ) ;
ImGui : : Indent ( ) ;
ImGui : : BulletText ( " Left click and drag on an axis to pan an individual axis. " ) ;
ImGui : : Unindent ( ) ;
ImGui : : BulletText ( " Scroll in the plot area to zoom both X any Y axes. " ) ;
ImGui : : Indent ( ) ;
ImGui : : BulletText ( " Scroll on an axis to zoom an individual axis. " ) ;
ImGui : : Unindent ( ) ;
ImGui : : BulletText ( " Right click and drag to box select data. " ) ;
ImGui : : Indent ( ) ;
ImGui : : BulletText ( " Hold Alt to expand box selection horizontally. " ) ;
ImGui : : BulletText ( " Hold Shift to expand box selection vertically. " ) ;
ImGui : : BulletText ( " Left click while box selecting to cancel the selection. " ) ;
ImGui : : Unindent ( ) ;
ImGui : : BulletText ( " Double left click to fit all visible data. " ) ;
ImGui : : Indent ( ) ;
ImGui : : BulletText ( " Double left click on an axis to fit the individual axis. " ) ;
ImGui : : Unindent ( ) ;
ImGui : : BulletText ( " Double right click to open the full plot context menu. " ) ;
ImGui : : Indent ( ) ;
ImGui : : BulletText ( " Double right click on an axis to open the axis context menu. " ) ;
ImGui : : Unindent ( ) ;
ImGui : : BulletText ( " Click legend label icons to show/hide plot items. " ) ;
}
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bool ShowDatePicker ( const char * id , int * level , ImPlotTime * t , const ImPlotTime * t1 , const ImPlotTime * t2 ) {
ImGui : : PushID ( id ) ;
ImGui : : BeginGroup ( ) ;
ImGui : : PushStyleColor ( ImGuiCol_Button , ImVec4 ( 0 , 0 , 0 , 0 ) ) ;
ImGui : : PushStyleVar ( ImGuiStyleVar_ItemSpacing , ImVec2 ( 0 , 0 ) ) ;
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ImGuiStyle & style = ImGui : : GetStyle ( ) ;
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ImVec4 col_txt = style . Colors [ ImGuiCol_Text ] ;
ImVec4 col_dis = style . Colors [ ImGuiCol_TextDisabled ] ;
const float ht = ImGui : : GetFrameHeight ( ) ;
ImVec2 cell_size ( ht * 1.25f , ht ) ;
char buff [ 32 ] ;
bool clk = false ;
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tm & Tm = GImPlot - > Tm ;
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const int min_yr = 1970 ;
const int max_yr = 2999 ;
// t1 parts
int t1_mo = 0 ; int t1_md = 0 ; int t1_yr = 0 ;
if ( t1 ! = NULL ) {
GetTime ( * t1 , & Tm ) ;
t1_mo = Tm . tm_mon ;
t1_md = Tm . tm_mday ;
t1_yr = Tm . tm_year + 1900 ;
}
// t2 parts
int t2_mo = 0 ; int t2_md = 0 ; int t2_yr = 0 ;
if ( t2 ! = NULL ) {
GetTime ( * t2 , & Tm ) ;
t2_mo = Tm . tm_mon ;
t2_md = Tm . tm_mday ;
t2_yr = Tm . tm_year + 1900 ;
}
// day widget
if ( * level = = 0 ) {
* t = FloorTime ( * t , ImPlotTimeUnit_Day ) ;
GetTime ( * t , & Tm ) ;
const int this_year = Tm . tm_year + 1900 ;
const int last_year = this_year - 1 ;
const int next_year = this_year + 1 ;
const int this_mon = Tm . tm_mon ;
const int last_mon = this_mon = = 0 ? 11 : this_mon - 1 ;
const int next_mon = this_mon = = 11 ? 0 : this_mon + 1 ;
const int days_this_mo = GetDaysInMonth ( this_year , this_mon ) ;
const int days_last_mo = GetDaysInMonth ( this_mon = = 0 ? last_year : this_year , last_mon ) ;
ImPlotTime t_first_mo = FloorTime ( * t , ImPlotTimeUnit_Mo ) ;
