// MIT License // Copyright (c) 2021 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. // ImPlot v0.10 WIP /* 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. - 2021/03/08 (0.9) - SetColormap and PushColormap(ImVec4*) were removed. Use AddColormap for custom colormap support. LerpColormap was changed to SampleColormap. ShowColormapScale was changed to ColormapScale and requires additional arguments. - 2021/03/07 (0.9) - The signature of ShowColormapScale was modified to accept a ImVec2 size. - 2021/02/28 (0.9) - BeginLegendDragDropSource was changed to BeginDragDropSourceItem with a number of other drag and drop improvements. - 2021/01/18 (0.9) - The default behavior for opening context menus was change from double right-click to single right-click. ImPlotInputMap and related functions were moved to implot_internal.h due to its immaturity. - 2020/10/16 (0.8) - ImPlotStyleVar_InfoPadding was changed to ImPlotStyleVar_MousePosPadding - 2020/09/10 (0.8) - The single array versions of PlotLine, PlotScatter, PlotStems, and PlotShaded were given additional arguments for x-scale and x0. - 2020/09/07 (0.8) - Plotting functions which accept a custom getter function pointer have been post-fixed with a G (e.g. PlotLineG) - 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). - 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. - 2020/08/25 (0.5) - ImPlotAxisFlags_Scientific was removed. Logarithmic axes automatically uses scientific notation. - 2020/08/17 (0.5) - PlotText was changed so that text is centered horizontally and vertically about the desired point. - 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. - 2020/06/13 (0.4) - The flags `ImPlotAxisFlag_Adaptive` and `ImPlotFlags_Cull` were removed. Both are now done internally by default. - 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. - 2020/06/01 (0.3) - SetPalette was changed to `SetColormap` for consistency with other plotting libraries. `RestorePalette` was removed. Use `SetColormap(ImPlotColormap_Default)`. - 2020/05/31 (0.3) - Plot functions taking custom ImVec2* getters were removed. Use the ImPlotPoint* getter versions instead. - 2020/05/29 (0.3) - The signature of ImPlotLimits::Contains was changed to take two doubles instead of ImVec2 - 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` 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. - 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` - 2020/05/11 (0.2) - The namespace ImGui:: was replaced with ImPlot::. As a result, the following additional changes were made: - Functions that were prefixed or decorated with the word "Plot" have been truncated. E.g., `ImGui::PlotBars` is now just `ImPlot::Bar`. It should be fairly obvious what was what. - 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'. - 2020/05/10 (0.2) - The following function/struct names were changes: - ImPlotRange -> ImPlotLimits - GetPlotRange() -> GetPlotLimits() - SetNextPlotRange -> SetNextPlotLimits - 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. */ #include "implot.h" #include "implot_internal.h" #ifdef _MSC_VER #define sprintf sprintf_s #endif // Support for pre-1.82 versions. Users on 1.82+ can use 0 (default) flags to mean "all corners" but in order to support older versions we are more explicit. #if (IMGUI_VERSION_NUM < 18102) && !defined(ImDrawFlags_RoundCornersAll) #define ImDrawFlags_RoundCornersAll ImDrawCornerFlags_All #endif // Support for pre-1.84 versions. ImPool's GetSize() -> GetBufSize() #if (IMGUI_VERSION_NUM < 18303) #define GetBufSize GetSize // A little bit ugly since 'GetBufSize' could technically be used elsewhere (but currently isn't). Could use a proxy define if needed. #endif // Global plot context ImPlotContext* GImPlot = NULL; //----------------------------------------------------------------------------- // Struct Implementations //----------------------------------------------------------------------------- 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; } ImPlotStyle::ImPlotStyle() { LineWeight = 1; Marker = ImPlotMarker_None; MarkerSize = 4; MarkerWeight = 1; FillAlpha = 1; ErrorBarSize = 5; ErrorBarWeight = 1.5f; DigitalBitHeight = 8; DigitalBitGap = 4; 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); PlotPadding = ImVec2(10,10); LabelPadding = ImVec2(5,5); LegendPadding = ImVec2(10,10); LegendInnerPadding = ImVec2(5,5); LegendSpacing = ImVec2(5,0); MousePosPadding = ImVec2(10,10); AnnotationPadding = ImVec2(2,2); FitPadding = ImVec2(0,0); PlotDefaultSize = ImVec2(400,300); PlotMinSize = ImVec2(300,225); ImPlot::StyleColorsAuto(this); Colormap = ImPlotColormap_Deep; AntiAliasedLines = false; UseLocalTime = false; Use24HourClock = false; UseISO8601 = false; } ImPlotItem* ImPlotPlot::GetLegendItem(int i) { return Items.GetByIndex(LegendData.Indices[i]); } const char* ImPlotPlot::GetLegendLabel(int i) { ImPlotItem* item = GetLegendItem(i); IM_ASSERT(item != NULL); IM_ASSERT(item->NameOffset != -1 && item->NameOffset < LegendData.Labels.Buf.Size); return LegendData.Labels.Buf.Data + item->NameOffset; } //----------------------------------------------------------------------------- // Style //----------------------------------------------------------------------------- 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]; } const char* GetMarkerName(ImPlotMarker marker) { switch (marker) { case ImPlotMarker_None: return "None"; case ImPlotMarker_Circle: return "Circle"; case ImPlotMarker_Square: return "Square"; 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"; default: return ""; } } 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); case ImPlotCol_PlotBorder: return ImGui::GetStyleColorVec4(ImGuiCol_Border); 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; } } 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, LegendInnerPadding) }, // ImPlotStyleVar_LegendInnerPadding { ImGuiDataType_Float, 2, (ImU32)IM_OFFSETOF(ImPlotStyle, LegendSpacing) }, // ImPlotStyleVar_LegendSpacing { ImGuiDataType_Float, 2, (ImU32)IM_OFFSETOF(ImPlotStyle, MousePosPadding) }, // ImPlotStyleVar_MousePosPadding { ImGuiDataType_Float, 2, (ImU32)IM_OFFSETOF(ImPlotStyle, AnnotationPadding) }, // ImPlotStyleVar_AnnotationPadding { ImGuiDataType_Float, 2, (ImU32)IM_OFFSETOF(ImPlotStyle, FitPadding) }, // ImPlotStyleVar_FitPadding { ImGuiDataType_Float, 2, (ImU32)IM_OFFSETOF(ImPlotStyle, PlotDefaultSize) }, // ImPlotStyleVar_PlotDefaultSize { 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]; } //----------------------------------------------------------------------------- // Generic Helpers //----------------------------------------------------------------------------- void AddTextVertical(ImDrawList *DrawList, ImVec2 pos, ImU32 col, const char *text_begin, const char* text_end) { // the code below is based loosely on ImFont::RenderText if (!text_end) text_end = text_begin + strlen(text_begin); ImGuiContext& g = *GImGui; ImFont* font = g.Font; // Align to be pixel perfect pos.x = IM_FLOOR(pos.x); pos.y = IM_FLOOR(pos.y); const float scale = g.FontSize / font->FontSize; const char* s = text_begin; int chars_exp = (int)(text_end - s); int chars_rnd = 0; const int vtx_count_max = chars_exp * 4; const int idx_count_max = chars_exp * 6; DrawList->PrimReserve(idx_count_max, vtx_count_max); 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) { continue; } 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; chars_rnd++; } // Give back unused vertices int chars_skp = chars_exp-chars_rnd; DrawList->PrimUnreserve(chars_skp*6, chars_skp*4); } 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); } //----------------------------------------------------------------------------- // Context Utils //----------------------------------------------------------------------------- void SetImGuiContext(ImGuiContext* ctx) { ImGui::SetCurrentContext(ctx); } ImPlotContext* CreateContext() { ImPlotContext* ctx = IM_NEW(ImPlotContext)(); Initialize(ctx); if (GImPlot == NULL) SetCurrentContext(ctx); return ctx; } void DestroyContext(ImPlotContext* ctx) { if (ctx == NULL) ctx = GImPlot; if (GImPlot == ctx) SetCurrentContext(NULL); IM_DELETE(ctx); } ImPlotContext* GetCurrentContext() { return GImPlot; } void SetCurrentContext(ImPlotContext* ctx) { GImPlot = ctx; } #define IMPLOT_APPEND_CMAP(name, qual) ctx->ColormapData.Append(#name, name, sizeof(name)/sizeof(ImU32), qual) #define IM_RGB(r,g,b) IM_COL32(r,g,b,255) void Initialize(ImPlotContext* ctx) { Reset(ctx); const ImU32 Deep[] = {4289753676, 4283598045, 4285048917, 4283584196, 4289950337, 4284512403, 4291005402, 4287401100, 4285839820, 4291671396 }; const ImU32 Dark[] = {4280031972, 4290281015, 4283084621, 4288892568, 4278222847, 4281597951, 4280833702, 4290740727, 4288256409 }; const ImU32 Pastel[] = {4289639675, 4293119411, 4291161036, 4293184478, 4289124862, 4291624959, 4290631909, 4293712637, 4294111986 }; const ImU32 Paired[] = {4293119554, 4290017311, 4287291314, 4281114675, 4288256763, 4280031971, 4285513725, 4278222847, 4292260554, 4288298346, 4288282623, 4280834481}; const ImU32 Viridis[] = {4283695428, 4285867080, 4287054913, 4287455029, 4287526954, 4287402273, 4286883874, 4285579076, 4283552122, 4280737725, 4280674301 }; const ImU32 Plasma[] = {4287039501, 4288480321, 4289200234, 4288941455, 4287638193, 4286072780, 4284638433, 4283139314, 4281771772, 4280667900, 4280416752 }; const ImU32 Hot[] = {4278190144, 4278190208, 4278190271, 4278190335, 4278206719, 4278223103, 4278239231, 4278255615, 4283826175, 4289396735, 4294967295 }; const ImU32 Cool[] = {4294967040, 4294960666, 4294954035, 4294947661, 4294941030, 4294934656, 4294928025, 4294921651, 4294915020, 4294908646, 4294902015 }; const ImU32 Pink[] = {4278190154, 4282532475, 4284308894, 4285690554, 4286879686, 4287870160, 4288794330, 4289651940, 4291685869, 4293392118, 4294967295 }; const ImU32 Jet[] = {4289331200, 4294901760, 4294923520, 4294945280, 4294967040, 4289396565, 4283826090, 4278255615, 4278233855, 4278212095, 4278190335 }; const ImU32 Twilight[] = {IM_RGB(226,217,226),IM_RGB(166,191,202),IM_RGB(109,144,192),IM_RGB(95,88,176),IM_RGB(83,30,124),IM_RGB(47,20,54),IM_RGB(100,25,75),IM_RGB(159,60,80),IM_RGB(192,117,94),IM_RGB(208,179,158),IM_RGB(226,217,226)}; const ImU32 RdBu[] = {IM_RGB(103,0,31),IM_RGB(178,24,43),IM_RGB(214,96,77),IM_RGB(244,165,130),IM_RGB(253,219,199),IM_RGB(247,247,247),IM_RGB(209,229,240),IM_RGB(146,197,222),IM_RGB(67,147,195),IM_RGB(33,102,172),IM_RGB(5,48,97)}; const ImU32 BrBG[] = {IM_RGB(84,48,5),IM_RGB(140,81,10),IM_RGB(191,129,45),IM_RGB(223,194,125),IM_RGB(246,232,195),IM_RGB(245,245,245),IM_RGB(199,234,229),IM_RGB(128,205,193),IM_RGB(53,151,143),IM_RGB(1,102,94),IM_RGB(0,60,48)}; const ImU32 PiYG[] = {IM_RGB(142,1,82),IM_RGB(197,27,125),IM_RGB(222,119,174),IM_RGB(241,182,218),IM_RGB(253,224,239),IM_RGB(247,247,247),IM_RGB(230,245,208),IM_RGB(184,225,134),IM_RGB(127,188,65),IM_RGB(77,146,33),IM_RGB(39,100,25)}; const ImU32 Spectral[] = {IM_RGB(158,1,66),IM_RGB(213,62,79),IM_RGB(244,109,67),IM_RGB(253,174,97),IM_RGB(254,224,139),IM_RGB(255,255,191),IM_RGB(230,245,152),IM_RGB(171,221,164),IM_RGB(102,194,165),IM_RGB(50,136,189),IM_RGB(94,79,162)}; const ImU32 Greys[] = {IM_COL32_WHITE, IM_COL32_BLACK }; IMPLOT_APPEND_CMAP(Deep, true); IMPLOT_APPEND_CMAP(Dark, true); IMPLOT_APPEND_CMAP(Pastel, true); IMPLOT_APPEND_CMAP(Paired, true); IMPLOT_APPEND_CMAP(Viridis, false); IMPLOT_APPEND_CMAP(Plasma, false); IMPLOT_APPEND_CMAP(Hot, false); IMPLOT_APPEND_CMAP(Cool, false); IMPLOT_APPEND_CMAP(Pink, false); IMPLOT_APPEND_CMAP(Jet, false); IMPLOT_APPEND_CMAP(Twilight, false); IMPLOT_APPEND_CMAP(RdBu, false); IMPLOT_APPEND_CMAP(BrBG, false); IMPLOT_APPEND_CMAP(PiYG, false); IMPLOT_APPEND_CMAP(Spectral, false); IMPLOT_APPEND_CMAP(Greys, false); } void Reset(ImPlotContext* ctx) { // end child window if it was made if (ctx->ChildWindowMade) ImGui::EndChild(); ctx->ChildWindowMade = false; // reset the next plot/item data ctx->NextPlotData.Reset(); ctx->NextItemData.Reset(); // reset items count ctx->VisibleItemCount = 0; // reset ticks/labels ctx->XTicks.Reset(); for (int i = 0; i < 3; ++i) ctx->YTicks[i].Reset(); // reset labels ctx->Annotations.Reset(); // reset extents/fit ctx->FitThisFrame = false; ctx->FitX = false; ctx->ExtentsX.Min = HUGE_VAL; ctx->ExtentsX.Max = -HUGE_VAL; for (int i = 0; i < IMPLOT_Y_AXES; i++) { 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; ctx->CurrentItem = NULL; ctx->PreviousItem = NULL; } //----------------------------------------------------------------------------- // Plot Utils //----------------------------------------------------------------------------- ImPlotPlot* GetPlot(const char* title) { ImGuiWindow* Window = GImGui->CurrentWindow; const ImGuiID ID = Window->GetID(title); return GImPlot->Plots.GetByKey(ID); } ImPlotPlot* GetCurrentPlot() { return GImPlot->CurrentPlot; } void BustPlotCache() { GImPlot->Plots.Clear(); } void PushLinkedAxis(ImPlotAxis& axis) { if (axis.LinkedMin) { *axis.LinkedMin = axis.Range.Min; } if (axis.LinkedMax) { *axis.LinkedMax = axis.Range.Max; } } void PullLinkedAxis(ImPlotAxis& axis) { if (axis.LinkedMin) { axis.SetMin(*axis.LinkedMin,true); } if (axis.LinkedMax) { axis.SetMax(*axis.LinkedMax,true); } } //----------------------------------------------------------------------------- // Coordinate Utils //----------------------------------------------------------------------------- void UpdateTransformCache() { ImPlotContext& gp = *GImPlot; // get pixels for transforms for (int i = 0; i < IMPLOT_Y_AXES; i++) { gp.PixelRange[i] = ImRect(ImHasFlag(gp.CurrentPlot->XAxis.Flags, ImPlotAxisFlags_Invert) ? gp.CurrentPlot->PlotRect.Max.x : gp.CurrentPlot->PlotRect.Min.x, ImHasFlag(gp.CurrentPlot->YAxis[i].Flags, ImPlotAxisFlags_Invert) ? gp.CurrentPlot->PlotRect.Min.y : gp.CurrentPlot->PlotRect.Max.y, ImHasFlag(gp.CurrentPlot->XAxis.Flags, ImPlotAxisFlags_Invert) ? gp.CurrentPlot->PlotRect.Min.x : gp.CurrentPlot->PlotRect.Max.x, ImHasFlag(gp.CurrentPlot->YAxis[i].Flags, ImPlotAxisFlags_Invert) ? gp.CurrentPlot->PlotRect.Max.y : gp.CurrentPlot->PlotRect.Min.y); gp.My[i] = (gp.PixelRange[i].Max.y - gp.PixelRange[i].Min.y) / gp.CurrentPlot->YAxis[i].Range.Size(); } gp.LogDenX = ImLog10(gp.CurrentPlot->XAxis.Range.Max / gp.CurrentPlot->XAxis.Range.Min); 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); gp.Mx = (gp.PixelRange[0].Max.x - gp.PixelRange[0].Min.x) / gp.CurrentPlot->XAxis.Range.Size(); } ImPlotPoint PixelsToPlot(float x, float y, ImPlotYAxis y_axis_in) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "PixelsToPlot() needs to be called between BeginPlot() and EndPlot()!"); const ImPlotYAxis y_axis = y_axis_in >= 0 ? y_axis_in : gp.CurrentPlot->CurrentYAxis; ImPlotPoint plt; 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; if (ImHasFlag(gp.CurrentPlot->XAxis.Flags, ImPlotAxisFlags_LogScale)) { 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; } if (ImHasFlag(gp.CurrentPlot->YAxis[y_axis].Flags, ImPlotAxisFlags_LogScale)) { 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; } return plt; } ImPlotPoint PixelsToPlot(const ImVec2& pix, ImPlotYAxis y_axis) { 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. ImVec2 PlotToPixels(double x, double y, ImPlotYAxis y_axis_in) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "PlotToPixels() needs to be called between BeginPlot() and EndPlot()!"); const ImPlotYAxis y_axis = y_axis_in >= 0 ? y_axis_in : gp.CurrentPlot->CurrentYAxis; ImVec2 pix; if (ImHasFlag(gp.CurrentPlot->XAxis.Flags, ImPlotAxisFlags_LogScale)) { double t = ImLog10(x / gp.CurrentPlot->XAxis.Range.Min) / gp.LogDenX; x = ImLerp(gp.CurrentPlot->XAxis.Range.Min, gp.CurrentPlot->XAxis.Range.Max, (float)t); } if (ImHasFlag(gp.CurrentPlot->YAxis[y_axis].Flags, ImPlotAxisFlags_LogScale)) { double t = ImLog10(y / gp.CurrentPlot->YAxis[y_axis].Range.Min) / gp.LogDenY[y_axis]; y = ImLerp(gp.CurrentPlot->YAxis[y_axis].Range.Min, gp.CurrentPlot->YAxis[y_axis].Range.Max, (float)t); } 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)); return pix; } // This function is convenient but should not be used to process a high volume of points. Use the Transformer structs below instead. ImVec2 PlotToPixels(const ImPlotPoint& plt, ImPlotYAxis y_axis) { return PlotToPixels(plt.x, plt.y, y_axis); } //----------------------------------------------------------------------------- // Legend Utils //----------------------------------------------------------------------------- ImVec2 GetLocationPos(const ImRect& outer_rect, const ImVec2& inner_size, ImPlotLocation loc, const ImVec2& pad) { ImVec2 pos; if (ImHasFlag(loc, ImPlotLocation_West) && !ImHasFlag(loc, ImPlotLocation_East)) pos.x = outer_rect.Min.x + pad.x; else if (!ImHasFlag(loc, ImPlotLocation_West) && ImHasFlag(loc, ImPlotLocation_East)) pos.x = outer_rect.Max.x - pad.x - inner_size.x; else pos.x = outer_rect.GetCenter().x - inner_size.x * 0.5f; // legend reference point y if (ImHasFlag(loc, ImPlotLocation_North) && !ImHasFlag(loc, ImPlotLocation_South)) pos.y = outer_rect.Min.y + pad.y; else if (!ImHasFlag(loc, ImPlotLocation_North) && ImHasFlag(loc, ImPlotLocation_South)) pos.y = outer_rect.Max.y - pad.y - inner_size.y; else pos.y = outer_rect.GetCenter().y - inner_size.y * 0.5f; pos.x = IM_ROUND(pos.x); pos.y = IM_ROUND(pos.y); return pos; } ImVec2 CalcLegendSize(ImPlotPlot& plot, const ImVec2& pad, const ImVec2& spacing, ImPlotOrientation orn) { // vars const int nItems = plot.GetLegendCount(); const float txt_ht = ImGui::GetTextLineHeight(); const float icon_size = txt_ht; // get label max width float max_label_width = 0; float sum_label_width = 0; for (int i = 0; i < nItems; ++i) { const char* label = plot.GetLegendLabel(i); const float label_width = ImGui::CalcTextSize(label, NULL, true).x; max_label_width = label_width > max_label_width ? label_width : max_label_width; sum_label_width += label_width; } // calc legend size const ImVec2 legend_size = orn == ImPlotOrientation_Vertical ? ImVec2(pad.x * 2 + icon_size + max_label_width, pad.y * 2 + nItems * txt_ht + (nItems - 1) * spacing.y) : ImVec2(pad.x * 2 + icon_size * nItems + sum_label_width + (nItems - 1) * spacing.x, pad.y * 2 + txt_ht); return legend_size; } void ShowLegendEntries(ImPlotPlot& plot, const ImRect& legend_bb, bool interactable, const ImVec2& pad, const ImVec2& spacing, ImPlotOrientation orn, ImDrawList& DrawList) { ImGuiIO& IO = ImGui::GetIO(); // vars const float txt_ht = ImGui::GetTextLineHeight(); const float icon_size = txt_ht; const float icon_shrink = 2; ImU32 col_txt = GetStyleColorU32(ImPlotCol_LegendText); ImU32 col_txt_dis = ImAlphaU32(col_txt, 0.25f); // render each legend item float sum_label_width = 0; for (int i = 0; i < plot.GetLegendCount(); ++i) { ImPlotItem* item = plot.GetLegendItem(i); const char* label = plot.GetLegendLabel(i); const float label_width = ImGui::CalcTextSize(label, NULL, true).x; const ImVec2 top_left = orn == ImPlotOrientation_Vertical ? legend_bb.Min + pad + ImVec2(0, i * (txt_ht + spacing.y)) : legend_bb.Min + pad + ImVec2(i * (icon_size + spacing.x) + sum_label_width, 0); sum_label_width += label_width; ImRect icon_bb; icon_bb.Min = top_left + ImVec2(icon_shrink,icon_shrink); icon_bb.Max = top_left + ImVec2(icon_size - icon_shrink, icon_size - icon_shrink); ImRect label_bb; label_bb.Min = top_left; label_bb.Max = top_left + ImVec2(label_width + icon_size, icon_size); ImU32 col_hl_txt; ImU32 col_item = ImAlphaU32(item->Color,1); if (interactable && (icon_bb.Contains(IO.MousePos) || label_bb.Contains(IO.MousePos))) { item->LegendHovered = true; col_hl_txt = ImMixU32(col_txt, col_item, 64); } else { // item->LegendHovered = false; col_hl_txt = ImGui::GetColorU32(col_txt); } ImU32 iconColor; if (interactable && icon_bb.Contains(IO.MousePos)) { ImU32 col_alpha = ImAlphaU32(col_item,0.5f); iconColor = item->Show ? col_alpha : ImGui::GetColorU32(ImGuiCol_TextDisabled, 0.5f); if (IO.MouseClicked[0]) item->Show = !item->Show; } else { iconColor = item->Show ? col_item : col_txt_dis; } DrawList.AddRectFilled(icon_bb.Min, icon_bb.Max, iconColor, 1); const char* text_display_end = ImGui::FindRenderedTextEnd(label, NULL); if (label != text_display_end) DrawList.AddText(top_left + ImVec2(icon_size, 0), item->Show ? col_hl_txt : col_txt_dis, label, text_display_end); } } //----------------------------------------------------------------------------- // Tick Utils //----------------------------------------------------------------------------- void AddTicksDefault(const ImPlotRange& range, float pix, ImPlotOrientation orn, ImPlotTickCollection& ticks, const char* fmt) { const int idx0 = ticks.Size; const int nMinor = 10; const int nMajor = ImMax(2, (int)IM_ROUND(pix / (orn == ImPlotOrientation_Horizontal ? 400.0f : 300.0f))); const double nice_range = NiceNum(range.Size() * 0.99, false); const double interval = NiceNum(nice_range / (nMajor - 1), true); const double graphmin = floor(range.Min / interval) * interval; const double graphmax = ceil(range.Max / interval) * interval; bool first_major_set = false; int first_major_idx = 0; char dummy[32]; sprintf(dummy,fmt,-ImAbs(interval / nMinor)); ImVec2 dummy_size = ImGui::CalcTextSize(dummy); ImVec2 total_size(0,0); for (double major = graphmin; major < graphmax + 0.5 * interval; major += interval) { // is this zero? combat zero formatting issues if (major-interval < 0 && major+interval > 0) major = 0; if (range.Contains(major)) { if (!first_major_set) { first_major_idx = ticks.Size; first_major_set = true; } ticks.Append(major, true, true, fmt); total_size += dummy_size; } for (int i = 1; i < nMinor; ++i) { double minor = major + i * interval / nMinor; if (range.Contains(minor)) { ticks.Append(minor, false, true, fmt); total_size += dummy_size; } } } // prune if necessary if ((orn == ImPlotOrientation_Horizontal && total_size.x > pix) || (orn == ImPlotOrientation_Vertical && total_size.y > pix)) { for (int i = first_major_idx-1; i >= idx0; i -= 2) ticks.Ticks[i].ShowLabel = false; for (int i = first_major_idx+1; i < ticks.Size; i += 2) ticks.Ticks[i].ShowLabel = false; } } void AddTicksLogarithmic(const ImPlotRange& range, float pix, ImPlotOrientation orn, ImPlotTickCollection& ticks, const char* fmt) { if (range.Min <= 0 || range.Max <= 0) return; const int nMajor = orn == ImPlotOrientation_Horizontal ? ImMax(2, (int)IM_ROUND(pix * 0.01f)) : ImMax(2, (int)IM_ROUND(pix * 0.02f)); 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; if (major1 >= (range.Min - DBL_EPSILON) && major1 <= (range.Max + DBL_EPSILON)) ticks.Append(major1, true, true, fmt); 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) { double minor = major1 + i * interval; if (minor >= (range.Min - DBL_EPSILON) && minor <= (range.Max + DBL_EPSILON)) ticks.Append(minor, false, false, fmt); } } } } void AddTicksCustom(const double* values, const char* const labels[], int n, ImPlotTickCollection& ticks, const char* fmt) { for (int i = 0; i < n; ++i) { if (labels != NULL) { ImPlotTick tick(values[i], false, true); tick.TextOffset = ticks.TextBuffer.size(); ticks.TextBuffer.append(labels[i], labels[i] + strlen(labels[i]) + 1); tick.LabelSize = ImGui::CalcTextSize(labels[i]); ticks.Append(tick); } else { ticks.Append(values[i], false, true, fmt); } } } //----------------------------------------------------------------------------- // Time Ticks and Utils //----------------------------------------------------------------------------- // this may not be thread safe? static const double TimeUnitSpans[ImPlotTimeUnit_COUNT] = { 0.000001, 0.001, 1, 60, 3600, 86400, 2629800, 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; } 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) { 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); } 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; } ImPlotTime MkGmtTime(struct tm *ptm) { ImPlotTime t; #ifdef _WIN32 t.S = _mkgmtime(ptm); #else t.S = timegm(ptm); #endif if (t.S < 0) t.S = 0; return t; } tm* GetGmtTime(const ImPlotTime& t, tm* ptm) { #ifdef _WIN32 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); if (t.S < 0) t.S = 0; return t; } tm* GetLocTime(const ImPlotTime& t, tm* ptm) { #ifdef _WIN32 if (localtime_s(ptm, &t.S) == 0) return ptm; else return NULL; #else return localtime_r(&t.S, ptm); #endif } 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); } 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; } ImPlotTime AddTime(const ImPlotTime& t, ImPlotTimeUnit unit, int count) { tm& Tm = GImPlot->Tm; ImPlotTime t_out = t; switch(unit) { case ImPlotTimeUnit_Us: t_out.Us += count; break; case ImPlotTimeUnit_Ms: t_out.Us += count * 1000; break; 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; case ImPlotTimeUnit_Mo: for (int i = 0; i < abs(count); ++i) { GetTime(t_out, &Tm); if (count > 0) t_out.S += 86400 * GetDaysInMonth(Tm.tm_year + 1900, Tm.tm_mon); else if (count < 0) 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 } break; 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 } break; default: break; } t_out.RollOver(); return t_out; } ImPlotTime FloorTime(const ImPlotTime& t, ImPlotTimeUnit unit) { GetTime(t, &GImPlot->Tm); switch (unit) { case ImPlotTimeUnit_S: return ImPlotTime(t.S, 0); case ImPlotTimeUnit_Ms: return ImPlotTime(t.S, (t.Us / 1000) * 1000); case ImPlotTimeUnit_Us: return t; 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; default: return t; } return MkTime(&GImPlot->Tm); } ImPlotTime CeilTime(const ImPlotTime& t, ImPlotTimeUnit unit) { return AddTime(FloorTime(t, unit), unit, 1); } 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; } 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; } 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 FormatTime(const ImPlotTime& t, char* buffer, int size, ImPlotTimeFmt fmt, bool use_24_hr_clk) { 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; if (use_24_hr_clk) { const int hr = Tm.tm_hour; 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_HrMinSMs: return snprintf(buffer, size, "%02d:%02d:%02d.%03d", hr, min, sec, ms); 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); default: return 0; } } else { const char* ap = Tm.tm_hour < 12 ? "am" : "pm"; const int hr = (Tm.tm_hour == 0 || Tm.tm_hour == 12) ? 12 : Tm.tm_hour % 12; 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_HrMinSMs: return snprintf(buffer, size, "%d:%02d:%02d.%03d%s", hr, min, sec, ms, ap); 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); default: return 0; } } } int FormatDate(const ImPlotTime& t, char* buffer, int size, ImPlotDateFmt fmt, bool use_iso_8601) { tm& Tm = GImPlot->Tm; GetTime(t, &Tm); 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; if (use_iso_8601) { switch (fmt) { case ImPlotDateFmt_DayMo: return snprintf(buffer, size, "--%02d-%02d", mon, day); case ImPlotDateFmt_DayMoYr: return snprintf(buffer, size, "%d-%02d-%02d", year, mon, day); case ImPlotDateFmt_MoYr: return snprintf(buffer, size, "%d-%02d", year, mon); case ImPlotDateFmt_Mo: return snprintf(buffer, size, "--%02d", mon); case ImPlotDateFmt_Yr: return snprintf(buffer, size, "%d", year); default: return 0; } } else { switch (fmt) { case ImPlotDateFmt_DayMo: return snprintf(buffer, size, "%d/%d", mon, day); case ImPlotDateFmt_DayMoYr: return snprintf(buffer, size, "%d/%d/%02d", mon, day, yr); case ImPlotDateFmt_MoYr: return snprintf(buffer, size, "%s %d", MONTH_ABRVS[Tm.tm_mon], year); case ImPlotDateFmt_Mo: return snprintf(buffer, size, "%s", MONTH_ABRVS[Tm.tm_mon]); case ImPlotDateFmt_Yr: return snprintf(buffer, size, "%d", year); default: return 0; } } } int FormatDateTime(const ImPlotTime& t, char* buffer, int size, ImPlotDateTimeFmt fmt) { int written = 0; if (fmt.Date != ImPlotDateFmt_None) written += FormatDate(t, buffer, size, fmt.Date, fmt.UseISO8601); if (fmt.Time != ImPlotTimeFmt_None) { if (fmt.Date != ImPlotDateFmt_None) buffer[written++] = ' '; written += FormatTime(t, &buffer[written], size - written, fmt.Time, fmt.Use24HourClock); } return written; } inline float GetDateTimeWidth(ImPlotDateTimeFmt fmt) { static const ImPlotTime t_max_width = MakeTime(2888, 12, 22, 12, 58, 58, 888888); // best guess at time that maximizes pixel width char buffer[32]; FormatDateTime(t_max_width, buffer, 32, fmt); return ImGui::CalcTextSize(buffer).x; } void LabelTickTime(ImPlotTick& tick, ImGuiTextBuffer& buffer, const ImPlotTime& t, ImPlotDateTimeFmt fmt) { char temp[32]; if (tick.ShowLabel) { tick.TextOffset = buffer.size(); FormatDateTime(t, temp, 32, fmt); buffer.append(temp, temp + strlen(temp) + 1); tick.LabelSize = ImGui::CalcTextSize(buffer.Buf.Data + tick.TextOffset); } } 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; } static const ImPlotDateTimeFmt TimeFormatLevel0[ImPlotTimeUnit_COUNT] = { ImPlotDateTimeFmt(ImPlotDateFmt_None, ImPlotTimeFmt_Us), ImPlotDateTimeFmt(ImPlotDateFmt_None, ImPlotTimeFmt_SMs), ImPlotDateTimeFmt(ImPlotDateFmt_None, ImPlotTimeFmt_S), ImPlotDateTimeFmt(ImPlotDateFmt_None, ImPlotTimeFmt_HrMin), ImPlotDateTimeFmt(ImPlotDateFmt_None, ImPlotTimeFmt_Hr), ImPlotDateTimeFmt(ImPlotDateFmt_DayMo, ImPlotTimeFmt_None), ImPlotDateTimeFmt(ImPlotDateFmt_Mo, ImPlotTimeFmt_None), ImPlotDateTimeFmt(ImPlotDateFmt_Yr, ImPlotTimeFmt_None) }; static const ImPlotDateTimeFmt TimeFormatLevel1[ImPlotTimeUnit_COUNT] = { ImPlotDateTimeFmt(ImPlotDateFmt_None, ImPlotTimeFmt_HrMin), ImPlotDateTimeFmt(ImPlotDateFmt_None, ImPlotTimeFmt_HrMinS), ImPlotDateTimeFmt(ImPlotDateFmt_None, ImPlotTimeFmt_HrMin), ImPlotDateTimeFmt(ImPlotDateFmt_None, ImPlotTimeFmt_HrMin), ImPlotDateTimeFmt(ImPlotDateFmt_DayMoYr, ImPlotTimeFmt_None), ImPlotDateTimeFmt(ImPlotDateFmt_DayMoYr, ImPlotTimeFmt_None), ImPlotDateTimeFmt(ImPlotDateFmt_Yr, ImPlotTimeFmt_None), ImPlotDateTimeFmt(ImPlotDateFmt_Yr, ImPlotTimeFmt_None) }; static const ImPlotDateTimeFmt TimeFormatLevel1First[ImPlotTimeUnit_COUNT] = { ImPlotDateTimeFmt(ImPlotDateFmt_DayMoYr, ImPlotTimeFmt_HrMinS), ImPlotDateTimeFmt(ImPlotDateFmt_DayMoYr, ImPlotTimeFmt_HrMinS), ImPlotDateTimeFmt(ImPlotDateFmt_DayMoYr, ImPlotTimeFmt_HrMin), ImPlotDateTimeFmt(ImPlotDateFmt_DayMoYr, ImPlotTimeFmt_HrMin), ImPlotDateTimeFmt(ImPlotDateFmt_DayMoYr, ImPlotTimeFmt_None), ImPlotDateTimeFmt(ImPlotDateFmt_DayMoYr, ImPlotTimeFmt_None), ImPlotDateTimeFmt(ImPlotDateFmt_Yr, ImPlotTimeFmt_None), ImPlotDateTimeFmt(ImPlotDateFmt_Yr, ImPlotTimeFmt_None) }; static const ImPlotDateTimeFmt TimeFormatMouseCursor[ImPlotTimeUnit_COUNT] = { ImPlotDateTimeFmt(ImPlotDateFmt_None, ImPlotTimeFmt_Us), ImPlotDateTimeFmt(ImPlotDateFmt_None, ImPlotTimeFmt_SUs), ImPlotDateTimeFmt(ImPlotDateFmt_None, ImPlotTimeFmt_SMs), ImPlotDateTimeFmt(ImPlotDateFmt_None, ImPlotTimeFmt_HrMinS), ImPlotDateTimeFmt(ImPlotDateFmt_None, ImPlotTimeFmt_HrMin), ImPlotDateTimeFmt(ImPlotDateFmt_DayMo, ImPlotTimeFmt_Hr), ImPlotDateTimeFmt(ImPlotDateFmt_DayMoYr, ImPlotTimeFmt_None), ImPlotDateTimeFmt(ImPlotDateFmt_MoYr, ImPlotTimeFmt_None) }; inline ImPlotDateTimeFmt GetDateTimeFmt(const ImPlotDateTimeFmt* ctx, ImPlotTimeUnit idx) { ImPlotStyle& style = GetStyle(); ImPlotDateTimeFmt fmt = ctx[idx]; fmt.UseISO8601 = style.UseISO8601; fmt.Use24HourClock = style.Use24HourClock; return fmt; } void AddTicksTime(const ImPlotRange& range, float plot_width, ImPlotTickCollection& ticks) { // get units for level 0 and level 1 labels const ImPlotTimeUnit unit0 = GetUnitForRange(range.Size() / (plot_width / 100)); // level = 0 (top) const ImPlotTimeUnit unit1 = unit0 + 1; // level = 1 (bottom) // get time format specs const ImPlotDateTimeFmt fmt0 = GetDateTimeFmt(TimeFormatLevel0, unit0); const ImPlotDateTimeFmt fmt1 = GetDateTimeFmt(TimeFormatLevel1, unit1); const ImPlotDateTimeFmt fmtf = GetDateTimeFmt(TimeFormatLevel1First, unit1); // min max times const ImPlotTime t_min = ImPlotTime::FromDouble(range.Min); const ImPlotTime t_max = ImPlotTime::FromDouble(range.Max); // maximum allowable density of labels const float max_density = 0.5f; // book keeping const char* last_major = NULL; if (unit0 != ImPlotTimeUnit_Yr) { // pixels per major (level 1) division const float pix_per_major_div = plot_width / (float)(range.Size() / TimeUnitSpans[unit1]); // nominal pixels taken up by labels const float fmt0_width = GetDateTimeWidth(fmt0); const float fmt1_width = GetDateTimeWidth(fmt1); const float fmtf_width = GetDateTimeWidth(fmtf); // the maximum number of minor (level 0) labels that can fit between major (level 1) divisions const int minor_per_major = (int)(max_density * pix_per_major_div / fmt0_width); // the minor step size (level 0) const int step = GetTimeStep(minor_per_major, unit0); // generate ticks ImPlotTime t1 = FloorTime(ImPlotTime::FromDouble(range.Min), unit1); while (t1 < t_max) { // get next major const ImPlotTime t2 = AddTime(t1, unit1, 1); // add major tick if (t1 >= t_min && t1 <= t_max) { // minor level 0 tick ImPlotTick tick_min(t1.ToDouble(),true,true); tick_min.Level = 0; LabelTickTime(tick_min,ticks.TextBuffer,t1,fmt0); ticks.Append(tick_min); // major level 1 tick ImPlotTick tick_maj(t1.ToDouble(),true,true); tick_maj.Level = 1; LabelTickTime(tick_maj,ticks.TextBuffer,t1, last_major == NULL ? fmtf : fmt1); const char* this_major = ticks.TextBuffer.Buf.Data + tick_maj.TextOffset; if (last_major && TimeLabelSame(last_major,this_major)) tick_maj.ShowLabel = false; last_major = this_major; ticks.Append(tick_maj); } // add minor ticks up until next major if (minor_per_major > 1 && (t_min <= t2 && t1 <= t_max)) { ImPlotTime t12 = AddTime(t1, unit0, step); while (t12 < t2) { float px_to_t2 = (float)((t2 - t12).ToDouble()/range.Size()) * plot_width; if (t12 >= t_min && t12 <= t_max) { ImPlotTick tick(t12.ToDouble(),false,px_to_t2 >= fmt0_width); tick.Level = 0; LabelTickTime(tick,ticks.TextBuffer,t12,fmt0); ticks.Append(tick); 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; LabelTickTime(tick_maj,ticks.TextBuffer,t12,fmtf); last_major = ticks.TextBuffer.Buf.Data + tick_maj.TextOffset; ticks.Append(tick_maj); } } t12 = AddTime(t12, unit0, step); } } t1 = t2; } } else { const ImPlotDateTimeFmt fmty = GetDateTimeFmt(TimeFormatLevel0, ImPlotTimeUnit_Yr); const float label_width = GetDateTimeWidth(fmty); const int max_labels = (int)(max_density * plot_width / label_width); const int year_min = GetYear(t_min); const int year_max = GetYear(CeilTime(t_max, ImPlotTimeUnit_Yr)); 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); const int graphmax = (int)(ceil(year_max / interval) * interval); const int step = (int)interval <= 0 ? 1 : (int)interval; for (int y = graphmin; y < graphmax; y += step) { ImPlotTime t = MakeTime(y); if (t >= t_min && t <= t_max) { ImPlotTick tick(t.ToDouble(), true, true); tick.Level = 0; LabelTickTime(tick, ticks.TextBuffer, t, fmty); ticks.Append(tick); } } } } //----------------------------------------------------------------------------- // Axis Utils //----------------------------------------------------------------------------- static inline int AxisPrecision(const ImPlotAxis& axis, const ImPlotTickCollection& ticks) { const double range = ticks.Size > 1 ? (ticks.Ticks[1].PlotPos - ticks.Ticks[0].PlotPos) : axis.Range.Size(); return Precision(range); } static inline double RoundAxisValue(const ImPlotAxis& axis, const ImPlotTickCollection& ticks, double value) { return RoundTo(value, AxisPrecision(axis,ticks)); } int LabelAxisValue(const ImPlotAxis& axis, const ImPlotTickCollection& ticks, double value, char* buff, int size) { ImPlotContext& gp = *GImPlot; if (ImHasFlag(axis.Flags, ImPlotAxisFlags_Time)) { ImPlotTimeUnit unit = (axis.Orientation == ImPlotOrientation_Horizontal) ? GetUnitForRange(axis.Range.Size() / (gp.CurrentPlot->PlotRect.GetWidth() / 100)) : GetUnitForRange(axis.Range.Size() / (gp.CurrentPlot->PlotRect.GetHeight() / 100)); return FormatDateTime(ImPlotTime::FromDouble(value), buff, size, GetDateTimeFmt(TimeFormatMouseCursor, unit)); } else { double range = ticks.Size > 1 ? (ticks.Ticks[1].PlotPos - ticks.Ticks[0].PlotPos) : axis.Range.Size(); return snprintf(buff, size, "%.