GetTime ( t_first_mo , & Tm ) ;
const int first_wd = Tm . tm_wday ;
// month year
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snprintf ( buff , 32 , " %s %d " , MONTH_NAMES [ this_mon ] , this_year ) ;
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if ( ImGui : : Button ( buff ) )
* level = 1 ;
ImGui : : SameLine ( 5 * cell_size . x ) ;
BeginDisabledControls ( this_year < = min_yr & & this_mon = = 0 ) ;
if ( ImGui : : ArrowButtonEx ( " ##Up " , ImGuiDir_Up , cell_size ) )
* t = AddTime ( * t , ImPlotTimeUnit_Mo , - 1 ) ;
EndDisabledControls ( this_year < = min_yr & & this_mon = = 0 ) ;
ImGui : : SameLine ( ) ;
BeginDisabledControls ( this_year > = max_yr & & this_mon = = 11 ) ;
if ( ImGui : : ArrowButtonEx ( " ##Down " , ImGuiDir_Down , cell_size ) )
* t = AddTime ( * t , ImPlotTimeUnit_Mo , 1 ) ;
EndDisabledControls ( this_year > = max_yr & & this_mon = = 11 ) ;
// render weekday abbreviations
ImGui : : PushItemFlag ( ImGuiItemFlags_Disabled , true ) ;
for ( int i = 0 ; i < 7 ; + + i ) {
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ImGui : : Button ( WD_ABRVS [ i ] , cell_size ) ;
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if ( i ! = 6 ) { ImGui : : SameLine ( ) ; }
}
ImGui : : PopItemFlag ( ) ;
// 0 = last mo, 1 = this mo, 2 = next mo
int mo = first_wd > 0 ? 0 : 1 ;
int day = mo = = 1 ? 1 : days_last_mo - first_wd + 1 ;
for ( int i = 0 ; i < 6 ; + + i ) {
for ( int j = 0 ; j < 7 ; + + j ) {
if ( mo = = 0 & & day > days_last_mo ) {
mo = 1 ; day = 1 ;
}
else if ( mo = = 1 & & day > days_this_mo ) {
mo = 2 ; day = 1 ;
}
const int now_yr = ( mo = = 0 & & this_mon = = 0 ) ? last_year : ( ( mo = = 2 & & this_mon = = 11 ) ? next_year : this_year ) ;
const int now_mo = mo = = 0 ? last_mon : ( mo = = 1 ? this_mon : next_mon ) ;
const int now_md = day ;
const bool off_mo = mo = = 0 | | mo = = 2 ;
const bool t1_or_t2 = ( t1 ! = NULL & & t1_mo = = now_mo & & t1_yr = = now_yr & & t1_md = = now_md ) | |
( t2 ! = NULL & & t2_mo = = now_mo & & t2_yr = = now_yr & & t2_md = = now_md ) ;
if ( off_mo )
ImGui : : PushStyleColor ( ImGuiCol_Text , col_dis ) ;
if ( t1_or_t2 ) {
ImGui : : PushStyleColor ( ImGuiCol_Button , col_dis ) ;
ImGui : : PushStyleColor ( ImGuiCol_Text , col_txt ) ;
}
ImGui : : PushID ( i * 7 + j ) ;
snprintf ( buff , 32 , " %d " , day ) ;
if ( now_yr = = min_yr - 1 | | now_yr = = max_yr + 1 ) {
ImGui : : Dummy ( cell_size ) ;
}
else if ( ImGui : : Button ( buff , cell_size ) & & ! clk ) {
* t = MakeTime ( now_yr , now_mo , now_md ) ;
clk = true ;
}
ImGui : : PopID ( ) ;
if ( t1_or_t2 )
ImGui : : PopStyleColor ( 2 ) ;
if ( off_mo )
ImGui : : PopStyleColor ( ) ;
if ( j ! = 6 )
ImGui : : SameLine ( ) ;
day + + ;
}
}
}
// month widget
else if ( * level = = 1 ) {
* t = FloorTime ( * t , ImPlotTimeUnit_Mo ) ;
GetTime ( * t , & Tm ) ;
int this_yr = Tm . tm_year + 1900 ;
snprintf ( buff , 32 , " %d " , this_yr ) ;
if ( ImGui : : Button ( buff ) )
* level = 2 ;
BeginDisabledControls ( this_yr < = min_yr ) ;
ImGui : : SameLine ( 5 * cell_size . x ) ;
if ( ImGui : : ArrowButtonEx ( " ##Up " , ImGuiDir_Up , cell_size ) )