*f", Precision(range), value); } } void UpdateAxisColors(int axis_flag, ImPlotAxis* axis) { const ImVec4 col_label = GetStyleColorVec4(axis_flag); const ImVec4 col_grid = GetStyleColorVec4(axis_flag + 1); axis->ColorMaj = ImGui::GetColorU32(col_grid); axis->ColorMin = ImGui::GetColorU32(col_grid*ImVec4(1,1,1,GImPlot->Style.MinorAlpha)); axis->ColorTxt = ImGui::GetColorU32(col_label); } //----------------------------------------------------------------------------- // RENDERING //----------------------------------------------------------------------------- static inline void RenderGridLinesX(ImDrawList& DrawList, const ImPlotTickCollection& ticks, const ImRect& rect, ImU32 col_maj, ImU32 col_min, float size_maj, float size_min) { const float density = ticks.Size / rect.GetWidth(); ImVec4 col_min4 = ImGui::ColorConvertU32ToFloat4(col_min); col_min4.w *= ImClamp(ImRemap(density, 0.1f, 0.2f, 1.0f, 0.0f), 0.0f, 1.0f); col_min = ImGui::ColorConvertFloat4ToU32(col_min4); for (int t = 0; t < ticks.Size; t++) { const ImPlotTick& xt = ticks.Ticks[t]; if (xt.Level == 0) { if (xt.Major) DrawList.AddLine(ImVec2(xt.PixelPos, rect.Min.y), ImVec2(xt.PixelPos, rect.Max.y), col_maj, size_maj); else if (density < 0.2f) DrawList.AddLine(ImVec2(xt.PixelPos, rect.Min.y), ImVec2(xt.PixelPos, rect.Max.y), col_min, size_min); } } } static inline void RenderGridLinesY(ImDrawList& DrawList, const ImPlotTickCollection& ticks, const ImRect& rect, ImU32 col_maj, ImU32 col_min, float size_maj, float size_min) { const float density = ticks.Size / rect.GetHeight(); ImVec4 col_min4 = ImGui::ColorConvertU32ToFloat4(col_min); col_min4.w *= ImClamp(ImRemap(density, 0.1f, 0.2f, 1.0f, 0.0f), 0.0f, 1.0f); col_min = ImGui::ColorConvertFloat4ToU32(col_min4); for (int t = 0; t < ticks.Size; t++) { const ImPlotTick& yt = ticks.Ticks[t]; if (yt.Major) DrawList.AddLine(ImVec2(rect.Min.x, yt.PixelPos), ImVec2(rect.Max.x, yt.PixelPos), col_maj, size_maj); else if (density < 0.2f) DrawList.AddLine(ImVec2(rect.Min.x, yt.PixelPos), ImVec2(rect.Max.x, yt.PixelPos), col_min, size_min); } } static inline void RenderSelectionRect(ImDrawList& DrawList, const ImVec2& p_min, const ImVec2& p_max, const ImVec4& col) { const ImU32 col_bg = ImGui::GetColorU32(col * ImVec4(1,1,1,0.25f)); const ImU32 col_bd = ImGui::GetColorU32(col); DrawList.AddRectFilled(p_min, p_max, col_bg); DrawList.AddRect(p_min, p_max, col_bd); } //----------------------------------------------------------------------------- // BeginPlot() //----------------------------------------------------------------------------- bool BeginPlot(const char* title, const char* x_label, const char* y1_label, const ImVec2& size, ImPlotFlags flags, ImPlotAxisFlags x_flags, ImPlotAxisFlags y1_flags, ImPlotAxisFlags y2_flags, ImPlotAxisFlags y3_flags, const char* y2_label, const char* y3_label) { IM_ASSERT_USER_ERROR(GImPlot != NULL, "No current context. Did you call ImPlot::CreateContext() or ImPlot::SetCurrentContext()?"); ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot == NULL, "Mismatched BeginPlot()/EndPlot()!"); 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(y1_flags, ImPlotAxisFlags_Time), "Y axes cannot display time formatted labels!"); // FRONT MATTER ----------------------------------------------------------- ImGuiContext &G = *GImGui; ImGuiWindow * Window = G.CurrentWindow; if (Window->SkipItems) { Reset(GImPlot); return false; } const ImGuiID ID = Window->GetID(title); const ImGuiStyle &Style = G.Style; const ImGuiIO & IO = ImGui::GetIO(); bool just_created = gp.Plots.GetByKey(ID) == NULL; gp.CurrentPlot = gp.Plots.GetOrAddByKey(ID); gp.CurrentPlot->ID = ID; ImPlotPlot &plot = *gp.CurrentPlot; plot.CurrentYAxis = 0; if (just_created) { plot.Flags = flags; plot.XAxis.Flags = x_flags; plot.YAxis[0].Flags = y1_flags; plot.YAxis[1].Flags = y2_flags; plot.YAxis[2].Flags = y3_flags; } else { // TODO: Check which individual flags changed, and only reset those! // There's probably an easy bit mask trick I'm not aware of. if (flags != plot.PreviousFlags) plot.Flags = flags; if (x_flags != plot.XAxis.PreviousFlags) plot.XAxis.Flags = x_flags; if (y1_flags != plot.YAxis[0].PreviousFlags) plot.YAxis[0].Flags = y1_flags; if (y2_flags != plot.YAxis[1].PreviousFlags) plot.YAxis[1].Flags = y2_flags; if (y3_flags != plot.YAxis[2].PreviousFlags) plot.YAxis[2].Flags = y3_flags; } plot.PreviousFlags = flags; plot.XAxis.PreviousFlags = x_flags; plot.YAxis[0].PreviousFlags = y1_flags; plot.YAxis[1].PreviousFlags = y2_flags; plot.YAxis[2].PreviousFlags = y3_flags; // capture scroll with a child region if (!ImHasFlag(plot.Flags, ImPlotFlags_NoChild)) { ImGui::BeginChild(title, ImVec2(size.x == 0 ? gp.Style.PlotDefaultSize.x : size.x, size.y == 0 ? gp.Style.PlotDefaultSize.y : size.y), false, ImGuiWindowFlags_NoScrollbar); Window = ImGui::GetCurrentWindow(); Window->ScrollMax.y = 1.0f; gp.ChildWindowMade = true; } else { gp.ChildWindowMade = false; } ImDrawList &DrawList = *Window->DrawList; // NextPlotData ----------------------------------------------------------- // 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]); } if (gp.NextPlotData.HasXRange) { if (!plot.Initialized || gp.NextPlotData.XRangeCond == ImGuiCond_Always) plot.XAxis.SetRange(gp.NextPlotData.XRange); } for (int i = 0; i < IMPLOT_Y_AXES; i++) { if (gp.NextPlotData.HasYRange[i]) { if (!plot.Initialized || gp.NextPlotData.YRangeCond[i] == ImGuiCond_Always) plot.YAxis[i].SetRange(gp.NextPlotData.YRange[i]); } } // Initialization ------------------------------------------------------------ if (!plot.Initialized) { if (!ImHasFlag(plot.XAxis.Flags,ImPlotAxisFlags_NoInitialFit) && !gp.NextPlotData.HasXRange && !gp.NextPlotData.LinkedXmin && !gp.NextPlotData.LinkedXmax) gp.FitThisFrame = gp.FitX = true; for (int i = 0; i < IMPLOT_Y_AXES; ++i) { if (!ImHasFlag(plot.YAxis[i].Flags,ImPlotAxisFlags_NoInitialFit) && !gp.NextPlotData.HasYRange[i] && !gp.NextPlotData.LinkedYmin[i] && !gp.NextPlotData.LinkedYmax[i]) gp.FitThisFrame = gp.FitY[i] = true; } } // AXIS STATES ------------------------------------------------------------ plot.XAxis.HasRange = gp.NextPlotData.HasXRange; plot.XAxis.RangeCond = gp.NextPlotData.XRangeCond; plot.XAxis.Present = true; plot.YAxis[0].HasRange = gp.NextPlotData.HasYRange[0]; plot.YAxis[0].RangeCond = gp.NextPlotData.YRangeCond[0]; plot.YAxis[0].Present = true; plot.YAxis[1].HasRange = gp.NextPlotData.HasYRange[1]; plot.YAxis[1].RangeCond = gp.NextPlotData.YRangeCond[1]; plot.YAxis[1].Present = ImHasFlag(plot.Flags, ImPlotFlags_YAxis2); plot.YAxis[2].HasRange = gp.NextPlotData.HasYRange[2]; plot.YAxis[2].RangeCond = gp.NextPlotData.YRangeCond[2]; plot.YAxis[2].Present = ImHasFlag(plot.Flags, ImPlotFlags_YAxis3); 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)) gp.Scales[i] = ImPlotScale_LinLog; else if (ImHasFlag(plot.XAxis.Flags, ImPlotAxisFlags_LogScale) && ImHasFlag(plot.YAxis[i].Flags, ImPlotAxisFlags_LogScale)) gp.Scales[i] = ImPlotScale_LogLog; } // constraints plot.XAxis.Constrain(); for (int i = 0; i < IMPLOT_Y_AXES; ++i) plot.YAxis[i].Constrain(); // constrain equal axes for primary x and y if not approximately equal // constrains x to y since x pixel size depends on y labels width, and causes feedback loops in opposite case if (ImHasFlag(plot.Flags, ImPlotFlags_Equal)) { double xar = plot.XAxis.GetAspect(); double yar = plot.YAxis[0].GetAspect(); if (!ImAlmostEqual(xar,yar) && !plot.YAxis[0].IsInputLocked()) plot.XAxis.SetAspect(yar); } // AXIS COLORS ----------------------------------------------------------------- UpdateAxisColors(ImPlotCol_XAxis, &plot.XAxis); UpdateAxisColors(ImPlotCol_YAxis, &plot.YAxis[0]); UpdateAxisColors(ImPlotCol_YAxis2, &plot.YAxis[1]); UpdateAxisColors(ImPlotCol_YAxis3, &plot.YAxis[2]); // BB, PADDING, HOVER ----------------------------------------------------------- // frame ImVec2 frame_size = ImGui::CalcItemSize(size, gp.Style.PlotDefaultSize.x, gp.Style.PlotDefaultSize.y); 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; plot.FrameRect = ImRect(Window->DC.CursorPos, Window->DC.CursorPos + frame_size); ImGui::ItemSize(plot.FrameRect); if (!ImGui::ItemAdd(plot.FrameRect, ID, &plot.FrameRect)) { Reset(GImPlot); return false; } plot.FrameHovered = ImGui::ItemHoverable(plot.FrameRect, ID); if (G.HoveredIdPreviousFrame != 0 && G.HoveredIdPreviousFrame != ID) plot.FrameHovered = false; ImGui::SetItemAllowOverlap(); ImGui::RenderFrame(plot.FrameRect.Min, plot.FrameRect.Max, GetStyleColorU32(ImPlotCol_FrameBg), true, Style.FrameRounding); // canvas/axes bb plot.CanvasRect = ImRect(plot.FrameRect.Min + gp.Style.PlotPadding, plot.FrameRect.Max - gp.Style.PlotPadding); plot.AxesRect = plot.FrameRect; // outside legend adjustments if (!ImHasFlag(plot.Flags, ImPlotFlags_NoLegend) && plot.GetLegendCount() > 0 && plot.LegendOutside) { const ImVec2 legend_size = CalcLegendSize(plot, gp.Style.LegendInnerPadding, gp.Style.LegendSpacing, plot.LegendOrientation); const bool west = ImHasFlag(plot.LegendLocation, ImPlotLocation_West) && !ImHasFlag(plot.LegendLocation, ImPlotLocation_East); const bool east = ImHasFlag(plot.LegendLocation, ImPlotLocation_East) && !ImHasFlag(plot.LegendLocation, ImPlotLocation_West); const bool north = ImHasFlag(plot.LegendLocation, ImPlotLocation_North) && !ImHasFlag(plot.LegendLocation, ImPlotLocation_South); const bool south = ImHasFlag(plot.LegendLocation, ImPlotLocation_South) && !ImHasFlag(plot.LegendLocation, ImPlotLocation_North); const bool horz = plot.LegendOrientation == ImPlotOrientation_Horizontal; if ((west && !horz) || (west && horz && !north && !south)) { plot.CanvasRect.Min.x += (legend_size.x + gp.Style.LegendPadding.x); plot.AxesRect.Min.x += (legend_size.x + gp.Style.PlotPadding.x); } if ((east && !horz) || (east && horz && !north && !south)) { plot.CanvasRect.Max.x -= (legend_size.x + gp.Style.LegendPadding.x); plot.AxesRect.Max.x -= (legend_size.x + gp.Style.PlotPadding.x); } if ((north && horz) || (north && !horz && !west && !east)) { plot.CanvasRect.Min.y += (legend_size.y + gp.Style.LegendPadding.y); plot.AxesRect.Min.y += (legend_size.y + gp.Style.PlotPadding.y); } if ((south && horz) || (south && !horz && !west && !east)) { plot.CanvasRect.Max.y -= (legend_size.y + gp.Style.LegendPadding.y); plot.AxesRect.Max.y -= (legend_size.y + gp.Style.PlotPadding.y); } } gp.RenderX = (!ImHasFlag(plot.XAxis.Flags, ImPlotAxisFlags_NoGridLines) || !ImHasFlag(plot.XAxis.Flags, ImPlotAxisFlags_NoTickMarks) || !ImHasFlag(plot.XAxis.Flags, ImPlotAxisFlags_NoTickLabels)); for (int i = 0; i < IMPLOT_Y_AXES; i++) { gp.RenderY[i] = plot.YAxis[i].Present && (!ImHasFlag(plot.YAxis[i].Flags, ImPlotAxisFlags_NoGridLines) || !ImHasFlag(plot.YAxis[i].Flags, ImPlotAxisFlags_NoTickMarks) || !ImHasFlag(plot.YAxis[i].Flags, ImPlotAxisFlags_NoTickLabels)); } // plot bb // (1) calc top/bot padding and plot height ImVec2 title_size(0.0f, 0.0f); const float txt_height = ImGui::GetTextLineHeight(); if (!ImHasFlag(plot.Flags, ImPlotFlags_NoTitle)){ title_size = ImGui::CalcTextSize(title, NULL, true); } const bool show_x_label = x_label && !ImHasFlag(plot.XAxis.Flags, ImPlotAxisFlags_NoLabel); const float pad_top = title_size.x > 0.0f ? txt_height + gp.Style.LabelPadding.y : 0; const float pad_bot = (plot.XAxis.IsLabeled() ? ImMax(txt_height, gp.XTicks.MaxHeight) + gp.Style.LabelPadding.y + (plot.XAxis.IsTime() ? txt_height + gp.Style.LabelPadding.y : 0) : 0) + (show_x_label ? txt_height + gp.Style.LabelPadding.y : 0); const float plot_height = plot.CanvasRect.GetHeight() - pad_top - pad_bot; // (2) get y tick labels (needed for left/right pad) for (int i = 0; i < IMPLOT_Y_AXES; i++) { if (gp.RenderY[i] && gp.NextPlotData.ShowDefaultTicksY[i]) { if (ImHasFlag(plot.YAxis[i].Flags, ImPlotAxisFlags_LogScale)) AddTicksLogarithmic(plot.YAxis[i].Range, plot_height, ImPlotOrientation_Vertical, gp.YTicks[i], GetFormatY(i)); else AddTicksDefault(plot.YAxis[i].Range, plot_height, ImPlotOrientation_Vertical, gp.YTicks[i], GetFormatY(i)); } } // (3) calc left/right pad const bool show_y1_label = y1_label && !ImHasFlag(plot.YAxis[0].Flags, ImPlotAxisFlags_NoLabel); const bool show_y2_label = y2_label && !ImHasFlag(plot.YAxis[1].Flags, ImPlotAxisFlags_NoLabel); const bool show_y3_label = y3_label && !ImHasFlag(plot.YAxis[2].Flags, ImPlotAxisFlags_NoLabel); const float pad_left = (show_y1_label ? txt_height + gp.Style.LabelPadding.x : 0) + (plot.YAxis[0].IsLabeled() ? gp.YTicks[0].MaxWidth + gp.Style.LabelPadding.x : 0); const float pad_right = ((plot.YAxis[1].Present && plot.YAxis[1].IsLabeled()) ? gp.YTicks[1].MaxWidth + gp.Style.LabelPadding.x : 0) + ((plot.YAxis[1].Present && show_y2_label) ? txt_height + gp.Style.LabelPadding.x : 0) + ((plot.YAxis[1].Present && plot.YAxis[2].Present) ? gp.Style.LabelPadding.x + gp.Style.MinorTickLen.y : 0) + ((plot.YAxis[2].Present && plot.YAxis[2].IsLabeled()) ? gp.YTicks[2].MaxWidth + gp.Style.LabelPadding.x : 0) + ((plot.YAxis[2].Present && show_y3_label) ? txt_height + gp.Style.LabelPadding.x : 0); const float plot_width = plot.CanvasRect.GetWidth() - pad_left - pad_right; // (4) get x ticks if (gp.RenderX && gp.NextPlotData.ShowDefaultTicksX) { if (plot.XAxis.IsTime()) AddTicksTime(plot.XAxis.Range, plot_width, gp.XTicks); else if (ImHasFlag(plot.XAxis.Flags, ImPlotAxisFlags_LogScale)) AddTicksLogarithmic(plot.XAxis.Range, plot_width, ImPlotOrientation_Horizontal, gp.XTicks, GetFormatX()); else AddTicksDefault(plot.XAxis.Range, plot_width, ImPlotOrientation_Horizontal, gp.XTicks, GetFormatX()); } // (5) calc plot bb plot.PlotRect = ImRect(plot.CanvasRect.Min + ImVec2(pad_left, pad_top), plot.CanvasRect.Max - ImVec2(pad_right, pad_bot)); plot.PlotHovered = plot.FrameHovered && plot.PlotRect.Contains(IO.MousePos); // x axis region bb and hover plot.XAxis.HoverRect = ImRect(plot.PlotRect.GetBL(), ImVec2(plot.PlotRect.Max.x, plot.AxesRect.Max.y)); plot.XAxis.ExtHovered = plot.XAxis.HoverRect.Contains(IO.MousePos); plot.XAxis.AllHovered = plot.XAxis.ExtHovered || plot.PlotHovered; // axis label reference gp.YAxisReference[0] = plot.PlotRect.Min.x; gp.YAxisReference[1] = plot.PlotRect.Max.x; gp.YAxisReference[2] = !plot.YAxis[1].Present ? plot.PlotRect.Max.x : gp.YAxisReference[1] + (plot.YAxis[1].IsLabeled() ? gp.Style.LabelPadding.x + gp.YTicks[1].MaxWidth : 0) + (show_y2_label ? txt_height + gp.Style.LabelPadding.x : 0) + gp.Style.LabelPadding.x + gp.Style.MinorTickLen.y; // y axis regions bb and hover plot.YAxis[0].HoverRect = ImRect(ImVec2(plot.AxesRect.Min.x, plot.PlotRect.Min.y), ImVec2(plot.PlotRect.Min.x, plot.PlotRect.Max.y)); plot.YAxis[1].HoverRect = plot.YAxis[2].Present ? ImRect(plot.PlotRect.GetTR(), ImVec2(gp.YAxisReference[2], plot.PlotRect.Max.y)) : ImRect(plot.PlotRect.GetTR(), ImVec2(plot.AxesRect.Max.x, plot.PlotRect.Max.y)); plot.YAxis[2].HoverRect = ImRect(ImVec2(gp.YAxisReference[2], plot.PlotRect.Min.y), ImVec2(plot.AxesRect.Max.x, plot.PlotRect.Max.y)); for (int i = 0; i < IMPLOT_Y_AXES; ++i) { plot.YAxis[i].ExtHovered = plot.YAxis[i].Present && plot.YAxis[i].HoverRect.Contains(IO.MousePos); plot.YAxis[i].AllHovered = plot.YAxis[i].ExtHovered || plot.PlotHovered; } const bool any_hov_y_axis_region = plot.YAxis[0].AllHovered || plot.YAxis[1].AllHovered || plot.YAxis[2].AllHovered; bool hov_query = false; if (plot.PlotHovered && plot.Queried && !plot.Querying) { ImRect bb_query = plot.QueryRect; bb_query.Min += plot.PlotRect.Min; bb_query.Max += plot.PlotRect.Min; hov_query = bb_query.Contains(IO.MousePos); } // AXIS ASPECT RATIOS plot.XAxis.Pixels = plot.PlotRect.GetWidth(); for (int i = 0; i < IMPLOT_Y_AXES; ++i) plot.YAxis[i].Pixels = plot.PlotRect.GetHeight(); // QUERY DRAG ------------------------------------------------------------- if (plot.DraggingQuery && (IO.MouseReleased[gp.InputMap.PanButton] || !IO.MouseDown[gp.InputMap.PanButton])) { plot.DraggingQuery = false; } if (plot.DraggingQuery) { ImGui::SetMouseCursor(ImGuiMouseCursor_ResizeAll); plot.QueryRect.Min += IO.MouseDelta; plot.QueryRect.Max += IO.MouseDelta; } if (plot.PlotHovered && hov_query && !plot.DraggingQuery && !plot.Selecting && !plot.LegendHovered) { ImGui::SetMouseCursor(ImGuiMouseCursor_ResizeAll); const bool any_y_dragging = plot.YAxis[0].Dragging || plot.YAxis[1].Dragging || plot.YAxis[2].Dragging; if (IO.MouseDown[gp.InputMap.PanButton] && !plot.XAxis.Dragging && !any_y_dragging) { plot.DraggingQuery = true; } } // DRAG INPUT ------------------------------------------------------------- const bool axis_equal = ImHasFlag(plot.Flags, ImPlotFlags_Equal); // end drags if (plot.XAxis.Dragging && (IO.MouseReleased[gp.InputMap.PanButton] || !IO.MouseDown[gp.InputMap.PanButton])) { plot.XAxis.Dragging = false; G.IO.MouseDragMaxDistanceSqr[0] = 0; } for (int i = 0; i < IMPLOT_Y_AXES; i++) { if (plot.YAxis[i].Dragging && (IO.MouseReleased[gp.InputMap.PanButton] || !IO.MouseDown[gp.InputMap.PanButton])) { plot.YAxis[i].Dragging = false; G.IO.MouseDragMaxDistanceSqr[0] = 0; } } const bool any_y_dragging = plot.YAxis[0].Dragging || plot.YAxis[1].Dragging || plot.YAxis[2].Dragging; bool drag_in_progress = plot.XAxis.Dragging || any_y_dragging; // do drag if (drag_in_progress) { UpdateTransformCache(); bool equal_dragged = false; // special case for axis equal and both x and y0 hovered if (axis_equal && !plot.XAxis.IsInputLocked() && plot.XAxis.Dragging && !plot.YAxis[0].IsInputLocked() && plot.YAxis[0].Dragging) { ImPlotPoint plot_tl = PixelsToPlot(plot.PlotRect.Min - IO.MouseDelta, 0); ImPlotPoint plot_br = PixelsToPlot(plot.PlotRect.Max - IO.MouseDelta, 0); plot.XAxis.SetMin(plot.XAxis.IsInverted() ? plot_br.x : plot_tl.x); plot.XAxis.SetMax(plot.XAxis.IsInverted() ? plot_tl.x : plot_br.x); plot.YAxis[0].SetMin(plot.YAxis[0].IsInverted() ? plot_tl.y : plot_br.y); plot.YAxis[0].SetMax(plot.YAxis[0].IsInverted() ? plot_br.y : plot_tl.y); double xar = plot.XAxis.GetAspect(); double yar = plot.YAxis[0].GetAspect(); if (!ImAlmostEqual(xar,yar) && !plot.YAxis[0].IsInputLocked()) plot.XAxis.SetAspect(yar); equal_dragged = true; } if (!plot.XAxis.IsInputLocked() && plot.XAxis.Dragging && !equal_dragged) { ImPlotPoint plot_tl = PixelsToPlot(plot.PlotRect.Min - IO.MouseDelta, 0); ImPlotPoint plot_br = PixelsToPlot(plot.PlotRect.Max - IO.MouseDelta, 0); plot.XAxis.SetMin(plot.XAxis.IsInverted() ? plot_br.x : plot_tl.x); plot.XAxis.SetMax(plot.XAxis.IsInverted() ? plot_tl.x : plot_br.x); if (axis_equal) plot.YAxis[0].SetAspect(plot.XAxis.GetAspect()); } for (int i = 0; i < IMPLOT_Y_AXES; i++) { if (!plot.YAxis[i].IsInputLocked() && plot.YAxis[i].Dragging && !