* t = AddTime ( * t , ImPlotTimeUnit_Yr , - 1 ) ;
EndDisabledControls ( this_yr < = min_yr ) ;
ImGui : : SameLine ( ) ;
BeginDisabledControls ( this_yr > = max_yr ) ;
if ( ImGui : : ArrowButtonEx ( " ##Down " , ImGuiDir_Down , cell_size ) )
* t = AddTime ( * t , ImPlotTimeUnit_Yr , 1 ) ;
EndDisabledControls ( this_yr > = max_yr ) ;
// ImGui::Dummy(cell_size);
cell_size . x * = 7.0f / 4.0f ;
cell_size . y * = 7.0f / 3.0f ;
int mo = 0 ;
for ( int i = 0 ; i < 3 ; + + i ) {
for ( int j = 0 ; j < 4 ; + + j ) {
const bool t1_or_t2 = ( t1 ! = NULL & & t1_yr = = this_yr & & t1_mo = = mo ) | |
( t2 ! = NULL & & t2_yr = = this_yr & & t2_mo = = mo ) ;
if ( t1_or_t2 )
ImGui : : PushStyleColor ( ImGuiCol_Button , col_dis ) ;
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if ( ImGui : : Button ( MONTH_ABRVS [ mo ] , cell_size ) & & ! clk ) {
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* t = MakeTime ( this_yr , mo ) ;
* level = 0 ;
}
if ( t1_or_t2 )
ImGui : : PopStyleColor ( ) ;
if ( j ! = 3 )
ImGui : : SameLine ( ) ;
mo + + ;
}
}
}
else if ( * level = = 2 ) {
* t = FloorTime ( * t , ImPlotTimeUnit_Yr ) ;
int this_yr = GetYear ( * t ) ;
int yr = this_yr - this_yr % 20 ;
ImGui : : PushItemFlag ( ImGuiItemFlags_Disabled , true ) ;
snprintf ( buff , 32 , " %d-%d " , yr , yr + 19 ) ;
ImGui : : Button ( buff ) ;
ImGui : : PopItemFlag ( ) ;
ImGui : : SameLine ( 5 * cell_size . x ) ;
BeginDisabledControls ( yr < = min_yr ) ;
if ( ImGui : : ArrowButtonEx ( " ##Up " , ImGuiDir_Up , cell_size ) )
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* t = MakeTime ( yr - 20 ) ;
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EndDisabledControls ( yr < = min_yr ) ;
ImGui : : SameLine ( ) ;
BeginDisabledControls ( yr + 20 > = max_yr ) ;
if ( ImGui : : ArrowButtonEx ( " ##Down " , ImGuiDir_Down , cell_size ) )
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* t = MakeTime ( yr + 20 ) ;
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EndDisabledControls ( yr + 20 > = max_yr ) ;
// ImGui::Dummy(cell_size);
cell_size . x * = 7.0f / 4.0f ;
cell_size . y * = 7.0f / 5.0f ;
for ( int i = 0 ; i < 5 ; + + i ) {
for ( int j = 0 ; j < 4 ; + + j ) {
const bool t1_or_t2 = ( t1 ! = NULL & & t1_yr = = yr ) | | ( t2 ! = NULL & & t2_yr = = yr ) ;
if ( t1_or_t2 )
ImGui : : PushStyleColor ( ImGuiCol_Button , col_dis ) ;
snprintf ( buff , 32 , " %d " , yr ) ;
if ( yr < 1970 | | yr > 3000 ) {
ImGui : : Dummy ( cell_size ) ;
}
else if ( ImGui : : Button ( buff , cell_size ) ) {
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* t = MakeTime ( yr ) ;
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* level = 1 ;
}
if ( t1_or_t2 )
ImGui : : PopStyleColor ( ) ;
if ( j ! = 3 )
ImGui : : SameLine ( ) ;
yr + + ;
}
}
}
ImGui : : PopStyleVar ( ) ;
ImGui : : PopStyleColor ( ) ;
ImGui : : EndGroup ( ) ;
ImGui : : PopID ( ) ;
return clk ;
}
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bool ShowTimePicker ( const char * id , ImPlotTime * t , bool hour24 ) {
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ImGui : : PushID ( id ) ;
tm & Tm = GImPlot - > Tm ;
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GetTime ( * t , & Tm ) ;