(i == 0 && equal_dragged)) { ImPlotPoint plot_tl = PixelsToPlot(plot.PlotRect.Min - IO.MouseDelta, i); ImPlotPoint plot_br = PixelsToPlot(plot.PlotRect.Max - IO.MouseDelta, i); plot.YAxis[i].SetMin(plot.YAxis[i].IsInverted() ? plot_tl.y : plot_br.y); plot.YAxis[i].SetMax(plot.YAxis[i].IsInverted() ? plot_br.y : plot_tl.y); if (i == 0 && axis_equal) plot.XAxis.SetAspect(plot.YAxis[0].GetAspect()); } } // Set the mouse cursor based on which axes are moving. int direction = 0; if (!plot.XAxis.IsInputLocked() && plot.XAxis.Dragging) { direction |= (1 << 1); } for (int i = 0; i < IMPLOT_Y_AXES; i++) { if (!plot.YAxis[i].Present) { continue; } if (!plot.YAxis[i].IsInputLocked() && plot.YAxis[i].Dragging) { direction |= (1 << 2); break; } } if (IO.MouseDragMaxDistanceSqr[0] > 5) { 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); } } // start drag if (!drag_in_progress && plot.FrameHovered && IO.MouseClicked[gp.InputMap.PanButton] && ImHasFlag(IO.KeyMods, gp.InputMap.PanMod) && !plot.Selecting && !plot.LegendHovered && !hov_query && !plot.DraggingQuery) { if (plot.XAxis.AllHovered) { plot.XAxis.Dragging = true; } for (int i = 0; i < IMPLOT_Y_AXES; i++) { if (plot.YAxis[i].AllHovered) { plot.YAxis[i].Dragging = true; } } } // SCROLL INPUT ----------------------------------------------------------- if (plot.FrameHovered && (plot.XAxis.AllHovered || any_hov_y_axis_region) && IO.MouseWheel != 0) { UpdateTransformCache(); float zoom_rate = IMPLOT_ZOOM_RATE; if (IO.MouseWheel > 0) zoom_rate = (-zoom_rate) / (1.0f + (2.0f * zoom_rate)); float tx = ImRemap(IO.MousePos.x, plot.PlotRect.Min.x, plot.PlotRect.Max.x, 0.0f, 1.0f); float ty = ImRemap(IO.MousePos.y, plot.PlotRect.Min.y, plot.PlotRect.Max.y, 0.0f, 1.0f); bool equal_zoomed = false; // special case for axis equal and both x and y0 hovered if (axis_equal && plot.XAxis.AllHovered && !plot.XAxis.IsInputLocked() && plot.YAxis[0].AllHovered && !plot.YAxis[0].IsInputLocked()) { const ImPlotPoint& plot_tl = PixelsToPlot(plot.PlotRect.Min - plot.PlotRect.GetSize() * ImVec2(tx * zoom_rate, ty * zoom_rate), 0); const ImPlotPoint& plot_br = PixelsToPlot(plot.PlotRect.Max + plot.PlotRect.GetSize() * ImVec2((1 - tx) * zoom_rate, (1 - ty) * zoom_rate), 0); plot.XAxis.SetMin(plot.XAxis.IsInverted() ? plot_br.x : plot_tl.x); plot.XAxis.SetMax(plot.XAxis.IsInverted() ? plot_tl.x : plot_br.x); plot.YAxis[0].SetMin(plot.YAxis[0].IsInverted() ? plot_tl.y : plot_br.y); plot.YAxis[0].SetMax(plot.YAxis[0].IsInverted() ? plot_br.y : plot_tl.y); double xar = plot.XAxis.GetAspect(); double yar = plot.YAxis[0].GetAspect(); if (!ImAlmostEqual(xar,yar) && !plot.YAxis[0].IsInputLocked()) plot.XAxis.SetAspect(yar); equal_zoomed = true; } if (plot.XAxis.AllHovered && !plot.XAxis.IsInputLocked() && !equal_zoomed) { const ImPlotPoint& plot_tl = PixelsToPlot(plot.PlotRect.Min - plot.PlotRect.GetSize() * ImVec2(tx * zoom_rate, ty * zoom_rate), 0); const ImPlotPoint& plot_br = PixelsToPlot(plot.PlotRect.Max + plot.PlotRect.GetSize() * ImVec2((1 - tx) * zoom_rate, (1 - ty) * zoom_rate), 0); plot.XAxis.SetMin(plot.XAxis.IsInverted() ? plot_br.x : plot_tl.x); plot.XAxis.SetMax(plot.XAxis.IsInverted() ? plot_tl.x : plot_br.x); if (axis_equal) plot.YAxis[0].SetAspect(plot.XAxis.GetAspect()); } for (int i = 0; i < IMPLOT_Y_AXES; i++) { if (plot.YAxis[i].AllHovered && !plot.YAxis[i].IsInputLocked() && !(i == 0 && equal_zoomed)) { const ImPlotPoint& plot_tl = PixelsToPlot(plot.PlotRect.Min - plot.PlotRect.GetSize() * ImVec2(tx * zoom_rate, ty * zoom_rate), i); const ImPlotPoint& plot_br = PixelsToPlot(plot.PlotRect.Max + plot.PlotRect.GetSize() * ImVec2((1 - tx) * zoom_rate, (1 - ty) * zoom_rate), i); plot.YAxis[i].SetMin(plot.YAxis[i].IsInverted() ? plot_tl.y : plot_br.y); plot.YAxis[i].SetMax(plot.YAxis[i].IsInverted() ? plot_br.y : plot_tl.y); if (i == 0 && axis_equal) plot.XAxis.SetAspect(plot.YAxis[0].GetAspect()); } } } // BOX-SELECTION AND QUERY ------------------------------------------------ // begin selection if (!ImHasFlag(plot.Flags, ImPlotFlags_NoBoxSelect) && plot.PlotHovered && IO.MouseClicked[gp.InputMap.BoxSelectButton] && ImHasFlag(IO.KeyMods, gp.InputMap.BoxSelectMod)) { plot.Selecting = true; plot.SelectStart = IO.MousePos; plot.SelectRect = ImRect(0,0,0,0); } // update selection if (plot.Selecting) { UpdateTransformCache(); const ImVec2 d = plot.SelectStart - IO.MousePos; const bool x_can_change = !ImHasFlag(IO.KeyMods,gp.InputMap.HorizontalMod) && ImFabs(d.x) > 2; const bool y_can_change = !ImHasFlag(IO.KeyMods,gp.InputMap.VerticalMod) && ImFabs(d.y) > 2; // confirm if (IO.MouseReleased[gp.InputMap.BoxSelectButton] || !IO.MouseDown[gp.InputMap.BoxSelectButton]) { if (!plot.XAxis.IsInputLocked() && x_can_change) { ImPlotPoint p1 = PixelsToPlot(plot.SelectStart); ImPlotPoint p2 = PixelsToPlot(IO.MousePos); plot.XAxis.SetMin(ImMin(p1.x, p2.x)); plot.XAxis.SetMax(ImMax(p1.x, p2.x)); } for (int i = 0; i < IMPLOT_Y_AXES; i++) { if (!plot.YAxis[i].IsInputLocked() && y_can_change) { ImPlotPoint p1 = PixelsToPlot(plot.SelectStart, i); ImPlotPoint p2 = PixelsToPlot(IO.MousePos, i); plot.YAxis[i].SetMin(ImMin(p1.y, p2.y)); plot.YAxis[i].SetMax(ImMax(p1.y, p2.y)); } } if (x_can_change || y_can_change || (ImHasFlag(IO.KeyMods,gp.InputMap.HorizontalMod) && ImHasFlag(IO.KeyMods,gp.InputMap.VerticalMod))) plot.ContextLocked = gp.InputMap.BoxSelectButton == gp.InputMap.ContextMenuButton; plot.Selected = plot.Selecting = false; } // cancel else if (IO.MouseClicked[gp.InputMap.BoxSelectCancelButton] || IO.MouseDown[gp.InputMap.BoxSelectCancelButton]) { plot.Selected = plot.Selecting = false; plot.ContextLocked = gp.InputMap.BoxSelectButton == gp.InputMap.ContextMenuButton; } else if (ImLengthSqr(d) > 4) { // bad selection if (plot.IsInputLocked()) { ImGui::SetMouseCursor(ImGuiMouseCursor_NotAllowed); plot.ContextLocked = gp.InputMap.BoxSelectButton == gp.InputMap.ContextMenuButton; plot.Selected = false; } else { // TODO: Handle only min or max locked cases plot.SelectRect.Min.x = ImHasFlag(IO.KeyMods, gp.InputMap.HorizontalMod) || plot.XAxis.IsInputLocked() ? plot.PlotRect.Min.x : ImMin(plot.SelectStart.x, IO.MousePos.x); plot.SelectRect.Max.x = ImHasFlag(IO.KeyMods, gp.InputMap.HorizontalMod) || plot.XAxis.IsInputLocked() ? plot.PlotRect.Max.x : ImMax(plot.SelectStart.x, IO.MousePos.x); plot.SelectRect.Min.y = ImHasFlag(IO.KeyMods, gp.InputMap.VerticalMod) || plot.AllYInputLocked() ? plot.PlotRect.Min.y : ImMin(plot.SelectStart.y, IO.MousePos.y); plot.SelectRect.Max.y = ImHasFlag(IO.KeyMods, gp.InputMap.VerticalMod) || plot.AllYInputLocked() ? plot.PlotRect.Max.y : ImMax(plot.SelectStart.y, IO.MousePos.y); plot.SelectRect.Min -= plot.PlotRect.Min; plot.SelectRect.Max -= plot.PlotRect.Min; plot.Selected = true; } } else { plot.Selected = false; } } // begin query if (ImHasFlag(plot.Flags, ImPlotFlags_Query) && plot.PlotHovered && IO.MouseClicked[gp.InputMap.QueryButton] && ImHasFlag(IO.KeyMods, gp.InputMap.QueryMod)) { plot.Querying = true; plot.QueryStart = IO.MousePos; plot.QueryRect = ImRect(0,0,0,0); } // update query if (plot.Querying) { UpdateTransformCache(); // confirm if (IO.MouseReleased[gp.InputMap.QueryButton] || IO.MouseReleased[gp.InputMap.BoxSelectButton]) { plot.Querying = false; if (plot.QueryRect.GetWidth() > 2 && plot.QueryRect.GetHeight() > 2) { plot.Queried = true; plot.ContextLocked = gp.InputMap.BoxSelectButton == gp.InputMap.ContextMenuButton; } else plot.Queried = false; } else { plot.QueryRect.Min.x = ImHasFlag(IO.KeyMods, gp.InputMap.HorizontalMod) ? plot.PlotRect.Min.x : ImMin(plot.QueryStart.x, IO.MousePos.x); plot.QueryRect.Max.x = ImHasFlag(IO.KeyMods, gp.InputMap.HorizontalMod) ? plot.PlotRect.Max.x : ImMax(plot.QueryStart.x, IO.MousePos.x); plot.QueryRect.Min.y = ImHasFlag(IO.KeyMods, gp.InputMap.VerticalMod) ? plot.PlotRect.Min.y : ImMin(plot.QueryStart.y, IO.MousePos.y); plot.QueryRect.Max.y = ImHasFlag(IO.KeyMods, gp.InputMap.VerticalMod) ? plot.PlotRect.Max.y : ImMax(plot.QueryStart.y, IO.MousePos.y); plot.QueryRect.Min -= plot.PlotRect.Min; plot.QueryRect.Max -= plot.PlotRect.Min; plot.Queried = plot.QueryRect.GetWidth() > 2 && plot.QueryRect.GetHeight() > 2; } } // switch select to query if (ImHasFlag(plot.Flags, ImPlotFlags_Query) && plot.Selecting && ImHasFlag(IO.KeyMods,gp.InputMap.QueryToggleMod)) { plot.Selecting = plot.Selected = false; plot.Querying = plot.Queried = true; plot.QueryStart = plot.SelectStart; plot.QueryRect = plot.SelectRect; } // switch query to select if (!ImHasFlag(plot.Flags, ImPlotFlags_NoBoxSelect) && plot.Querying && !ImHasFlag(IO.KeyMods, gp.InputMap.QueryToggleMod) && !IO.MouseDown[gp.InputMap.QueryButton]) { plot.Selecting = plot.Selected = true; plot.Querying = plot.Queried = false; plot.SelectStart = plot.QueryStart; plot.SelectRect = plot.QueryRect; } // FIT ----------------------------------------------------------- // fit from double click if ( IO.MouseDoubleClicked[gp.InputMap.FitButton] && plot.FrameHovered && (plot.XAxis.AllHovered || any_hov_y_axis_region) && !plot.LegendHovered && !hov_query ) { gp.FitThisFrame = true; gp.FitX = plot.XAxis.AllHovered; for (int i = 0; i < IMPLOT_Y_AXES; i++) gp.FitY[i] = plot.YAxis[i].AllHovered; } // fit from FitNextPlotAxes or auto fit if (gp.NextPlotData.FitX || ImHasFlag(plot.XAxis.Flags, ImPlotAxisFlags_AutoFit)) { gp.FitThisFrame = true; gp.FitX = true; } for (int i = 0; i < IMPLOT_Y_AXES; ++i) { if (gp.NextPlotData.FitY[i] || ImHasFlag(plot.YAxis[i].Flags, ImPlotAxisFlags_AutoFit)) { gp.FitThisFrame = true; gp.FitY[i] = true; } } // FOCUS ------------------------------------------------------------------ // focus window if ((IO.MouseClicked[0] || IO.MouseClicked[1] || IO.MouseClicked[2]) && plot.FrameHovered) ImGui::FocusWindow(ImGui::GetCurrentWindow()); UpdateTransformCache(); // set mouse position for (int i = 0; i < IMPLOT_Y_AXES; i++) { gp.MousePos[i] = PixelsToPlot(IO.MousePos, i); } // RENDER ----------------------------------------------------------------- // grid bg DrawList.AddRectFilled(plot.PlotRect.Min, plot.PlotRect.Max, GetStyleColorU32(ImPlotCol_PlotBg)); // transform ticks (TODO: Move this into ImPlotTickCollection) if (gp.RenderX) { for (int t = 0; t < gp.XTicks.Size; t++) { ImPlotTick *xt = &gp.XTicks.Ticks[t]; xt->PixelPos = PlotToPixels(xt->PlotPos, 0, 0).x; } } for (int i = 0; i < IMPLOT_Y_AXES; i++) { if (gp.RenderY[i]) { for (int t = 0; t < gp.YTicks[i].Size; t++) { ImPlotTick *yt = &gp.YTicks[i].Ticks[t]; yt->PixelPos = PlotToPixels(0, yt->PlotPos, i).y; } } } // render grid (background) PushPlotClipRect(gp.Style.PlotBorderSize == 0 ? 1.0f : 0.0f); if (!ImHasFlag(plot.XAxis.Flags, ImPlotAxisFlags_NoGridLines) && !ImHasFlag(plot.XAxis.Flags, ImPlotAxisFlags_Foreground)) RenderGridLinesX(DrawList, gp.XTicks, plot.PlotRect, plot.XAxis.ColorMaj, plot.XAxis.ColorMin, gp.Style.MajorGridSize.x, gp.Style.MinorGridSize.x); for (int i = 0; i < IMPLOT_Y_AXES; i++) { if (plot.YAxis[i].Present && !ImHasFlag(plot.YAxis[i].Flags, ImPlotAxisFlags_NoGridLines) && !ImHasFlag(plot.YAxis[i].Flags, ImPlotAxisFlags_Foreground)) RenderGridLinesY(DrawList, gp.YTicks[i], plot.PlotRect, plot.YAxis[i].ColorMaj, plot.YAxis[i].ColorMin, gp.Style.MajorGridSize.y, gp.Style.MinorGridSize.y); } PopPlotClipRect(); // render title if (title_size.x > 0.0f && !ImHasFlag(plot.Flags, ImPlotFlags_NoTitle)) { ImU32 col = GetStyleColorU32(ImPlotCol_TitleText); const char* title_end = ImGui::FindRenderedTextEnd(title); DrawList.AddText(ImVec2(plot.CanvasRect.GetCenter().x - title_size.x * 0.5f, plot.CanvasRect.Min.y),col,title,title_end); } // render axis labels if (show_x_label) { const ImVec2 xLabel_size = ImGui::CalcTextSize(x_label); const ImVec2 xLabel_pos(plot.PlotRect.GetCenter().x - xLabel_size.x * 0.5f, plot.CanvasRect.Max.y - txt_height); DrawList.AddText(xLabel_pos, plot.XAxis.ColorTxt, x_label); } if (show_y1_label) { const ImVec2 yLabel_size = CalcTextSizeVertical(y1_label); const ImVec2 yLabel_pos(plot.CanvasRect.Min.x, plot.PlotRect.GetCenter().y + yLabel_size.y * 0.5f); AddTextVertical(&DrawList, yLabel_pos, plot.YAxis[0].ColorTxt, y1_label); } const char* y_labels[] = {y2_label, y3_label}; for (int i = 1; i < IMPLOT_Y_AXES; i++) { const char* current_label = y_labels[i-1]; if (plot.YAxis[i].Present && current_label && !ImHasFlag(plot.YAxis[i].Flags, ImPlotAxisFlags_NoLabel)) { const ImVec2 yLabel_size = CalcTextSizeVertical(current_label); float label_offset = (plot.YAxis[i].IsLabeled() ? gp.YTicks[i].MaxWidth + gp.Style.LabelPadding.x : 0.0f) + gp.Style.LabelPadding.x; const ImVec2 yLabel_pos(gp.YAxisReference[i] + label_offset, plot.PlotRect.GetCenter().y + yLabel_size.y * 0.5f); AddTextVertical(&DrawList, yLabel_pos, plot.YAxis[i].ColorTxt, current_label); } } // render tick labels ImGui::PushClipRect(plot.FrameRect.Min, plot.FrameRect.Max, true); if (!ImHasFlag(plot.XAxis.Flags, ImPlotAxisFlags_NoTickLabels)) { for (int t = 0; t < gp.XTicks.Size; t++) { ImPlotTick *xt = &gp.XTicks.Ticks[t]; if (xt->ShowLabel && xt->PixelPos >= plot.PlotRect.Min.x - 1 && xt->PixelPos <= plot.PlotRect.Max.x + 1) DrawList.AddText(ImVec2(xt->PixelPos - xt->LabelSize.x * 0.5f, plot.PlotRect.Max.y + gp.Style.LabelPadding.y + xt->Level * (txt_height + gp.Style.LabelPadding.y)), xt->Major ? plot.XAxis.ColorTxt : plot.XAxis.ColorTxt, gp.XTicks.GetText(t)); } } for (int i = 0; i < IMPLOT_Y_AXES; i++) { if (plot.YAxis[i].Present && !ImHasFlag(plot.YAxis[i].Flags, ImPlotAxisFlags_NoTickLabels)) { for (int t = 0; t < gp.YTicks[i].Size; t++) { 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]; if (yt->ShowLabel && yt->PixelPos >= plot.PlotRect.Min.y - 1 && yt->PixelPos <= plot.PlotRect.Max.y + 1) { ImVec2 start(x_start, yt->PixelPos - 0.5f * yt->LabelSize.y); DrawList.AddText(start, yt->Major ? plot.YAxis[i].ColorTxt : plot.YAxis[i].ColorTxt, gp.YTicks[i].GetText(t)); } } } } ImGui::PopClipRect(); // clear legend plot.LegendData.Reset(); // push plot ID into stack ImGui::PushID(ID); return true; } //----------------------------------------------------------------------------- // Context Menu //----------------------------------------------------------------------------- template bool DragFloat(const char*, F*, float, F, F) { return false; } template <> bool DragFloat(const char* label, double* v, float v_speed, double v_min, double v_max) { return ImGui::DragScalar(label, ImGuiDataType_Double, v, v_speed, &v_min, &v_max, "%.3f", 1); } template <> bool DragFloat(const char* label, float* v, float v_speed, float v_min, float v_max) { return ImGui::DragScalar(label, ImGuiDataType_Float, v, v_speed, &v_min, &v_max, "%.3f", 1); } inline void BeginDisabledControls(bool cond) { if (cond) { ImGui::PushItemFlag(ImGuiItemFlags_Disabled, true); ImGui::PushStyleVar(ImGuiStyleVar_Alpha, ImGui::GetStyle().Alpha * 0.25f); } } inline void EndDisabledControls(bool cond) { if (cond) { ImGui::PopItemFlag(); ImGui::PopStyleVar(); } } void ShowAxisContextMenu(ImPlotAxis& axis, ImPlotAxis* equal_axis, bool time_allowed) { ImGui::PushItemWidth(75); bool always_locked = axis.IsRangeLocked() || axis.IsAutoFitting(); bool label = !ImHasFlag(axis.Flags, ImPlotAxisFlags_NoLabel); 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 (axis.IsTime()) { ImPlotTime tmin = ImPlotTime::FromDouble(axis.Range.Min); ImPlotTime tmax = ImPlotTime::FromDouble(axis.Range.Max); BeginDisabledControls(always_locked); ImGui::CheckboxFlags("##LockMin", (unsigned int*)&axis.Flags, ImPlotAxisFlags_LockMin); EndDisabledControls(always_locked); ImGui::SameLine(); BeginDisabledControls(axis.IsLockedMin() || always_locked); if (ImGui::BeginMenu("Min Time")) { if (ShowTimePicker("mintime", &tmin)) { 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()); } ImGui::EndMenu(); } EndDisabledControls(axis.IsLockedMin() || always_locked); BeginDisabledControls(always_locked); ImGui::CheckboxFlags("##LockMax", (unsigned int*)&axis.Flags, ImPlotAxisFlags_LockMax); EndDisabledControls(always_locked); ImGui::SameLine(); BeginDisabledControls(axis.IsLockedMax() || always_locked); if (ImGui::BeginMenu("Max Time")) { if (ShowTimePicker("maxtime", &tmax)) { 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()); } ImGui::EndMenu(); } EndDisabledControls(axis.IsLockedMax() || always_locked); } else { BeginDisabledControls(always_locked); ImGui::CheckboxFlags("##LockMin", (unsigned int*)&axis.Flags, ImPlotAxisFlags_LockMin); EndDisabledControls(always_locked); ImGui::SameLine(); BeginDisabledControls(axis.IsLockedMin() || always_locked); 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,true); if (equal_axis != NULL) equal_axis->SetAspect(axis.GetAspect()); } EndDisabledControls(axis.IsLockedMin() || always_locked); BeginDisabledControls(always_locked); ImGui::CheckboxFlags("##LockMax", (unsigned int*)&axis.Flags, ImPlotAxisFlags_LockMax); EndDisabledControls(always_locked); ImGui::SameLine(); BeginDisabledControls(axis.IsLockedMax() || always_locked); 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,true); if (equal_axis != NULL) equal_axis->SetAspect(axis.GetAspect()); } EndDisabledControls(axis.IsLockedMax() || always_locked); } ImGui::Separator(); ImGui::CheckboxFlags("Auto-Fit",(unsigned int*)&axis.Flags, ImPlotAxisFlags_AutoFit); ImGui::CheckboxFlags("Invert",(unsigned int*)&axis.Flags, ImPlotAxisFlags_Invert); BeginDisabledControls(axis.IsTime() && time_allowed); ImGui::CheckboxFlags("Log Scale",(unsigned int*)&axis.Flags, ImPlotAxisFlags_LogScale); EndDisabledControls(axis.IsTime() && time_allowed); if (time_allowed) { BeginDisabledControls(axis.IsLog()); ImGui::CheckboxFlags("Time",(unsigned int*)&axis.Flags, ImPlotAxisFlags_Time); EndDisabledControls(axis.IsLog()); } ImGui::Separator(); if (ImGui::Checkbox("Label", &label)) ImFlipFlag(axis.Flags, ImPlotAxisFlags_NoLabel); if (ImGui::Checkbox("Grid Lines", &grid)) ImFlipFlag(axis.Flags, ImPlotAxisFlags_NoGridLines); if (ImGui::Checkbox("Tick Marks", &ticks)) ImFlipFlag(axis.Flags, ImPlotAxisFlags_NoTickMarks); if (ImGui::Checkbox("Tick Labels", &labels)) ImFlipFlag(axis.Flags, ImPlotAxisFlags_NoTickLabels); } void ShowPlotContextMenu(ImPlotPlot& plot) { const bool equal = ImHasFlag(plot.Flags, ImPlotFlags_Equal); if (ImGui::BeginMenu("X-Axis")) { ImGui::PushID("X"); ShowAxisContextMenu(plot.XAxis, equal ? &plot.YAxis[0] : NULL, true); ImGui::PopID(); ImGui::EndMenu(); } for (int i = 0; i < IMPLOT_Y_AXES; i++) { if (i == 1 && !ImHasFlag(plot.Flags, ImPlotFlags_YAxis2)) { continue; } if (i == 2 && !ImHasFlag(plot.Flags, ImPlotFlags_YAxis3)) { 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)) { ImGui::PushID(i); ShowAxisContextMenu(plot.YAxis[i], (equal && i == 0) ? &plot.XAxis : NULL, false); ImGui::PopID(); ImGui::EndMenu(); } } ImGui::Separator(); if ((ImGui::BeginMenu("Settings"))) { if (ImGui::MenuItem("Anti-Aliased Lines",NULL,ImHasFlag(plot.Flags, ImPlotFlags_AntiAliased))) ImFlipFlag(plot.Flags, ImPlotFlags_AntiAliased); if (ImGui::MenuItem("Equal", NULL, ImHasFlag(plot.Flags, ImPlotFlags_Equal))) ImFlipFlag(plot.Flags, ImPlotFlags_Equal); if (ImGui::MenuItem("Box Select",NULL,!ImHasFlag(plot.Flags, ImPlotFlags_NoBoxSelect))) ImFlipFlag(plot.Flags, ImPlotFlags_NoBoxSelect); if (ImGui::MenuItem("Query",NULL,ImHasFlag(plot.Flags, ImPlotFlags_Query))) ImFlipFlag(plot.Flags, ImPlotFlags_Query); if (ImGui::MenuItem("Title",NULL,!ImHasFlag(plot.Flags, ImPlotFlags_NoTitle))) ImFlipFlag(plot.Flags, ImPlotFlags_NoTitle); if (ImGui::MenuItem("Mouse Position",NULL,!ImHasFlag(plot.Flags, ImPlotFlags_NoMousePos))) ImFlipFlag(plot.Flags, ImPlotFlags_NoMousePos); if (ImGui::MenuItem("Crosshairs",NULL,ImHasFlag(plot.Flags, ImPlotFlags_Crosshairs))) ImFlipFlag(plot.Flags, ImPlotFlags_Crosshairs); if ((ImGui::BeginMenu("Legend"))) { const float s = ImGui::GetFrameHeight(); if (ImGui::RadioButton("H", plot.LegendOrientation == ImPlotOrientation_Horizontal)) plot.LegendOrientation = ImPlotOrientation_Horizontal; ImGui::SameLine(); if (ImGui::RadioButton("V", plot.LegendOrientation == ImPlotOrientation_Vertical)) plot.LegendOrientation = ImPlotOrientation_Vertical; ImGui::Checkbox("Outside", &plot.LegendOutside); ImGui::PushStyleVar(ImGuiStyleVar_ItemSpacing, ImVec2(1,1)); if (ImGui::Button("##NW",ImVec2(1.5f*s,s))) { plot.LegendLocation = ImPlotLocation_NorthWest; } ImGui::SameLine(); if (ImGui::Button("##N", ImVec2(1.5f*s,s))) { plot.LegendLocation = ImPlotLocation_North; } ImGui::SameLine(); if (ImGui::Button("##NE",ImVec2(1.5f*s,s))) { plot.LegendLocation = ImPlotLocation_NorthEast; } if (ImGui::Button("##W", ImVec2(1.5f*s,s))) { plot.LegendLocation = ImPlotLocation_West; } ImGui::SameLine(); if (ImGui::Button("##C", ImVec2(1.5f*s,s))) { plot.LegendLocation = ImPlotLocation_Center; } ImGui::SameLine(); if (ImGui::Button("##E", ImVec2(1.5f*s,s))) { plot.LegendLocation = ImPlotLocation_East; } if (ImGui::Button("##SW",ImVec2(1.5f*s,s))) { plot.LegendLocation = ImPlotLocation_SouthWest; } ImGui::SameLine(); if (ImGui::Button("##S", ImVec2(1.5f*s,s))) { plot.LegendLocation = ImPlotLocation_South; } ImGui::SameLine(); if (ImGui::Button("##SE",ImVec2(1.5f*s,s))) { plot.LegendLocation = ImPlotLocation_SouthEast; } ImGui::PopStyleVar(); ImGui::EndMenu(); } ImGui::EndMenu(); } if (ImGui::MenuItem("Legend",NULL,!ImHasFlag(plot.Flags, ImPlotFlags_NoLegend))) { ImFlipFlag(plot.Flags, ImPlotFlags_NoLegend); } } //----------------------------------------------------------------------------- // EndPlot() //----------------------------------------------------------------------------- void EndPlot() { IM_ASSERT_USER_ERROR(GImPlot != NULL, "No current context. Did you call ImPlot::CreateContext() or ImPlot::SetCurrentContext()?"); ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "Mismatched BeginPlot()/EndPlot()!"); ImGuiContext &G = *GImGui; ImPlotPlot &plot = *gp.CurrentPlot; ImGuiWindow * Window = G.CurrentWindow; ImDrawList & DrawList = *Window->DrawList; const ImGuiIO & IO = ImGui::GetIO(); // AXIS STATES ------------------------------------------------------------ const bool any_y_dragging = plot.YAxis[0].Dragging || plot.YAxis[1].Dragging || plot.YAxis[2].Dragging; // FINAL RENDER ----------------------------------------------------------- // render grid (foreground) PushPlotClipRect(gp.Style.PlotBorderSize == 0 ? 1.0f : 0.0f); if (!ImHasFlag(plot.XAxis.Flags, ImPlotAxisFlags_NoGridLines) && ImHasFlag(plot.XAxis.Flags, ImPlotAxisFlags_Foreground)) RenderGridLinesX(DrawList, gp.XTicks, plot.PlotRect, plot.XAxis.ColorMaj, plot.XAxis.ColorMaj, gp.Style.MajorGridSize.x, gp.Style.MinorGridSize.x); for (int i = 0; i < IMPLOT_Y_AXES; i++) { if (plot.YAxis[i].Present && !ImHasFlag(plot.YAxis[i].Flags, ImPlotAxisFlags_NoGridLines) && ImHasFlag(plot.YAxis[i].Flags, ImPlotAxisFlags_Foreground)) RenderGridLinesY(DrawList, gp.YTicks[i], plot.PlotRect, plot.YAxis[i].ColorMaj, plot.YAxis[i].ColorMin, gp.Style.MajorGridSize.y, gp.Style.MinorGridSize.y); } PopPlotClipRect(); // render x-ticks PushPlotClipRect(); if (!ImHasFlag(plot.XAxis.Flags, ImPlotAxisFlags_NoTickMarks)) { for (int t = 0; t < gp.XTicks.Size; t++) { ImPlotTick *xt = &gp.XTicks.Ticks[t]; if (xt->Level == 0) DrawList.AddLine(ImVec2(xt->PixelPos, plot.PlotRect.Max.y), ImVec2(xt->PixelPos, plot.PlotRect.Max.y - (xt->Major ? gp.Style.MajorTickLen.x : gp.Style.MinorTickLen.x)), plot.XAxis.ColorMaj, xt->Major ? gp.Style.MajorTickSize.x : gp.Style.MinorTickSize.x); } } PopPlotClipRect(); // render y-ticks ImGui::PushClipRect(plot.PlotRect.Min, ImVec2(plot.FrameRect.Max.x, plot.PlotRect.Max.y), true); int axis_count = 0; for (int i = 0; i < IMPLOT_Y_AXES; i++) { if (!plot.YAxis[i].Present) { continue; } axis_count++; float x_start = gp.YAxisReference[i]; if (!ImHasFlag(plot.YAxis[i].Flags, ImPlotAxisFlags_NoTickMarks)) { float direction = (i == 0) ? 1.0f : -1.0f; bool no_major = axis_count >= 3; for (int t = 0; t < gp.YTicks[i].Size; t++) { ImPlotTick *yt = &gp.YTicks[i].Ticks[t]; ImVec2 start = ImVec2(x_start, yt->PixelPos); DrawList.AddLine(start, start + ImVec2(direction * ((!no_major && yt->Major) ? gp.Style.MajorTickLen.y : gp.Style.MinorTickLen.y), 0), plot.YAxis[i].ColorMaj, (!no_major && yt->Major) ? gp.Style.MajorTickSize.y : gp.Style.MinorTickSize.y); } } if (axis_count >= 3) { // Draw a bar next to the ticks to act as a visual separator. DrawList.AddLine(ImVec2(x_start, plot.PlotRect.Min.y), ImVec2(x_start, plot.PlotRect.Max.y), GetStyleColorU32(ImPlotCol_YAxisGrid3), 1); } } ImGui::PopClipRect(); // render annotations PushPlotClipRect(); for (int i = 0; i < gp.Annotations.Size; ++i) { const char* txt = gp.Annotations.GetText(i); ImPlotAnnotation& an = gp.Annotations.Annotations[i]; const ImVec2 txt_size = ImGui::CalcTextSize(txt); const ImVec2 size = txt_size + gp.Style.AnnotationPadding * 2; ImVec2 pos = an.Pos; if (an.Offset.x == 0) pos.x -= size.x / 2; else if (an.Offset.x > 0) pos.x += an.Offset.x; else pos.x -= size.x - an.Offset.x; if (an.Offset.y == 0) pos.y -= size.y / 2; else if (an.Offset.y > 0) pos.y += an.Offset.y; else pos.y -= size.y - an.Offset.y; if (an.Clamp) pos = ClampLabelPos(pos, size, plot.PlotRect.Min, plot.PlotRect.Max); ImRect rect(pos,pos+size); if (an.Offset.x != 0 || an.Offset.y != 0) { ImVec2 corners[4] = {rect.GetTL(), rect.GetTR(), rect.GetBR(), rect.GetBL()}; int min_corner = 0; float min_len = FLT_MAX; for (int c = 0; c < 4; ++c) { float len = ImLengthSqr(an.Pos - corners[c]); if (len < min_len) { min_corner = c; min_len = len; } } DrawList.AddLine(an.Pos, corners[min_corner], an.ColorBg); } DrawList.AddRectFilled(rect.Min, rect.Max, an.ColorBg); DrawList.AddText(pos + gp.Style.AnnotationPadding, an.ColorFg, txt); } // render selection if (plot.Selected) RenderSelectionRect(DrawList, plot.SelectRect.Min + plot.PlotRect.Min, plot.SelectRect.Max + plot.PlotRect.Min, GetStyleColorVec4(ImPlotCol_Selection)); // render query if (plot.Queried) RenderSelectionRect(DrawList, plot.QueryRect.Min + plot.PlotRect.Min, plot.QueryRect.Max + plot.PlotRect.Min, GetStyleColorVec4(ImPlotCol_Query)); // render crosshairs if (ImHasFlag(plot.Flags, ImPlotFlags_Crosshairs) && plot.PlotHovered && !(plot.XAxis.Dragging || any_y_dragging) && !plot.Selecting && !plot.Querying && !plot.LegendHovered) { ImGui::SetMouseCursor(ImGuiMouseCursor_None); ImVec2 xy = IO.MousePos; ImVec2 h1(plot.PlotRect.Min.x, xy.y); ImVec2 h2(xy.x - 5, xy.y); ImVec2 h3(xy.x + 5, xy.y); ImVec2 h4(plot.PlotRect.Max.x, xy.y); ImVec2 v1(xy.x, plot.PlotRect.Min.y); ImVec2 v2(xy.x, xy.y - 5); ImVec2 v3(xy.x, xy.y + 5); ImVec2 v4(xy.x, plot.PlotRect.Max.y); 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); } // render mouse pos if (!ImHasFlag(plot.Flags, ImPlotFlags_NoMousePos) && plot.PlotHovered) { char buffer[128] = {}; ImBufferWriter writer(buffer, sizeof(buffer)); // x if (ImHasFlag(plot.XAxis.Flags, ImPlotAxisFlags_Time)) { ImPlotTimeUnit unit = GetUnitForRange(plot.XAxis.Range.Size() / (plot.PlotRect.GetWidth() / 100)); const int written = FormatDateTime(ImPlotTime::FromDouble(gp.MousePos[0].x), &writer.Buffer[writer.Pos], writer.Size - writer.Pos - 1, GetDateTimeFmt(TimeFormatMouseCursor, unit)); if (written > 0) writer.Pos += ImMin(written, writer.Size - writer.Pos - 1); } else { writer.Write(GetFormatX(), RoundAxisValue(plot.XAxis, gp.XTicks, gp.MousePos[0].x)); } // y1 writer.Write(", "); writer.Write(GetFormatY(0), RoundAxisValue(plot.YAxis[0], gp.YTicks[0], gp.MousePos[0].y)); // y2 if (ImHasFlag(plot.Flags, ImPlotFlags_YAxis2)) { writer.Write(", ("); writer.Write(GetFormatY(1), RoundAxisValue(plot.YAxis[1], gp.YTicks[1], gp.MousePos[1].y)); writer.Write(")"); } // y3 if (ImHasFlag(plot.Flags, ImPlotFlags_YAxis3)) { writer.Write(", ("); writer.Write(GetFormatY(2), RoundAxisValue(plot.YAxis[2], gp.YTicks[2], gp.MousePos[2].y)); writer.Write(")"); } const ImVec2 size = ImGui::CalcTextSize(buffer); const ImVec2 pos = GetLocationPos(plot.PlotRect, size, plot.MousePosLocation, gp.Style.MousePosPadding); DrawList.AddText(pos, GetStyleColorU32(ImPlotCol_InlayText), buffer); } PopPlotClipRect(); // reset legend hovers plot.LegendHovered = false; for (int i = 0; i < plot.Items.GetBufSize(); ++i) plot.Items.GetByIndex(i)->LegendHovered = false; // render legend if (!ImHasFlag(plot.Flags, ImPlotFlags_NoLegend) && plot.GetLegendCount() > 0) { const ImVec2 legend_size = CalcLegendSize(plot, gp.Style.LegendInnerPadding, gp.Style.LegendSpacing, plot.LegendOrientation); const ImVec2 legend_pos = GetLocationPos(plot.LegendOutside ? plot.FrameRect : plot.PlotRect, legend_size, plot.LegendLocation, plot.LegendOutside ? gp.Style.PlotPadding : gp.Style.LegendPadding); plot.LegendRect = ImRect(legend_pos, legend_pos + legend_size); // test hover plot.LegendHovered = plot.FrameHovered && plot.LegendRect.Contains(IO.MousePos); if (plot.LegendOutside) ImGui::PushClipRect(plot.FrameRect.Min, plot.FrameRect.Max, true); else PushPlotClipRect(); ImU32 col_bg = GetStyleColorU32(ImPlotCol_LegendBg); ImU32 col_bd = GetStyleColorU32(ImPlotCol_LegendBorder); DrawList.AddRectFilled(plot.LegendRect.Min, plot.LegendRect.Max, col_bg); DrawList.AddRect(plot.LegendRect.Min, plot.LegendRect.Max, col_bd); ShowLegendEntries(plot, plot.LegendRect, plot.LegendHovered, gp.Style.LegendInnerPadding, gp.Style.LegendSpacing, plot.LegendOrientation, DrawList); ImGui::PopClipRect(); } else { plot.LegendRect = ImRect(); } if (plot.LegendFlipSideNextFrame) { plot.LegendOutside = !plot.LegendOutside; plot.LegendFlipSideNextFrame = false; } // render border if (gp.Style.PlotBorderSize > 0) DrawList.AddRect(plot.PlotRect.Min, plot.PlotRect.Max, GetStyleColorU32(ImPlotCol_PlotBorder), 0, ImDrawFlags_RoundCornersAll, gp.Style.PlotBorderSize); // FIT DATA -------------------------------------------------------------- const bool axis_equal = ImHasFlag(plot.Flags, ImPlotFlags_Equal); if (gp.FitThisFrame && (gp.VisibleItemCount > 0 || plot.Queried)) { if (gp.FitX) { const double ext_size = gp.ExtentsX.Size() * 0.5; gp.ExtentsX.Min -= ext_size * gp.Style.FitPadding.x; gp.ExtentsX.Max += ext_size * gp.Style.FitPadding.x; if (!plot.XAxis.IsLockedMin() && !ImNanOrInf(gp.ExtentsX.Min)) plot.XAxis.Range.Min = (gp.ExtentsX.Min); if (!plot.XAxis.IsLockedMax() && !ImNanOrInf(gp.ExtentsX.Max)) plot.XAxis.Range.Max = (gp.ExtentsX.Max); if (ImAlmostEqual(plot.XAxis.Range.Max, plot.XAxis.Range.Min)) { plot.XAxis.Range.Max += 0.5; plot.XAxis.Range.Min -= 0.5; } plot.XAxis.Constrain(); if (axis_equal && !gp.FitY[0]) plot.YAxis[0].SetAspect(plot.XAxis.GetAspect()); } for (int i = 0; i < IMPLOT_Y_AXES; i++) { if (gp.FitY[i]) { const double ext_size = gp.ExtentsY[i].Size() * 0.5; gp.ExtentsY[i].Min -= ext_size * gp.Style.FitPadding.y; gp.ExtentsY[i].Max += ext_size * gp.Style.FitPadding.y; if (!plot.YAxis[i].IsLockedMin() && !ImNanOrInf(gp.ExtentsY[i].Min)) plot.YAxis[i].Range.Min = (gp.ExtentsY[i].Min); if (!plot.YAxis[i].IsLockedMax() && !ImNanOrInf(gp.ExtentsY[i].Max)) plot.YAxis[i].Range.Max = (gp.ExtentsY[i].Max); if (ImAlmostEqual(plot.YAxis[i].Range.Max, plot.YAxis[i].Range.Min)) { plot.YAxis[i].Range.Max += 0.5; plot.YAxis[i].Range.Min -= 0.5; } plot.YAxis[i].Constrain(); if (i == 0 && axis_equal && !gp.FitX) plot.XAxis.SetAspect(plot.YAxis[0].GetAspect()); } } if (axis_equal && gp.FitX && gp.FitY[0]) { double aspect = ImMax(plot.XAxis.GetAspect(), plot.YAxis[0].GetAspect()); plot.XAxis.SetAspect(aspect); plot.YAxis[0].SetAspect(aspect); } } // CONTEXT MENUS ----------------------------------------------------------- // main ctx menu if (!ImHasFlag(plot.Flags, ImPlotFlags_NoMenus) && plot.PlotHovered && IO.MouseReleased[gp.InputMap.ContextMenuButton] && !plot.LegendHovered && !plot.ContextLocked) ImGui::OpenPopup("##PlotContext"); if (ImGui::BeginPopup("##PlotContext")) { ShowPlotContextMenu(plot); ImGui::EndPopup(); } // x-axis ctx menu if (!ImHasFlag(plot.Flags, ImPlotFlags_NoMenus) && plot.FrameHovered && plot.XAxis.ExtHovered && IO.MouseReleased[gp.InputMap.ContextMenuButton] && !plot.LegendHovered && !plot.ContextLocked) ImGui::OpenPopup("##XContext"); if (ImGui::BeginPopup("##XContext")) { ImGui::Text("X-Axis"); ImGui::Separator(); ShowAxisContextMenu(plot.XAxis, ImHasFlag(plot.Flags, ImPlotFlags_Equal) ? &plot.YAxis[0] : NULL, true); ImGui::EndPopup(); } // y-axes ctx menus for (int i = 0; i < IMPLOT_Y_AXES; ++i) { ImGui::PushID(i); if (!ImHasFlag(plot.Flags, ImPlotFlags_NoMenus) && plot.FrameHovered && plot.YAxis[i].ExtHovered && IO.MouseReleased[gp.InputMap.ContextMenuButton] && !plot.LegendHovered && !plot.ContextLocked) ImGui::OpenPopup("##YContext"); if (ImGui::BeginPopup("##YContext")) { if (i == 0) { ImGui::Text("Y-Axis"); ImGui::Separator(); } else { ImGui::Text("Y-Axis %d", i + 1); ImGui::Separator(); } ShowAxisContextMenu(plot.YAxis[i], (i == 0 && ImHasFlag(plot.Flags, ImPlotFlags_Equal)) ? &plot.XAxis : NULL, false); ImGui::EndPopup(); } ImGui::PopID(); } // LINKED AXES ------------------------------------------------------------ PushLinkedAxis(plot.XAxis); for (int i = 0; i < IMPLOT_Y_AXES; ++i) PushLinkedAxis(plot.YAxis[i]); // CLEANUP ---------------------------------------------------------------- // resset context locked flag if (plot.ContextLocked && IO.MouseReleased[gp.InputMap.BoxSelectButton]) plot.ContextLocked = false; // reset the plot items for the next frame for (int i = 0; i < plot.Items.GetBufSize(); ++i) { plot.Items.GetByIndex(i)->SeenThisFrame = false; } // mark the plot as initialized, i.e. having made it through one frame completely plot.Initialized = true; // Pop ImGui::PushID at the end of BeginPlot ImGui::PopID(); // Reset context for next plot Reset(GImPlot); } //----------------------------------------------------------------------------- // MISC API //----------------------------------------------------------------------------- ImPlotInputMap& GetInputMap() { return GImPlot->InputMap; } void SetNextPlotLimits(double x_min, double x_max, double y_min, double y_max, ImGuiCond cond) { IM_ASSERT_USER_ERROR(GImPlot->CurrentPlot == NULL, "SetNextPlotLimits() needs to be called before BeginPlot()!"); SetNextPlotLimitsX(x_min, x_max, cond); SetNextPlotLimitsY(y_min, y_max, cond); } void SetNextPlotLimitsX(double x_min, double x_max, ImGuiCond cond) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot == NULL, "SetNextPlotLSetNextPlotLimitsXimitsY() needs to be called before BeginPlot()!"); 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; gp.NextPlotData.XRange.Min = x_min; gp.NextPlotData.XRange.Max = x_max; } void SetNextPlotLimitsY(double y_min, double y_max, ImGuiCond cond, ImPlotYAxis y_axis) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot == NULL, "SetNextPlotLimitsY() needs to be called before BeginPlot()!"); IM_ASSERT_USER_ERROR(y_axis >= 0 && y_axis < IMPLOT_Y_AXES, "y_axis needs to be between 0 and IMPLOT_Y_AXES"); IM_ASSERT(cond == 0 || ImIsPowerOfTwo(cond)); // Make sure the user doesn't attempt to combine multiple condition flags. gp.NextPlotData.HasYRange[y_axis] = true; gp.NextPlotData.YRangeCond[y_axis] = cond; gp.NextPlotData.YRange[y_axis].Min = y_min; gp.NextPlotData.YRange[y_axis].Max = y_max; } 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; } 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; } void SetNextPlotTicksX(const double* values, int n_ticks, const char* const labels[], bool show_default) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot == NULL, "SetNextPlotTicksX() needs to be called before BeginPlot()!"); gp.NextPlotData.ShowDefaultTicksX = show_default; AddTicksCustom(values, labels, n_ticks, gp.XTicks, GetFormatX()); } void SetNextPlotTicksX(double x_min, double x_max, int n_ticks, const char* const labels[], bool show_default) { IM_ASSERT_USER_ERROR(n_ticks > 1, "The number of ticks must be greater than 1"); static ImVector buffer; FillRange(buffer, n_ticks, x_min, x_max); SetNextPlotTicksX(&buffer[0], n_ticks, labels, show_default); } void SetNextPlotTicksY(const double* values, int n_ticks, const char* const labels[], bool show_default, ImPlotYAxis y_axis) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot == NULL, "SetNextPlotTicksY() needs to be called before BeginPlot()!"); IM_ASSERT_USER_ERROR(y_axis >= 0 && y_axis < IMPLOT_Y_AXES, "y_axis needs to be between 0 and IMPLOT_Y_AXES"); gp.NextPlotData.ShowDefaultTicksY[y_axis] = show_default; AddTicksCustom(values, labels, n_ticks, gp.YTicks[y_axis], GetFormatY(y_axis)); } void SetNextPlotTicksY(double y_min, double y_max, int n_ticks, const char* const labels[], bool show_default, ImPlotYAxis y_axis) { IM_ASSERT_USER_ERROR(n_ticks > 1, "The number of ticks must be greater than 1"); static ImVector buffer; FillRange(buffer, n_ticks, y_min, y_max); SetNextPlotTicksY(&buffer[0], n_ticks, labels, show_default,y_axis); } void SetNextPlotFormatX(const char* fmt){ ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot == NULL, "SetNextPlotFormatX() needs to be called before BeginPlot()!"); gp.NextPlotData.HasFmtX = true; ImStrncpy(gp.NextPlotData.FmtX, fmt, 16); } void SetNextPlotFormatY(const char* fmt, ImPlotYAxis y_axis) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot == NULL, "SetNextPlotFormatY() needs to be called before BeginPlot()!"); IM_ASSERT_USER_ERROR(y_axis >= 0 && y_axis < IMPLOT_Y_AXES, "y_axis needs to be between 0 and IMPLOT_Y_AXES"); gp.NextPlotData.HasFmtY[y_axis] = true; ImStrncpy(gp.NextPlotData.FmtY[y_axis], fmt, 16); } void SetPlotYAxis(ImPlotYAxis y_axis) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "SetPlotYAxis() needs to be called between BeginPlot() and EndPlot()!"); IM_ASSERT_USER_ERROR(y_axis >= 0 && y_axis < IMPLOT_Y_AXES, "y_axis needs to be between 0 and IMPLOT_Y_AXES"); gp.CurrentPlot->CurrentYAxis = y_axis; } ImVec2 GetPlotPos() { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "GetPlotPos() needs to be called between BeginPlot() and EndPlot()!"); return gp.CurrentPlot->PlotRect.Min; } ImVec2 GetPlotSize() { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "GetPlotSize() needs to be called between BeginPlot() and EndPlot()!"); return gp.CurrentPlot->PlotRect.GetSize(); } ImDrawList* GetPlotDrawList() { return ImGui::GetWindowDrawList(); } void PushPlotClipRect(float expand) { ImPlotContext& gp = *GImPlot; ImRect rect = gp.CurrentPlot->PlotRect; rect.Expand(expand); IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "PushPlotClipRect() needs to be called between BeginPlot() and EndPlot()!"); ImGui::PushClipRect(rect.Min, rect.Max, true); } void PopPlotClipRect() { ImGui::PopClipRect(); } bool IsPlotHovered() { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "IsPlotHovered() needs to be called between BeginPlot() and EndPlot()!"); return gp.CurrentPlot->PlotHovered; } bool IsPlotXAxisHovered() { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "IsPlotXAxisHovered() needs to be called between BeginPlot() and EndPlot()!"); return gp.CurrentPlot->XAxis.ExtHovered; } bool IsPlotYAxisHovered(ImPlotYAxis y_axis_in) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(y_axis_in >= -1 && y_axis_in < IMPLOT_Y_AXES, "y_axis needs to between -1 and IMPLOT_Y_AXES"); IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "IsPlotYAxisHovered() needs to be called between BeginPlot() and EndPlot()!"); const ImPlotYAxis y_axis = y_axis_in >= 0 ? y_axis_in : gp.CurrentPlot->CurrentYAxis; return gp.CurrentPlot->YAxis[y_axis].ExtHovered; } ImPlotPoint GetPlotMousePos(ImPlotYAxis y_axis_in) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(y_axis_in >= -1 && y_axis_in < IMPLOT_Y_AXES, "y_axis needs to between -1 and IMPLOT_Y_AXES"); IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "GetPlotMousePos() needs to be called between BeginPlot() and EndPlot()!"); const ImPlotYAxis y_axis = y_axis_in >= 0 ? y_axis_in : gp.CurrentPlot->CurrentYAxis; return gp.MousePos[y_axis]; } ImPlotLimits GetPlotLimits(ImPlotYAxis y_axis_in) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(y_axis_in >= -1 && y_axis_in < IMPLOT_Y_AXES, "y_axis needs to between -1 and IMPLOT_Y_AXES"); IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "GetPlotLimits() needs to be called between BeginPlot() and EndPlot()!"); const ImPlotYAxis y_axis = y_axis_in >= 0 ? y_axis_in : gp.CurrentPlot->CurrentYAxis; ImPlotPlot& plot = *gp.CurrentPlot; ImPlotLimits limits; limits.X = plot.XAxis.Range; limits.Y = plot.YAxis[y_axis].Range; return limits; } bool IsPlotSelected() { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "IsPlotSelected() needs to be called between BeginPlot() and EndPlot()!"); return gp.CurrentPlot->Selected; } ImPlotLimits GetPlotSelection(ImPlotYAxis y_axis) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(y_axis >= -1 && y_axis < IMPLOT_Y_AXES, "y_axis needs to between -1 and IMPLOT_Y_AXES"); IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "GetPlotSelection() needs to be called between BeginPlot() and EndPlot()!"); ImPlotPlot& plot = *gp.CurrentPlot; y_axis = y_axis >= 0 ? y_axis : gp.CurrentPlot->CurrentYAxis; if (!plot.Selected) return ImPlotLimits(0,0,0,0); UpdateTransformCache(); ImPlotPoint p1 = PixelsToPlot(plot.SelectRect.Min + plot.PlotRect.Min, y_axis); ImPlotPoint p2 = PixelsToPlot(plot.SelectRect.Max + plot.PlotRect.Min, y_axis); 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; } bool IsPlotQueried() { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "IsPlotQueried() needs to be called between BeginPlot() and EndPlot()!"); return gp.CurrentPlot->Queried; } ImPlotLimits GetPlotQuery(ImPlotYAxis y_axis) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(y_axis >= -1 && y_axis < IMPLOT_Y_AXES, "y_axis needs to between -1 and IMPLOT_Y_AXES"); IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "GetPlotQuery() needs to be called between BeginPlot() and EndPlot()!"); ImPlotPlot& plot = *gp.CurrentPlot; y_axis = y_axis >= 0 ? y_axis : gp.CurrentPlot->CurrentYAxis; if (!plot.Queried) return ImPlotLimits(0,0,0,0); UpdateTransformCache(); ImPlotPoint p1 = PixelsToPlot(plot.QueryRect.Min + plot.PlotRect.Min, y_axis); ImPlotPoint p2 = PixelsToPlot(plot.QueryRect.Max + plot.PlotRect.Min, y_axis); 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; } void SetPlotQuery(const ImPlotLimits& query, ImPlotYAxis y_axis) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(y_axis >= -1 && y_axis < IMPLOT_Y_AXES, "y_axis needs to between -1 and IMPLOT_Y_AXES"); IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "GetPlotQuery() needs to be called between BeginPlot() and EndPlot()!"); ImPlotPlot& plot = *gp.CurrentPlot; y_axis = y_axis >= 0 ? y_axis : gp.CurrentPlot->CurrentYAxis; UpdateTransformCache(); ImVec2 p1 = PlotToPixels(query.Min(),y_axis); ImVec2 p2 = PlotToPixels(query.Max(),y_axis); plot.Queried = true; plot.Querying = false; plot.QueryRect = ImRect(ImMin(p1,p2)-plot.PlotRect.Min, ImMax(p1,p2)-plot.PlotRect.Min); } void AnnotateEx(double x, double y, bool clamp, const ImVec4& col, const ImVec2& off, const char* fmt, va_list args) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "Annotate() needs to be called between BeginPlot() and EndPlot()!"); ImVec2 pos = PlotToPixels(x,y); ImU32 bg = ImGui::GetColorU32(col); ImU32 fg = col.w == 0 ? GetStyleColorU32(ImPlotCol_InlayText) : CalcTextColor(col); gp.Annotations.AppendV(pos, off, bg, fg, clamp, fmt, args); } void AnnotateV(double x, double y, const ImVec2& offset, const char* fmt, va_list args) { AnnotateEx(x,y,false,ImVec4(0,0,0,0),offset,fmt,args); } void Annotate(double x, double y, const ImVec2& offset, const char* fmt, ...) { va_list args; va_start(args, fmt); AnnotateV(x,y,offset,fmt,args); va_end(args); } void AnnotateV(double x, double y, const ImVec2& offset, const ImVec4& col, const char* fmt, va_list args) { AnnotateEx(x,y,false,col,offset,fmt,args); } void Annotate(double x, double y, const ImVec2& offset, const ImVec4& col, const char* fmt, ...) { va_list args; va_start(args, fmt); AnnotateV(x,y,offset,col,fmt,args); va_end(args); } void AnnotateClampedV(double x, double y, const ImVec2& offset, const char* fmt, va_list args) { AnnotateEx(x,y,true,ImVec4(0,0,0,0),offset,fmt,args); } void AnnotateClamped(double x, double y, const ImVec2& offset, const char* fmt, ...) { va_list args; va_start(args, fmt); AnnotateClampedV(x,y,offset,fmt,args); va_end(args); } void AnnotateClampedV(double x, double y, const ImVec2& offset, const ImVec4& col, const char* fmt, va_list args) { AnnotateEx(x,y,true,col,offset,fmt,args); } void AnnotateClamped(double x, double y, const ImVec2& offset, const ImVec4& col, const char* fmt, ...) { va_list args; va_start(args, fmt); AnnotateClampedV(x,y,offset,col,fmt,args); va_end(args); } bool DragLineX(const char* id, double* value, bool show_label, const ImVec4& col, float thickness) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "DragLineX() needs to be called between BeginPlot() and EndPlot()!"); const float grab_size = ImMax(5.0f, thickness); float yt = gp.CurrentPlot->PlotRect.Min.y; float yb = gp.CurrentPlot->PlotRect.Max.y; float x = IM_ROUND(PlotToPixels(*value,0).x); const bool outside = x < (gp.CurrentPlot->PlotRect.Min.x - grab_size / 2) || x > (gp.CurrentPlot->PlotRect.Max.x + grab_size / 2); if (outside) return false; float len = gp.Style.MajorTickLen.x; ImVec4 color = IsColorAuto(col) ? ImGui::GetStyleColorVec4(ImGuiCol_Text) : col; ImU32 col32 = ImGui::ColorConvertFloat4ToU32(color); ImDrawList& DrawList = *GetPlotDrawList(); PushPlotClipRect(); DrawList.AddLine(ImVec2(x,yt), ImVec2(x,yb), col32, thickness); DrawList.AddLine(ImVec2(x,yt), ImVec2(x,yt+len), col32, 3*thickness); DrawList.AddLine(ImVec2(x,yb), ImVec2(x,yb-len), col32, 3*thickness); PopPlotClipRect(); if (gp.CurrentPlot->Selecting || gp.CurrentPlot->Querying) return false; ImVec2 old_cursor_pos = ImGui::GetCursorScreenPos(); ImVec2 new_cursor_pos = ImVec2(x - grab_size / 2.0f, yt); ImGui::GetCurrentWindow()->DC.CursorPos = new_cursor_pos; ImGui::InvisibleButton(id, ImVec2(grab_size, yb-yt)); ImGui::GetCurrentWindow()->DC.CursorPos = old_cursor_pos; if (ImGui::IsItemHovered() || ImGui::IsItemActive()) { gp.CurrentPlot->PlotHovered = false; ImGui::SetMouseCursor(ImGuiMouseCursor_ResizeEW); if (show_label) { char buff[32]; LabelAxisValue(gp.CurrentPlot->XAxis, gp.XTicks, *value, buff, 32); gp.Annotations.Append(ImVec2(x,yb),ImVec2(0,0),col32,CalcTextColor(color),true,"%s = %s", id, buff); } } bool dragging = false; if (ImGui::IsItemActive() && ImGui::IsMouseDragging(0)) { *value = ImPlot::GetPlotMousePos().x; *value = ImClamp(*value, gp.CurrentPlot->XAxis.Range.Min, gp.CurrentPlot->XAxis.Range.Max); dragging = true; } return dragging; } bool DragLineY(const char* id, double* value, bool show_label, const ImVec4& col, float thickness) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "DragLineY() needs to be called between BeginPlot() and EndPlot()!"); const float grab_size = ImMax(5.0f, thickness); float xl = gp.CurrentPlot->PlotRect.Min.x; float xr = gp.CurrentPlot->PlotRect.Max.x; float y = IM_ROUND(PlotToPixels(0, *value).y); const bool outside = y < (gp.CurrentPlot->PlotRect.Min.y - grab_size / 2) || y > (gp.CurrentPlot->PlotRect.Max.y + grab_size / 2); if (outside) return false; float len = gp.Style.MajorTickLen.y; ImVec4 color = IsColorAuto(col) ? ImGui::GetStyleColorVec4(ImGuiCol_Text) : col; ImU32 col32 = ImGui::ColorConvertFloat4ToU32(color); ImDrawList& DrawList = *GetPlotDrawList(); PushPlotClipRect(); DrawList.AddLine(ImVec2(xl,y), ImVec2(xr,y), col32, thickness); DrawList.AddLine(ImVec2(xl,y), ImVec2(xl+len,y), col32, 3*thickness); DrawList.AddLine(ImVec2(xr,y), ImVec2(xr-len,y), col32, 3*thickness); PopPlotClipRect(); if (gp.CurrentPlot->Selecting || gp.CurrentPlot->Querying) return false; ImVec2 old_cursor_pos = ImGui::GetCursorScreenPos(); ImVec2 new_cursor_pos = ImVec2(xl, y - grab_size / 2.0f); ImGui::SetItemAllowOverlap(); ImGui::GetCurrentWindow()->DC.CursorPos = new_cursor_pos; ImGui::InvisibleButton(id, ImVec2(xr - xl, grab_size)); ImGui::GetCurrentWindow()->DC.CursorPos = old_cursor_pos; int yax = GetCurrentYAxis(); if (ImGui::IsItemHovered() || ImGui::IsItemActive()) { gp.CurrentPlot->PlotHovered = false; ImGui::SetMouseCursor(ImGuiMouseCursor_ResizeNS); if (show_label) { char buff[32]; LabelAxisValue(gp.CurrentPlot->YAxis[yax], gp.YTicks[yax], *value, buff, 32); gp.Annotations.Append(ImVec2(yax == 0 ? xl : xr,y), ImVec2(0,0), col32, CalcTextColor(color), true, "%s = %s", id, buff); } } bool dragging = false; if (ImGui::IsItemActive() && ImGui::IsMouseDragging(0)) { *value = ImPlot::GetPlotMousePos().y; *value = ImClamp(*value, gp.CurrentPlot->YAxis[yax].Range.Min, gp.CurrentPlot->YAxis[yax].Range.Max); dragging = true; } return dragging; } bool DragPoint(const char* id, double* x, double* y, bool show_label, const ImVec4& col, float radius) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "DragPoint() needs to be called between BeginPlot() and EndPlot()!"); const float grab_size = ImMax(5.0f, 2*radius); const bool outside = !GetPlotLimits().Contains(*x,*y); if (outside) return false; const ImVec4 color = IsColorAuto(col) ? ImGui::GetStyleColorVec4(ImGuiCol_Text) : col; const ImU32 col32 = ImGui::ColorConvertFloat4ToU32(color); ImDrawList& DrawList = *GetPlotDrawList(); const ImVec2 pos = PlotToPixels(*x,*y); int yax = GetCurrentYAxis(); ImVec2 old_cursor_pos = ImGui::GetCursorScreenPos(); ImVec2 new_cursor_pos = ImVec2(pos - ImVec2(grab_size,grab_size)*0.5f); ImGui::GetCurrentWindow()->DC.CursorPos = new_cursor_pos; ImGui::InvisibleButton(id, ImVec2(grab_size, grab_size)); ImGui::GetCurrentWindow()->DC.CursorPos = old_cursor_pos; PushPlotClipRect(); if (ImGui::IsItemHovered() || ImGui::IsItemActive()) { DrawList.AddCircleFilled(pos, 1.5f*radius, (col32)); gp.CurrentPlot->PlotHovered = false; if (show_label) { ImVec2 label_pos = pos + ImVec2(16 * GImGui->Style.MouseCursorScale, 8 * GImGui->Style.MouseCursorScale); char buff1[32]; char buff2[32]; LabelAxisValue(gp.CurrentPlot->XAxis, gp.XTicks, *x, buff1, 32); LabelAxisValue(gp.CurrentPlot->YAxis[yax], gp.YTicks[yax], *y, buff2, 32); gp.Annotations.Append(label_pos, ImVec2(0.0001f,0.00001f), col32, CalcTextColor(color), true, "%s = %s,%s", id, buff1, buff2); } } else { DrawList.AddCircleFilled(pos, radius, col32); } PopPlotClipRect(); bool dragging = false; if (ImGui::IsItemActive() && ImGui::IsMouseDragging(0)) { *x = ImPlot::GetPlotMousePos().x; *y = ImPlot::GetPlotMousePos().y; *x = ImClamp(*x, gp.CurrentPlot->XAxis.Range.Min, gp.CurrentPlot->XAxis.Range.Max); *y = ImClamp(*y, gp.CurrentPlot->YAxis[yax].Range.Min, gp.CurrentPlot->YAxis[yax].Range.Max); dragging = true; } return dragging; } //----------------------------------------------------------------------------- #define IMPLOT_ID_PLT 10030910 #define IMPLOT_ID_LEG 10030911 #define IMPLOT_ID_XAX 10030912 #define IMPLOT_ID_YAX 10030913 bool BeginDragDropTargetEx(int id, const ImRect& rect) { ImGuiContext& G = *GImGui; const ImGuiID ID = G.CurrentWindow->GetID(id); if (ImGui::ItemAdd(rect, ID, &rect) && ImGui::BeginDragDropTarget()) return true; return false; } bool BeginDragDropTarget() { return BeginDragDropTargetEx(IMPLOT_ID_PLT, GImPlot->CurrentPlot->PlotRect); } bool BeginDragDropTargetX() { return BeginDragDropTargetEx(IMPLOT_ID_XAX, GImPlot->CurrentPlot->XAxis.HoverRect); } bool BeginDragDropTargetY(ImPlotYAxis axis) { return BeginDragDropTargetEx(IMPLOT_ID_YAX + axis, GImPlot->CurrentPlot->YAxis[axis].HoverRect); } bool BeginDragDropTargetLegend() { return !ImHasFlag(GImPlot->CurrentPlot->Flags,ImPlotFlags_NoLegend) && BeginDragDropTargetEx(IMPLOT_ID_LEG, GImPlot->CurrentPlot->LegendRect); } void EndDragDropTarget() { ImGui::EndDragDropTarget(); } bool BeginDragDropSourceEx(ImGuiID source_id, bool is_hovered, ImGuiDragDropFlags flags, ImGuiKeyModFlags key_mods) { 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] && g.IO.KeyMods == key_mods) { ImGui::SetActiveID(source_id, window); ImGui::FocusWindow(window); } if (g.ActiveId != source_id) { return false; } g.ActiveIdAllowOverlap = is_hovered; 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)) { 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; } bool BeginDragDropSource(ImGuiKeyModFlags key_mods, ImGuiDragDropFlags flags) { if (ImGui::GetIO().KeyMods == key_mods) { GImPlot->CurrentPlot->XAxis.Dragging = false; for (int i = 0; i < IMPLOT_Y_AXES; ++i) GImPlot->CurrentPlot->YAxis[i].Dragging = false; } const ImGuiID ID = GImGui->CurrentWindow->GetID(IMPLOT_ID_PLT); ImRect rect = GImPlot->CurrentPlot->PlotRect; return ImGui::ItemAdd(rect, ID, &rect) && BeginDragDropSourceEx(ID, GImPlot->CurrentPlot->PlotHovered, flags, key_mods); } bool BeginDragDropSourceX(ImGuiKeyModFlags key_mods, ImGuiDragDropFlags flags) { if (ImGui::GetIO().KeyMods == key_mods) GImPlot->CurrentPlot->XAxis.Dragging = false; const ImGuiID ID = GImGui->CurrentWindow->GetID(IMPLOT_ID_XAX); ImRect rect = GImPlot->CurrentPlot->XAxis.HoverRect; return ImGui::ItemAdd(rect, ID, &rect) && BeginDragDropSourceEx(ID, GImPlot->CurrentPlot->XAxis.ExtHovered, flags, key_mods); } bool BeginDragDropSourceY(ImPlotYAxis axis, ImGuiKeyModFlags key_mods, ImGuiDragDropFlags flags) { if (ImGui::GetIO().KeyMods == key_mods) GImPlot->CurrentPlot->YAxis[axis].Dragging = false; const ImGuiID ID = GImGui->CurrentWindow->GetID(IMPLOT_ID_YAX + axis); ImRect rect = GImPlot->CurrentPlot->YAxis[axis].HoverRect; return ImGui::ItemAdd(rect, ID, &rect) && BeginDragDropSourceEx(ID, GImPlot->CurrentPlot->YAxis[axis].ExtHovered, flags, key_mods); } bool BeginDragDropSourceItem(const char* label_id, ImGuiDragDropFlags flags) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "BeginDragDropSourceItem() needs to be called between BeginPlot() and EndPlot()!"); ImGuiID source_id = ImGui::GetID(label_id); ImPlotItem* item = gp.CurrentPlot->Items.GetByKey(source_id); bool is_hovered = item && item->LegendHovered; return BeginDragDropSourceEx(source_id, is_hovered, flags, ImGuiKeyModFlags_None); } void EndDragDropSource() { ImGui::EndDragDropSource(); } void ItemIcon(const ImVec4& col) { ItemIcon(ImGui::ColorConvertFloat4ToU32(col)); } void ItemIcon(ImU32 col) { const float txt_size = ImGui::GetTextLineHeight(); ImVec2 size(txt_size-4,txt_size); ImGuiWindow* window = ImGui::GetCurrentWindow(); ImVec2 pos = window->DC.CursorPos; ImGui::GetWindowDrawList()->AddRectFilled(pos + ImVec2(0,2), pos + size - ImVec2(0,2), col); ImGui::Dummy(size); } void ColormapIcon(ImPlotColormap cmap) { ImPlotContext& gp = *GImPlot; const float txt_size = ImGui::GetTextLineHeight(); ImVec2 size(txt_size-4,txt_size); ImGuiWindow* window = ImGui::GetCurrentWindow(); ImVec2 pos = window->DC.CursorPos; ImRect rect(pos+ImVec2(0,2),pos+size-ImVec2(0,2)); ImDrawList& DrawList = *ImGui::GetWindowDrawList(); RenderColorBar(gp.ColormapData.GetKeys(cmap),gp.ColormapData.GetKeyCount(cmap),DrawList,rect,false,false,!gp.ColormapData.IsQual(cmap)); ImGui::Dummy(size); } //----------------------------------------------------------------------------- void SetLegendLocation(ImPlotLocation location, ImPlotOrientation orientation, bool outside) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "SetLegendLocation() needs to be called between BeginPlot() and EndPlot()!"); gp.CurrentPlot->LegendLocation = location; gp.CurrentPlot->LegendOrientation = orientation; if (gp.CurrentPlot->LegendOutside != outside) gp.CurrentPlot->LegendFlipSideNextFrame = true; } void SetMousePosLocation(ImPlotLocation location) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "SetMousePosLocation() needs to be called between BeginPlot() and EndPlot()!"); gp.CurrentPlot->MousePosLocation = location; } bool IsLegendEntryHovered(const char* label_id) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "IsPlotItemHighlight() needs to be called between BeginPlot() and EndPlot()!"); ImGuiID id = ImGui::GetID(label_id); ImPlotItem* item = gp.CurrentPlot->Items.GetByKey(id); return item && item->LegendHovered; } bool BeginLegendPopup(const char* label_id, ImGuiMouseButton mouse_button) { 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); if (item && item->LegendHovered) ImGui::OpenPopupEx(id); } return ImGui::BeginPopupEx(id, ImGuiWindowFlags_AlwaysAutoResize | ImGuiWindowFlags_NoTitleBar | ImGuiWindowFlags_NoSavedSettings); } void EndLegendPopup() { ImGui::EndPopup(); } void ShowAltLegend(const char* title_id, ImPlotOrientation orientation, const ImVec2 size, bool interactable) { ImPlotContext& gp = *GImPlot; ImGuiContext &G = *GImGui; ImGuiWindow * Window = G.CurrentWindow; if (Window->SkipItems) return; ImDrawList &DrawList = *Window->DrawList; ImPlotPlot* plot = GetPlot(title_id); ImVec2 legend_size; ImVec2 default_size = gp.Style.LegendPadding * 2; if (plot != NULL) { legend_size = CalcLegendSize(*plot, gp.Style.LegendInnerPadding, gp.Style.LegendSpacing, orientation); default_size = legend_size + gp.Style.LegendPadding * 2; } ImVec2 frame_size = ImGui::CalcItemSize(size, default_size.x, default_size.y); ImRect bb_frame = ImRect(Window->DC.CursorPos, Window->DC.CursorPos + frame_size); ImGui::ItemSize(bb_frame); if (!ImGui::ItemAdd(bb_frame, 0, &bb_frame)) return; ImGui::RenderFrame(bb_frame.Min, bb_frame.Max, GetStyleColorU32(ImPlotCol_FrameBg), true, G.Style.FrameRounding); DrawList.PushClipRect(bb_frame.Min, bb_frame.Max, true); if (plot != NULL) { const ImVec2 legend_pos = GetLocationPos(bb_frame, legend_size, 0, gp.Style.LegendPadding); const ImRect legend_bb(legend_pos, legend_pos + legend_size); interactable = interactable && bb_frame.Contains(ImGui::GetIO().MousePos); // render legend box ImU32 col_bg = GetStyleColorU32(ImPlotCol_LegendBg); ImU32 col_bd = GetStyleColorU32(ImPlotCol_LegendBorder); DrawList.AddRectFilled(legend_bb.Min, legend_bb.Max, col_bg); DrawList.AddRect(legend_bb.Min, legend_bb.Max, col_bd); // render entries ShowLegendEntries(*plot, legend_bb, interactable, gp.Style.LegendInnerPadding, gp.Style.LegendSpacing, orientation, DrawList); } DrawList.PopClipRect(); } //----------------------------------------------------------------------------- // STYLING //----------------------------------------------------------------------------- ImPlotStyle& GetStyle() { ImPlotContext& gp = *GImPlot; return gp.Style; } void PushStyleColor(ImPlotCol idx, ImU32 col) { ImPlotContext& gp = *GImPlot; ImGuiColorMod backup; backup.Col = idx; backup.BackupValue = gp.Style.Colors[idx]; gp.ColorModifiers.push_back(backup); gp.Style.Colors[idx] = ImGui::ColorConvertU32ToFloat4(col); } void PushStyleColor(ImPlotCol idx, const ImVec4& col) { ImPlotContext& gp = *GImPlot; ImGuiColorMod backup; backup.Col = idx; backup.BackupValue = gp.Style.Colors[idx]; gp.ColorModifiers.push_back(backup); gp.Style.Colors[idx] = col; } void PopStyleColor(int count) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(count <= gp.ColorModifiers.Size, "You can't pop more modifiers than have been pushed!"); while (count > 0) { ImGuiColorMod& backup = gp.ColorModifiers.back(); gp.Style.Colors[backup.Col] = backup.BackupValue; gp.ColorModifiers.pop_back(); count--; } } void PushStyleVar(ImPlotStyleVar idx, float val) { ImPlotContext& gp = *GImPlot; 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; } IM_ASSERT(0 && "Called PushStyleVar() float variant but variable is not a float!"); } void PushStyleVar(ImPlotStyleVar idx, int val) { ImPlotContext& gp = *GImPlot; 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; } IM_ASSERT(0 && "Called PushStyleVar() int variant but variable is not a int!"); } 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!"); } void PopStyleVar(int count) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(count <= gp.StyleModifiers.Size, "You can't pop more modifiers than have been pushed!"); 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) { ((float*)data)[0] = backup.BackupFloat[0]; ((float*)data)[1] = backup.BackupFloat[1]; } else if (info->Type == ImGuiDataType_S32 && info->Count == 1) { ((int*)data)[0] = backup.BackupInt[0]; } gp.StyleModifiers.pop_back(); count--; } } //------------------------------------------------------------------------------ // COLORMAPS //------------------------------------------------------------------------------ ImPlotColormap AddColormap(const char* name, const ImVec4* colormap, int size, bool qual) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(size > 1, "The colormap size must be greater than 1!"); IM_ASSERT_USER_ERROR(gp.ColormapData.GetIndex(name) == -1, "The colormap name has already been used!"); ImVector buffer; buffer.resize(size); for (int i = 0; i < size; ++i) buffer[i] = ImGui::ColorConvertFloat4ToU32(colormap[i]); return gp.ColormapData.Append(name, buffer.Data, size, qual); } ImPlotColormap AddColormap(const char* name, const ImU32* colormap, int size, bool qual) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(size > 1, "The colormap size must be greater than 1!"); IM_ASSERT_USER_ERROR(gp.ColormapData.GetIndex(name) == -1, "The colormap name has already be used!"); return gp.ColormapData.Append(name, colormap, size, qual); } int GetColormapCount() { ImPlotContext& gp = *GImPlot; return gp.ColormapData.Count; } const char* GetColormapName(ImPlotColormap colormap) { ImPlotContext& gp = *GImPlot; return gp.ColormapData.GetName(colormap); } ImPlotColormap GetColormapIndex(const char* name) { ImPlotContext& gp = *GImPlot; return gp.ColormapData.GetIndex(name); } void PushColormap(ImPlotColormap colormap) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(colormap >= 0 && colormap < gp.ColormapData.Count, "The colormap index is invalid!"); gp.ColormapModifiers.push_back(gp.Style.Colormap); gp.Style.Colormap = colormap; } void PushColormap(const char* name) { ImPlotContext& gp = *GImPlot; ImPlotColormap idx = gp.ColormapData.GetIndex(name); IM_ASSERT_USER_ERROR(idx != -1, "The colormap name is invalid!"); PushColormap(idx); } void PopColormap(int count) { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(count <= gp.ColormapModifiers.Size, "You can't pop more modifiers than have been pushed!"); while (count > 0) { const ImPlotColormap& backup = gp.ColormapModifiers.back(); gp.Style.Colormap = backup; gp.ColormapModifiers.pop_back(); count--; } } ImU32 NextColormapColorU32() { ImPlotContext& gp = *GImPlot; IM_ASSERT_USER_ERROR(gp.CurrentPlot != NULL, "NextColormapColor() needs to be called between BeginPlot() and EndPlot()!"); int idx = gp.CurrentPlot->ColormapIdx % gp.ColormapData.GetKeyCount(gp.Style.Colormap); ImU32 col = gp.ColormapData.GetKeyColor(gp.Style.Colormap, idx); gp.CurrentPlot->ColormapIdx++; return col; } ImVec4 NextColormapColor() { return ImGui::ColorConvertU32ToFloat4(NextColormapColorU32()); } int GetColormapSize(ImPlotColormap cmap) { ImPlotContext& gp = *GImPlot; cmap = cmap == IMPLOT_AUTO ? gp.Style.Colormap : cmap; IM_ASSERT_USER_ERROR(cmap >= 0 && cmap < gp.ColormapData.Count, "Invalid colormap index!"); return gp.ColormapData.GetKeyCount(gp.Style.Colormap); } ImU32 GetColormapColorU32(int idx, ImPlotColormap cmap) { ImPlotContext& gp = *GImPlot; cmap = cmap == IMPLOT_AUTO ? gp.Style.Colormap : cmap; IM_ASSERT_USER_ERROR(cmap >= 0 && cmap < gp.ColormapData.Count, "Invalid colormap index!"); idx = idx % gp.ColormapData.GetKeyCount(cmap); return gp.ColormapData.GetKeyColor(cmap, idx); } ImVec4 GetColormapColor(int idx, ImPlotColormap cmap) { return ImGui::ColorConvertU32ToFloat4(GetColormapColorU32(idx,cmap)); } ImU32 SampleColormapU32(float t, ImPlotColormap cmap) { ImPlotContext& gp = *GImPlot; cmap = cmap == IMPLOT_AUTO ? gp.Style.Colormap : cmap; IM_ASSERT_USER_ERROR(cmap >= 0 && cmap < gp.ColormapData.Count, "Invalid colormap index!"); return gp.ColormapData.LerpTable(cmap, t); } ImVec4 SampleColormap(float t, ImPlotColormap cmap) { return ImGui::ColorConvertU32ToFloat4(SampleColormapU32(t,cmap)); } void RenderColorBar(const ImU32* colors, int size, ImDrawList& DrawList, const ImRect& bounds, bool vert, bool reversed, bool continuous) { const int n = continuous ? size - 1 : size; ImU32 col1, col2; if (vert) { const float step = bounds.GetHeight() / n; ImRect rect(bounds.Min.x, bounds.Min.y, bounds.Max.x, bounds.Min.y + step); for (int i = 0; i < n; ++i) { if (reversed) { col1 = colors[size-i-1]; col2 = continuous ? colors[size-i-2] : col1; } else { col1 = colors[i]; col2 = continuous ? colors[i+1] : col1; } DrawList.AddRectFilledMultiColor(rect.Min, rect.Max, col1, col1, col2, col2); rect.TranslateY(step); } } else { const float step = bounds.GetWidth() / n; ImRect rect(bounds.Min.x, bounds.Min.y, bounds.Min.x + step, bounds.Max.y); for (int i = 0; i < n; ++i) { if (reversed) { col1 = colors[size-i-1]; col2 = continuous ? colors[size-i-2] : col1; } else { col1 = colors[i]; col2 = continuous ? colors[i+1] : col1; } DrawList.AddRectFilledMultiColor(rect.Min, rect.Max, col1, col2, col2, col1); rect.TranslateX(step); } } } void ColormapScale(const char* label, double scale_min, double scale_max, const ImVec2& size, ImPlotColormap cmap, const char* fmt) { ImGuiContext &G = *GImGui; ImGuiWindow * Window = G.CurrentWindow; if (Window->SkipItems) return; const ImGuiID ID = Window->GetID(label); ImVec2 label_size(0,0); label_size = ImGui::CalcTextSize(label,NULL,true); ImPlotContext& gp = *GImPlot; cmap = cmap == IMPLOT_AUTO ? gp.Style.Colormap : cmap; IM_ASSERT_USER_ERROR(cmap >= 0 && cmap < gp.ColormapData.Count, "Invalid colormap index!"); ImVec2 frame_size = ImGui::CalcItemSize(size, 0, gp.Style.PlotDefaultSize.y); if (frame_size.y < gp.Style.PlotMinSize.y && size.y < 0.0f) frame_size.y = gp.Style.PlotMinSize.y; ImPlotRange range(scale_min,scale_max); gp.CTicks.Reset(); AddTicksDefault(range, frame_size.y, ImPlotOrientation_Vertical, gp.CTicks, fmt); const float txt_off = gp.Style.LabelPadding.x; const float pad_right = txt_off + gp.CTicks.MaxWidth + (label_size.x > 0 ? txt_off + label_size.y : 0); float bar_w = 20; if (frame_size.x == 0) frame_size.x = bar_w + pad_right + 2 * gp.Style.PlotPadding.x; else { bar_w = frame_size.x - (pad_right + 2 * gp.Style.PlotPadding.x); if (bar_w < gp.Style.MajorTickLen.y) bar_w = gp.Style.MajorTickLen.y; } ImDrawList &DrawList = *Window->DrawList; ImRect bb_frame = ImRect(Window->DC.CursorPos, Window->DC.CursorPos + frame_size); ImGui::ItemSize(bb_frame); if (!ImGui::ItemAdd(bb_frame, ID, &bb_frame)) return; ImGui::RenderFrame(bb_frame.Min, bb_frame.Max, GetStyleColorU32(ImPlotCol_FrameBg), true, G.Style.FrameRounding); ImRect bb_grad(bb_frame.Min + gp.Style.PlotPadding, bb_frame.Min + ImVec2(bar_w + gp.Style.PlotPadding.x, frame_size.y - gp.Style.PlotPadding.y)); ImGui::PushClipRect(bb_frame.Min, bb_frame.Max, true); RenderColorBar(gp.ColormapData.GetKeys(cmap), gp.ColormapData.GetKeyCount(cmap), DrawList, bb_grad, true, true, !gp.ColormapData.IsQual(cmap)); const ImU32 col_tick = GetStyleColorU32(ImPlotCol_YAxis); const ImU32 col_text = ImGui::GetColorU32(ImGuiCol_Text); for (int i = 0; i < gp.CTicks.Size; ++i) { const float ypos = ImRemap((float)gp.CTicks.Ticks[i].PlotPos, (float)range.Max, (float)range.Min, bb_grad.Min.y, bb_grad.Max.y); const float tick_width = gp.CTicks.Ticks[i].Major ? gp.Style.MajorTickLen.y : gp.Style.MinorTickLen.y; const float tick_thick = gp.CTicks.Ticks[i].Major ? gp.Style.MajorTickSize.y : gp.Style.MinorTickSize.y; if (ypos < bb_grad.Max.y - 2 && ypos > bb_grad.Min.y + 2) DrawList.AddLine(ImVec2(bb_grad.Max.x-1, ypos), ImVec2(bb_grad.Max.x - tick_width, ypos), col_tick, tick_thick); DrawList.AddText(ImVec2(bb_grad.Max.x-1, ypos) + ImVec2(txt_off, -gp.CTicks.Ticks[i].LabelSize.y * 0.5f), col_text, gp.CTicks.GetText(i)); } if (label_size.x > 0) { ImVec2 label_pos(bb_grad.Max.x - 1 + 2*txt_off + gp.CTicks.MaxWidth, bb_grad.GetCenter().y + label_size.x*0.5f ); const char* label_end = ImGui::FindRenderedTextEnd(label); AddTextVertical(&DrawList,label_pos,col_text,label,label_end); } DrawList.AddRect(bb_grad.Min, bb_grad.Max, GetStyleColorU32(ImPlotCol_PlotBorder)); ImGui::PopClipRect(); } bool ColormapSlider(const char* label, float* t, ImVec4* out, const char* format, ImPlotColormap cmap) { *t = ImClamp(*t,0.0f,1.0f); ImGuiContext &G = *GImGui; ImGuiWindow * Window = G.CurrentWindow; if (Window->SkipItems) return false; ImPlotContext& gp = *GImPlot; cmap = cmap == IMPLOT_AUTO ? gp.Style.Colormap : cmap; IM_ASSERT_USER_ERROR(cmap >= 0 && cmap < gp.ColormapData.Count, "Invalid colormap index!"); const ImU32* keys = GImPlot->ColormapData.GetKeys(cmap); const int count = GImPlot->ColormapData.GetKeyCount(cmap); const bool qual = GImPlot->ColormapData.IsQual(cmap); const ImVec2 pos = ImGui::GetCurrentWindow()->DC.CursorPos; const float w = ImGui::CalcItemWidth(); const float h = ImGui::GetFrameHeight(); const ImRect rect = ImRect(pos.x,pos.y,pos.x+w,pos.y+h); RenderColorBar(keys,count,*ImGui::GetWindowDrawList(),rect,false,false,!qual); const ImU32 grab = CalcTextColor(GImPlot->ColormapData.LerpTable(cmap,*t)); // const ImU32 text = CalcTextColor(GImPlot->ColormapData.LerpTable(cmap,0.5f)); ImGui::PushStyleColor(ImGuiCol_FrameBg,IM_COL32_BLACK_TRANS); ImGui::PushStyleColor(ImGuiCol_FrameBgActive,IM_COL32_BLACK_TRANS); ImGui::PushStyleColor(ImGuiCol_FrameBgHovered,ImVec4(1,1,1,0.1f)); ImGui::PushStyleColor(ImGuiCol_SliderGrab,grab); ImGui::PushStyleColor(ImGuiCol_SliderGrabActive, grab); ImGui::PushStyleVar(ImGuiStyleVar_GrabMinSize,2); ImGui::PushStyleVar(ImGuiStyleVar_FrameRounding,0); const