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static const char * nums [ ] = { " 00 " , " 01 " , " 02 " , " 03 " , " 04 " , " 05 " , " 06 " , " 07 " , " 08 " , " 09 " ,
" 10 " , " 11 " , " 12 " , " 13 " , " 14 " , " 15 " , " 16 " , " 17 " , " 18 " , " 19 " ,
" 20 " , " 21 " , " 22 " , " 23 " , " 24 " , " 25 " , " 26 " , " 27 " , " 28 " , " 29 " ,
" 30 " , " 31 " , " 32 " , " 33 " , " 34 " , " 35 " , " 36 " , " 37 " , " 38 " , " 39 " ,
" 40 " , " 41 " , " 42 " , " 43 " , " 44 " , " 45 " , " 46 " , " 47 " , " 48 " , " 49 " ,
" 50 " , " 51 " , " 52 " , " 53 " , " 54 " , " 55 " , " 56 " , " 57 " , " 58 " , " 59 " } ;
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static const char * am_pm [ ] = { " am " , " pm " } ;
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int hr = hour24 ? Tm . tm_hour : ( ( Tm . tm_hour = = 0 | | Tm . tm_hour = = 12 ) ? 12 : Tm . tm_hour % 12 ) ;
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int min = Tm . tm_min ;
int sec = Tm . tm_sec ;
int ap = Tm . tm_hour < 12 ? 0 : 1 ;
bool changed = false ;
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ImVec2 spacing = ImGui : : GetStyle ( ) . ItemSpacing ;
spacing . x = 0 ;
float width = ImGui : : CalcTextSize ( " 888 " ) . x ;
float height = ImGui : : GetFrameHeight ( ) ;
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ImGui : : PushStyleVar ( ImGuiStyleVar_ItemSpacing , spacing ) ;
ImGui : : PushStyleVar ( ImGuiStyleVar_ScrollbarSize , 2.0f ) ;
ImGui : : PushStyleColor ( ImGuiCol_FrameBg , ImVec4 ( 0 , 0 , 0 , 0 ) ) ;
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ImGui : : PushStyleColor ( ImGuiCol_Button , ImVec4 ( 0 , 0 , 0 , 0 ) ) ;
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ImGui : : PushStyleColor ( ImGuiCol_FrameBgHovered , ImGui : : GetStyleColorVec4 ( ImGuiCol_ButtonHovered ) ) ;
ImGui : : SetNextItemWidth ( width ) ;
if ( ImGui : : BeginCombo ( " ##hr " , nums [ hr ] , ImGuiComboFlags_NoArrowButton ) ) {
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const int ia = hour24 ? 0 : 1 ;
const int ib = hour24 ? 24 : 13 ;
for ( int i = ia ; i < ib ; + + i ) {
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if ( ImGui : : Selectable ( nums [ i ] , i = = hr ) ) {
hr = i ;
changed = true ;
}
}
ImGui : : EndCombo ( ) ;
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}
ImGui : : SameLine ( ) ;
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ImGui : : Text ( " : " ) ;
ImGui : : SameLine ( ) ;
ImGui : : SetNextItemWidth ( width ) ;
if ( ImGui : : BeginCombo ( " ##min " , nums [ min ] , ImGuiComboFlags_NoArrowButton ) ) {
for ( int i = 0 ; i < 60 ; + + i ) {
if ( ImGui : : Selectable ( nums [ i ] , i = = min ) ) {
min = i ;
changed = true ;
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}
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}
ImGui : : EndCombo ( ) ;
}
ImGui : : SameLine ( ) ;
ImGui : : Text ( " : " ) ;
ImGui : : SameLine ( ) ;
ImGui : : SetNextItemWidth ( width ) ;
if ( ImGui : : BeginCombo ( " ##sec " , nums [ sec ] , ImGuiComboFlags_NoArrowButton ) ) {
for ( int i = 0 ; i < 60 ; + + i ) {
if ( ImGui : : Selectable ( nums [ i ] , i = = sec ) ) {
sec = i ;
changed = true ;
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}
}
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ImGui : : EndCombo ( ) ;
}
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if ( ! hour24 ) {
ImGui : : SameLine ( ) ;
if ( ImGui : : Button ( am_pm [ ap ] , ImVec2 ( height , height ) ) ) {
ap = 1 - ap ;
changed = true ;
}
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}
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ImGui : : PopStyleColor ( 3 ) ;
ImGui : : PopStyleVar ( 2 ) ;
ImGui : : PopID ( ) ;
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if ( changed ) {
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if ( ! hour24 )
hr = hr % 12 + ap * 12 ;
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Tm . tm_hour = hr ;
Tm . tm_min = min ;
Tm . tm_sec = sec ;
* t = MkTime ( & Tm ) ;
}
return changed ;
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}
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void StyleColorsAuto ( ImPlotStyle * dst ) {
ImPlotStyle * style = dst ? dst : & ImPlot : : GetStyle ( ) ;
ImVec4 * colors = style - > Colors ;
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style - > MinorAlpha = 0.25f ;
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colors [ ImPlotCol_Line ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_Fill ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_MarkerOutline ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_MarkerFill ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_ErrorBar ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_FrameBg ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_PlotBg ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_PlotBorder ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_LegendBg ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_LegendBorder ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_LegendText ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_TitleText ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_InlayText ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_PlotBorder ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_XAxis ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_XAxisGrid ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_YAxis ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_YAxisGrid ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_YAxis2 ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_YAxisGrid2 ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_YAxis3 ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_YAxisGrid3 ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_Selection ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_Query ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_Crosshairs ] = IMPLOT_AUTO_COL ;
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}
void StyleColorsClassic ( ImPlotStyle * dst ) {
ImPlotStyle * style = dst ? dst : & ImPlot : : GetStyle ( ) ;
ImVec4 * colors = style - > Colors ;
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style - > MinorAlpha = 0.5f ;