bool changed = ImGui::SliderFloat(label,t,0,1,format); ImGui::PopStyleColor(5); ImGui::PopStyleVar(2); if (out != NULL) *out = ImGui::ColorConvertU32ToFloat4(GImPlot->ColormapData.LerpTable(cmap,*t)); return changed; } bool ColormapButton(const char* label, const ImVec2& size_arg, ImPlotColormap cmap) { ImGuiContext &G = *GImGui; const ImGuiStyle& style = G.Style; ImGuiWindow * Window = G.CurrentWindow; if (Window->SkipItems) return false; ImPlotContext& gp = *GImPlot; cmap = cmap == IMPLOT_AUTO ? gp.Style.Colormap : cmap; IM_ASSERT_USER_ERROR(cmap >= 0 && cmap < gp.ColormapData.Count, "Invalid colormap index!"); const ImU32* keys = GImPlot->ColormapData.GetKeys(cmap); const int count = GImPlot->ColormapData.GetKeyCount(cmap); const bool qual = GImPlot->ColormapData.IsQual(cmap); const ImVec2 pos = ImGui::GetCurrentWindow()->DC.CursorPos; const ImVec2 label_size = ImGui::CalcTextSize(label, NULL, true); ImVec2 size = ImGui::CalcItemSize(size_arg, label_size.x + style.FramePadding.x * 2.0f, label_size.y + style.FramePadding.y * 2.0f); const ImRect rect = ImRect(pos.x,pos.y,pos.x+size.x,pos.y+size.y); RenderColorBar(keys,count,*ImGui::GetWindowDrawList(),rect,false,false,!qual); const ImU32 text = CalcTextColor(GImPlot->ColormapData.LerpTable(cmap,G.Style.ButtonTextAlign.x)); ImGui::PushStyleColor(ImGuiCol_Button,IM_COL32_BLACK_TRANS); ImGui::PushStyleColor(ImGuiCol_ButtonHovered,ImVec4(1,1,1,0.1f)); ImGui::PushStyleColor(ImGuiCol_ButtonActive,ImVec4(1,1,1,0.2f)); ImGui::PushStyleColor(ImGuiCol_Text,text); ImGui::PushStyleVar(ImGuiStyleVar_FrameRounding,0); const bool pressed = ImGui::Button(label,size); ImGui::PopStyleColor(4); ImGui::PopStyleVar(1); return pressed; } //----------------------------------------------------------------------------- // 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(); } } bool ShowStyleSelector(const char* label) { static int style_idx = -1; if (ImGui::Combo(label, &style_idx, "Auto\0Classic\0Dark\0Light\0")) { switch (style_idx) { case 0: StyleColorsAuto(); break; case 1: StyleColorsClassic(); break; case 2: StyleColorsDark(); break; case 3: StyleColorsLight(); break; } return true; } return false; } bool ShowColormapSelector(const char* label) { ImPlotContext& gp = *GImPlot; bool set = false; if (ImGui::BeginCombo(label, gp.ColormapData.GetName(gp.Style.Colormap))) { for (int i = 0; i < gp.ColormapData.Count; ++i) { const char* name = gp.ColormapData.GetName(i); if (ImGui::Selectable(name, gp.Style.Colormap == i)) { gp.Style.Colormap = i; ImPlot::BustItemCache(); set = true; } } ImGui::EndCombo(); } return set; } 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; if (ImPlot::ShowStyleSelector("Colors##Selector")) ref_saved_style = style; // 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"); float indent = ImGui::CalcItemWidth() - ImGui::GetFrameHeight(); ImGui::Indent(ImGui::CalcItemWidth() - ImGui::GetFrameHeight()); ImGui::Checkbox("AntiAliasedLines", &style.AntiAliasedLines); ImGui::Unindent(indent); 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::SliderFloat2("PlotDefaultSize", (float*)&style.PlotDefaultSize, 0.0f, 1000, "%.0f"); ImGui::SliderFloat2("PlotMinSize", (float*)&style.PlotMinSize, 0.0f, 300, "%.0f"); 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("LegendInnerPadding", (float*)&style.LegendInnerPadding, 0.0f, 10.0f, "%.0f"); ImGui::SliderFloat2("LegendSpacing", (float*)&style.LegendSpacing, 0.0f, 5.0f, "%.0f"); ImGui::SliderFloat2("MousePosPadding", (float*)&style.MousePosPadding, 0.0f, 20.0f, "%.0f"); ImGui::SliderFloat2("AnnotationPadding", (float*)&style.AnnotationPadding, 0.0f, 5.0f, "%.0f"); ImGui::SliderFloat2("FitPadding", (float*)&style.FitPadding, 0, 0.2f, "%.2f"); 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)) ImGui::LogText("colors[ImPlotCol_%s]%*s= IMPLOT_AUTO_COL;\n",name,14 - (int)strlen(name), ""); 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\0To 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 style.Colors[i] = IMPLOT_AUTO_COL; 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(); ImGui::Text("Colors that are set to Auto (i.e. IMPLOT_AUTO_COL) will\n" "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(); int size = GetColormapSize(); const char* name = GetColormapName(gp.Style.Colormap); ImGui::LogText("static const ImU32 %s_Data[%d] = {\n", name, size); for (int i = 0; i < size; ++i) { ImU32 col = GetColormapColorU32(i,gp.Style.Colormap); ImGui::LogText(" %u%s\n", col, i == size - 1 ? "" : ","); } ImGui::LogText("};\nImPlotColormap %s = ImPlot::AddColormap(\"%s\", %s_Data, %d);", name, name, name, size); ImGui::LogFinish(); } ImGui::SameLine(); ImGui::SetNextItemWidth(120); ImGui::Combo("##output_type", &output_dest, "To Clipboard\0To TTY\0"); ImGui::SameLine(); static bool edit = false; ImGui::Checkbox("Edit Mode",&edit); // built-in/added ImGui::Separator(); for (int i = 0; i < gp.ColormapData.Count; ++i) { ImGui::PushID(i); int size = gp.ColormapData.GetKeyCount(i); bool selected = i == gp.Style.Colormap; const char* name = GetColormapName(i); if (!selected) ImGui::PushStyleVar(ImGuiStyleVar_Alpha, 0.25f); if (ImGui::Button(name, ImVec2(100,0))) { gp.Style.Colormap = i; BustItemCache(); } if (!selected) ImGui::PopStyleVar(); ImGui::SameLine(); ImGui::BeginGroup(); if (edit) { for (int c = 0; c < size; ++c) { ImGui::PushID(c); ImVec4 col4 = ImGui::ColorConvertU32ToFloat4(gp.ColormapData.GetKeyColor(i,c)); if (ImGui::ColorEdit4("",&col4.x,ImGuiColorEditFlags_NoInputs)) { ImU32 col32 = ImGui::ColorConvertFloat4ToU32(col4); gp.ColormapData.SetKeyColor(i,c,col32); BustItemCache(); } if ((c + 1) % 12 != 0 && c != size -1) ImGui::SameLine(); ImGui::PopID(); } } else { if (ImPlot::ColormapButton("##",ImVec2(-1,0),i)) edit = true; } ImGui::EndGroup(); ImGui::PopID(); } static ImVector custom; if (custom.Size == 0) { custom.push_back(ImVec4(1,0,0,1)); custom.push_back(ImVec4(0,1,0,1)); custom.push_back(ImVec4(0,0,1,1)); } ImGui::Separator(); ImGui::BeginGroup(); static char name[16] = "MyColormap"; if (ImGui::Button("+", ImVec2((100 - ImGui::GetStyle().ItemSpacing.x)/2,0))) custom.push_back(ImVec4(0,0,0,1)); ImGui::SameLine(); if (ImGui::Button("-", ImVec2((100 - ImGui::GetStyle().ItemSpacing.x)/2,0)) && custom.Size > 2) custom.pop_back(); ImGui::SetNextItemWidth(100); ImGui::InputText("##Name",name,16,ImGuiInputTextFlags_CharsNoBlank); static bool qual = true; ImGui::Checkbox("Qualitative",&qual); if (ImGui::Button("Add", ImVec2(100, 0)) && gp.ColormapData.GetIndex(name)==-1) AddColormap(name,custom.Data,custom.Size,qual); 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)) { } if ((c + 1) % 12 != 0) ImGui::SameLine(); ImGui::PopID(); } ImGui::EndGroup(); ImGui::EndTabItem(); } ImGui::EndTabBar(); } } void ShowUserGuide() { ImGui::BulletText("Left-click drag within the plot area to pan X and Y axes."); ImGui::Indent(); ImGui::BulletText("Left-click drag on axis labels 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 axis labels to zoom an individual axis."); ImGui::Unindent(); ImGui::BulletText("Right-click 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 axis labels to fit the individual axis."); ImGui::Unindent(); ImGui::BulletText("Right-click open the full plot context menu."); ImGui::Indent(); ImGui::BulletText("Right-click axis labels to open an individual axis context menu."); ImGui::Unindent(); ImGui::BulletText("Click legend label icons to show/hide plot items."); } void ShowAxisMetrics(ImPlotAxis* axis, bool show_axis_rects) { ImGui::Bullet(); ImGui::Text("Flags: %d", axis->Flags); ImGui::Bullet(); ImGui::Text("Range: [%f,%f]",axis->Range.Min, axis->Range.Max); ImGui::Bullet(); ImGui::Text("Pixels: %f", axis->Pixels); ImGui::Bullet(); ImGui::Text("Aspect: %f", axis->GetAspect()); ImGui::Bullet(); ImGui::Text("Dragging: %s", axis->Dragging ? "true" : "false"); ImGui::Bullet(); ImGui::Text("ExtHovered: %s", axis->ExtHovered ? "true" : "false"); ImGui::Bullet(); ImGui::Text("AllHovered: %s", axis->AllHovered ? "true" : "false"); ImGui::Bullet(); ImGui::Text("Present: %s", axis->Present ? "true" : "false"); ImGui::Bullet(); ImGui::Text("HasRange: %s", axis->HasRange ? "true" : "false"); ImGui::Bullet(); ImGui::Text("LinkedMin: %p", (void*)axis->LinkedMin); ImGui::Bullet(); ImGui::Text("LinkedMax: %p", (void*)axis->LinkedMax); if (show_axis_rects) { ImDrawList& fg = *ImGui::GetForegroundDrawList(); fg.AddRect(axis->HoverRect.Min, axis->HoverRect.Max, IM_COL32(0,255,0,255)); } } void ShowMetricsWindow(bool* p_popen) { static bool show_plot_rects = false; static bool show_axes_rects = false; ImDrawList& fg = *ImGui::GetForegroundDrawList(); ImPlotContext& gp = *GImPlot; // ImGuiContext& g = *GImGui; ImGuiIO& io = ImGui::GetIO(); ImGui::Begin("ImPlot Metrics", p_popen); ImGui::Text("ImPlot " IMPLOT_VERSION); ImGui::Text("Application average %.3f ms/frame (%.1f FPS)", 1000.0f / io.Framerate, io.Framerate); ImGui::Separator(); if (ImGui::TreeNode("Tools")) { if (ImGui::Button("Bust Plot Cache")) BustPlotCache(); ImGui::SameLine(); if (ImGui::Button("Bust Item Cache")) BustItemCache(); ImGui::Checkbox("Show Plot Rects", &show_plot_rects); ImGui::Checkbox("Show Axes Rects", &show_axes_rects); ImGui::TreePop(); } const int n_plots = gp.Plots.GetBufSize(); if (ImGui::TreeNode("Plots","Plots (%d)", n_plots)) { for (int p = 0; p < n_plots; ++p) { // plot ImPlotPlot* plot = gp.Plots.GetByIndex(p); ImGui::PushID(p); if (ImGui::TreeNode("Plot", "Plot [ID=%u]", plot->ID)) { int n_items = plot->Items.GetBufSize(); if (ImGui::TreeNode("Items", "Items (%d)", n_items)) { for (int i = 0; i < n_items; ++i) { ImPlotItem* item = plot->Items.GetByIndex(i); ImGui::PushID(i); if (ImGui::TreeNode("Item", "Item [ID=%u]", item->ID)) { ImGui::Bullet(); ImGui::Checkbox("Show", &item->Show); ImGui::Bullet(); ImVec4 temp = ImGui::ColorConvertU32ToFloat4(item->Color); if (ImGui::ColorEdit4("Color",&temp.x, ImGuiColorEditFlags_NoInputs)) item->Color = ImGui::ColorConvertFloat4ToU32(temp); ImGui::Bullet(); ImGui::Text("NameOffset: %d",item->NameOffset); ImGui::Bullet(); ImGui::Text("Name: %s", item->NameOffset != -1 ? plot->LegendData.Labels.Buf.Data + item->NameOffset : "N/A"); ImGui::Bullet(); ImGui::Text("Hovered: %s",item->LegendHovered ? "true" : "false"); ImGui::TreePop(); } ImGui::PopID(); } ImGui::TreePop(); } if (ImGui::TreeNode("X-Axis")) { ShowAxisMetrics(&plot->XAxis, show_axes_rects); ImGui::TreePop(); } if (ImGui::TreeNode("Y-Axis")) { ShowAxisMetrics(&plot->YAxis[0], show_axes_rects); ImGui::TreePop(); } if (ImHasFlag(plot->Flags, ImPlotFlags_YAxis2) && ImGui::TreeNode("Y-Axis 2")) { ShowAxisMetrics(&plot->YAxis[1], show_axes_rects); ImGui::TreePop(); } if (ImHasFlag(plot->Flags, ImPlotFlags_YAxis3) && ImGui::TreeNode("Y-Axis 3")) { ShowAxisMetrics(&plot->YAxis[2], show_axes_rects); ImGui::TreePop(); } ImGui::Bullet(); ImGui::Text("Flags: %d", plot->Flags); ImGui::Bullet(); ImGui::Text("Initialized: %s", plot->Initialized ? "true" : "false"); ImGui::Bullet(); ImGui::Text("Selecting: %s", plot->Selecting ? "true" : "false"); ImGui::Bullet(); ImGui::Text("Selected: %s", plot->Selected ? "true" : "false"); ImGui::Bullet(); ImGui::Text("Querying: %s", plot->Querying ? "true" : "false"); ImGui::Bullet(); ImGui::Text("Queried: %s", plot->Queried ? "true" : "false"); ImGui::Bullet(); ImGui::Text("FrameHovered: %s", plot->FrameHovered ? "true" : "false"); ImGui::Bullet(); ImGui::Text("PlotHovered: %s", plot->PlotHovered ? "true" : "false"); ImGui::Bullet(); ImGui::Text("LegendHovered: %s", plot->LegendHovered ? "true" : "false"); ImGui::TreePop(); if (show_plot_rects) fg.AddRect(plot->PlotRect.Min, plot->PlotRect.Max, IM_COL32(255,255,0,255)); } ImGui::PopID(); } ImGui::TreePop(); } if (ImGui::TreeNode("Colormaps")) { ImGui::BulletText("Colormaps: %d", gp.ColormapData.Count); ImGui::BulletText("Memory: %d bytes", gp.ColormapData.Tables.Size * 4); if (ImGui::TreeNode("Data")) { for (int m = 0; m < gp.ColormapData.Count; ++m) { if (ImGui::TreeNode(gp.ColormapData.GetName(m))) { int count = gp.ColormapData.GetKeyCount(m); int size = gp.ColormapData.GetTableSize(m); bool qual = gp.ColormapData.IsQual(m); ImGui::BulletText("Qualitative: %s", qual ? "true" : "false"); ImGui::BulletText("Key Count: %d", count); ImGui::BulletText("Table Size: %d", size); ImGui::Indent(); static float t = 0.5; ImVec4 samp; float wid = 32 * 10 - ImGui::GetFrameHeight() - ImGui::GetStyle().ItemSpacing.x; ImGui::SetNextItemWidth(wid); ImPlot::ColormapSlider("##Sample",&t,&samp,"%.3f",m); ImGui::SameLine(); ImGui::ColorButton("Sampler",samp); ImGui::PushStyleColor(ImGuiCol_FrameBg, ImVec4(0,0,0,0)); ImGui::PushStyleVar(ImGuiStyleVar_ItemSpacing, ImVec2(0,0)); for (int c = 0; c < size; ++c) { ImVec4 col = ImGui::ColorConvertU32ToFloat4(gp.ColormapData.GetTableColor(m,c)); ImGui::PushID(m*1000+c); ImGui::ColorButton("",col,0,ImVec2(10,10)); ImGui::PopID(); if ((c + 1) % 32 != 0 && c != size - 1) ImGui::SameLine(); } ImGui::PopStyleVar(); ImGui::PopStyleColor(); ImGui::Unindent(); ImGui::TreePop(); } } ImGui::TreePop(); } ImGui::TreePop(); } ImGui::End(); } bool ShowDatePicker(const char* id, int* level, ImPlotTime* t, const ImPlotTime* t1, const ImPlotTime* t2) { ImGui::PushID(id); ImGui::BeginGroup(); ImGuiStyle& style = ImGui::GetStyle(); ImVec4 col_txt = style.Colors[ImGuiCol_Text]; ImVec4 col_dis = style.Colors[ImGuiCol_TextDisabled]; ImVec4 col_btn = style.Colors[ImGuiCol_Button]; ImGui::PushStyleColor(ImGuiCol_Button, ImVec4(0,0,0,0)); ImGui::PushStyleVar(ImGuiStyleVar_ItemSpacing, ImVec2(0,0)); const float ht = ImGui::GetFrameHeight(); ImVec2 cell_size(ht*1.25f,ht); char buff[32]; bool clk = false; tm& Tm = GImPlot->Tm; 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 snprintf(buff, 32, "%s %d", MONTH_NAMES[this_mon], this_year); 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) { ImGui::Button(WD_ABRVS[i],cell_size); 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_btn); 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_btn); if (ImGui::Button(MONTH_ABRVS[mo],cell_size) && !clk) { *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)) *t = MakeTime(yr-20); EndDisabledControls(yr <= min_yr); ImGui::SameLine(); BeginDisabledControls(yr + 20 >= max_yr); if (ImGui::ArrowButtonEx("##Down",ImGuiDir_Down,cell_size)) *t = MakeTime(yr+20); 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_btn); snprintf(buff,32,"%d",yr); if (yr<1970||yr>3000) { ImGui::Dummy(cell_size); } else if (ImGui::Button(buff,cell_size)) { *t = MakeTime(yr); *level = 1; } if (t1_or_t2) ImGui::PopStyleColor(); if (j != 3) ImGui::SameLine(); yr++; } } } ImGui::PopStyleVar(); ImGui::PopStyleColor(); ImGui::EndGroup(); ImGui::PopID(); return clk; } bool ShowTimePicker(const char* id, ImPlotTime* t) { ImGui::PushID(id); tm& Tm = GImPlot->Tm; GetTime(*t,&Tm); 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"}; static const char* am_pm[] = {"am","pm"}; bool hour24 = GImPlot->Style.Use24HourClock; int hr = hour24 ? Tm.tm_hour : ((Tm.tm_hour == 0 || Tm.tm_hour == 12) ? 12 : Tm.tm_hour % 12); int min = Tm.tm_min; int sec = Tm.tm_sec; int ap = Tm.tm_hour < 12 ? 0 : 1; bool changed = false; ImVec2 spacing = ImGui::GetStyle().ItemSpacing; spacing.x = 0; float width = ImGui::CalcTextSize("888").x; float height = ImGui::GetFrameHeight(); ImGui::PushStyleVar(ImGuiStyleVar_ItemSpacing, spacing); ImGui::PushStyleVar(ImGuiStyleVar_ScrollbarSize,2.0f); ImGui::PushStyleColor(ImGuiCol_FrameBg, ImVec4(0,0,0,0)); ImGui::PushStyleColor(ImGuiCol_Button, ImVec4(0,0,0,0)); ImGui::PushStyleColor(ImGuiCol_FrameBgHovered, ImGui::GetStyleColorVec4(ImGuiCol_ButtonHovered)); ImGui::SetNextItemWidth(width); if (ImGui::BeginCombo("##hr",nums[hr],ImGuiComboFlags_NoArrowButton)) { const int ia = hour24 ? 0 : 1; const int ib = hour24 ? 24 : 13; for (int i = ia; i < ib; ++i) { if (ImGui::Selectable(nums[i],i==hr)) { hr = i; changed = true; } } ImGui::EndCombo(); } ImGui::SameLine(); 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; } } 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; } } ImGui::EndCombo(); } if (!hour24) { ImGui::SameLine(); if (ImGui::Button(am_pm[ap],ImVec2(height,height))) { ap = 1 - ap; changed = true; } } ImGui::PopStyleColor(3); ImGui::PopStyleVar(2); ImGui::PopID(); if (changed) { if (!hour24) hr = hr % 12 + ap * 12; Tm.tm_hour = hr; Tm.tm_min = min; Tm.tm_sec = sec; *t = MkTime(&Tm); } return changed; } void StyleColorsAuto(ImPlotStyle* dst) { ImPlotStyle* style = dst ? dst : &ImPlot::GetStyle(); ImVec4* colors = style->Colors; style->MinorAlpha = 0.25f; 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; } void StyleColorsClassic(ImPlotStyle* dst) { ImPlotStyle* style = dst ? dst : &ImPlot::GetStyle(); ImVec4* colors = style->Colors; style->MinorAlpha = 0.5f; 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] = 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; style->MinorAlpha = 0.25f; 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] = 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; style->MinorAlpha = 1.0f; 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] = 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); colors[ImPlotCol_YAxisGrid2] = ImVec4(0.00f, 0.00f, 0.00f, 0.50f); colors[ImPlotCol_YAxis3] = ImVec4(0.00f, 0.00f, 0.00f, 1.00f); colors[ImPlotCol_YAxisGrid3] = ImVec4(0.00f, 0.00f, 0.00f, 0.50f); 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); } } // namespace ImPlot