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colors [ ImPlotCol_Line ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_Fill ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_MarkerOutline ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_MarkerFill ] = IMPLOT_AUTO_COL ;
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colors [ ImPlotCol_ErrorBar ] = ImVec4 ( 0.90f , 0.90f , 0.90f , 1.00f ) ;
colors [ ImPlotCol_FrameBg ] = ImVec4 ( 0.43f , 0.43f , 0.43f , 0.39f ) ;
colors [ ImPlotCol_PlotBg ] = ImVec4 ( 0.00f , 0.00f , 0.00f , 0.35f ) ;
colors [ ImPlotCol_PlotBorder ] = ImVec4 ( 0.50f , 0.50f , 0.50f , 0.50f ) ;
colors [ ImPlotCol_LegendBg ] = ImVec4 ( 0.11f , 0.11f , 0.14f , 0.92f ) ;
colors [ ImPlotCol_LegendBorder ] = ImVec4 ( 0.50f , 0.50f , 0.50f , 0.50f ) ;
colors [ ImPlotCol_LegendText ] = ImVec4 ( 0.90f , 0.90f , 0.90f , 1.00f ) ;
colors [ ImPlotCol_TitleText ] = ImVec4 ( 0.90f , 0.90f , 0.90f , 1.00f ) ;
colors [ ImPlotCol_InlayText ] = ImVec4 ( 0.90f , 0.90f , 0.90f , 1.00f ) ;
colors [ ImPlotCol_XAxis ] = ImVec4 ( 0.90f , 0.90f , 0.90f , 1.00f ) ;
colors [ ImPlotCol_XAxisGrid ] = ImVec4 ( 0.90f , 0.90f , 0.90f , 0.25f ) ;
colors [ ImPlotCol_YAxis ] = ImVec4 ( 0.90f , 0.90f , 0.90f , 1.00f ) ;
colors [ ImPlotCol_YAxisGrid ] = ImVec4 ( 0.90f , 0.90f , 0.90f , 0.25f ) ;
colors [ ImPlotCol_YAxis2 ] = ImVec4 ( 0.90f , 0.90f , 0.90f , 1.00f ) ;
colors [ ImPlotCol_YAxisGrid2 ] = ImVec4 ( 0.90f , 0.90f , 0.90f , 0.25f ) ;
colors [ ImPlotCol_YAxis3 ] = ImVec4 ( 0.90f , 0.90f , 0.90f , 1.00f ) ;
colors [ ImPlotCol_YAxisGrid3 ] = ImVec4 ( 0.90f , 0.90f , 0.90f , 0.25f ) ;
colors [ ImPlotCol_Selection ] = ImVec4 ( 0.97f , 0.97f , 0.39f , 1.00f ) ;
colors [ ImPlotCol_Query ] = ImVec4 ( 0.00f , 1.00f , 0.59f , 1.00f ) ;
colors [ ImPlotCol_Crosshairs ] = ImVec4 ( 0.50f , 0.50f , 0.50f , 0.75f ) ;
}
void StyleColorsDark ( ImPlotStyle * dst ) {
ImPlotStyle * style = dst ? dst : & ImPlot : : GetStyle ( ) ;
ImVec4 * colors = style - > Colors ;
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style - > MinorAlpha = 0.25f ;
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colors [ ImPlotCol_Line ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_Fill ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_MarkerOutline ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_MarkerFill ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_ErrorBar ] = IMPLOT_AUTO_COL ;
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colors [ ImPlotCol_FrameBg ] = ImVec4 ( 1.00f , 1.00f , 1.00f , 0.07f ) ;
colors [ ImPlotCol_PlotBg ] = ImVec4 ( 0.00f , 0.00f , 0.00f , 0.50f ) ;
colors [ ImPlotCol_PlotBorder ] = ImVec4 ( 0.43f , 0.43f , 0.50f , 0.50f ) ;
colors [ ImPlotCol_LegendBg ] = ImVec4 ( 0.08f , 0.08f , 0.08f , 0.94f ) ;
colors [ ImPlotCol_LegendBorder ] = ImVec4 ( 0.43f , 0.43f , 0.50f , 0.50f ) ;
colors [ ImPlotCol_LegendText ] = ImVec4 ( 1.00f , 1.00f , 1.00f , 1.00f ) ;
colors [ ImPlotCol_TitleText ] = ImVec4 ( 1.00f , 1.00f , 1.00f , 1.00f ) ;
colors [ ImPlotCol_InlayText ] = ImVec4 ( 1.00f , 1.00f , 1.00f , 1.00f ) ;
colors [ ImPlotCol_XAxis ] = ImVec4 ( 1.00f , 1.00f , 1.00f , 1.00f ) ;
colors [ ImPlotCol_XAxisGrid ] = ImVec4 ( 1.00f , 1.00f , 1.00f , 0.25f ) ;
colors [ ImPlotCol_YAxis ] = ImVec4 ( 1.00f , 1.00f , 1.00f , 1.00f ) ;
colors [ ImPlotCol_YAxisGrid ] = ImVec4 ( 1.00f , 1.00f , 1.00f , 0.25f ) ;
colors [ ImPlotCol_YAxis2 ] = ImVec4 ( 1.00f , 1.00f , 1.00f , 1.00f ) ;
colors [ ImPlotCol_YAxisGrid2 ] = ImVec4 ( 1.00f , 1.00f , 1.00f , 0.25f ) ;
colors [ ImPlotCol_YAxis3 ] = ImVec4 ( 1.00f , 1.00f , 1.00f , 1.00f ) ;
colors [ ImPlotCol_YAxisGrid3 ] = ImVec4 ( 1.00f , 1.00f , 1.00f , 0.25f ) ;
colors [ ImPlotCol_Selection ] = ImVec4 ( 1.00f , 0.60f , 0.00f , 1.00f ) ;
colors [ ImPlotCol_Query ] = ImVec4 ( 0.00f , 1.00f , 0.44f , 1.00f ) ;
colors [ ImPlotCol_Crosshairs ] = ImVec4 ( 1.00f , 1.00f , 1.00f , 0.50f ) ;
}
void StyleColorsLight ( ImPlotStyle * dst ) {
ImPlotStyle * style = dst ? dst : & ImPlot : : GetStyle ( ) ;
ImVec4 * colors = style - > Colors ;
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style - > MinorAlpha = 1.0f ;
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colors [ ImPlotCol_Line ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_Fill ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_MarkerOutline ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_MarkerFill ] = IMPLOT_AUTO_COL ;
colors [ ImPlotCol_ErrorBar ] = IMPLOT_AUTO_COL ;
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colors [ ImPlotCol_FrameBg ] = ImVec4 ( 1.00f , 1.00f , 1.00f , 1.00f ) ;
colors [ ImPlotCol_PlotBg ] = ImVec4 ( 0.42f , 0.57f , 1.00f , 0.13f ) ;
colors [ ImPlotCol_PlotBorder ] = ImVec4 ( 0.00f , 0.00f , 0.00f , 0.00f ) ;
colors [ ImPlotCol_LegendBg ] = ImVec4 ( 1.00f , 1.00f , 1.00f , 0.98f ) ;
colors [ ImPlotCol_LegendBorder ] = ImVec4 ( 0.82f , 0.82f , 0.82f , 0.80f ) ;
colors [ ImPlotCol_LegendText ] = ImVec4 ( 0.00f , 0.00f , 0.00f , 1.00f ) ;
colors [ ImPlotCol_TitleText ] = ImVec4 ( 0.00f , 0.00f , 0.00f , 1.00f ) ;
colors [ ImPlotCol_InlayText ] = ImVec4 ( 0.00f , 0.00f , 0.00f , 1.00f ) ;
colors [ ImPlotCol_XAxis ] = ImVec4 ( 0.00f , 0.00f , 0.00f , 1.00f ) ;
colors [ ImPlotCol_XAxisGrid ] = ImVec4 ( 1.00f , 1.00f , 1.00f , 1.00f ) ;
colors [ ImPlotCol_YAxis ] = ImVec4 ( 0.00f , 0.00f , 0.00f , 1.00f ) ;
colors [ ImPlotCol_YAxisGrid ] = ImVec4 ( 1.00f , 1.00f , 1.00f , 1.00f ) ;
colors [ ImPlotCol_YAxis2 ] = ImVec4 ( 0.00f , 0.00f , 0.00f , 1.00f ) ;
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colors [ ImPlotCol_YAxisGrid2 ] = ImVec4 ( 0.00f , 0.00f , 0.00f , 0.50f ) ;
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colors [ ImPlotCol_YAxis3 ] = ImVec4 ( 0.00f , 0.00f , 0.00f , 1.00f ) ;
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colors [ ImPlotCol_YAxisGrid3 ] = ImVec4 ( 0.00f , 0.00f , 0.00f , 0.50f ) ;
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colors [ ImPlotCol_Selection ] = ImVec4 ( 0.82f , 0.64f , 0.03f , 1.00f ) ;
colors [ ImPlotCol_Query ] = ImVec4 ( 0.00f , 0.84f , 0.37f , 1.00f ) ;
colors [ ImPlotCol_Crosshairs ] = ImVec4 ( 0.00f , 0.00f , 0.00f , 0.50f ) ;
}
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} // namespace ImPlot