// MIT License // Copyright (c) 2020 Evan Pezent // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // The above copyright notice and this permission notice shall be included in all // copies or substantial portions of the Software. // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE // SOFTWARE. // ImPlot v0.5 WIP #include "implot.h" #include #include #include #ifdef _MSC_VER #define sprintf sprintf_s #endif namespace MyImPlot { // Examples for passing custom function pointers to ImPlot in Custom Getters section. struct WaveData { double X, Amp, Freq, Offset; WaveData(double x, double amp, double freq, double offset) { X = x; Amp = amp; Freq = freq; Offset = offset; } }; ImPlotPoint SineWave(void* wave_data, int idx); ImPlotPoint SawWave(void* wave_data, int idx); ImPlotPoint Spiral(void*, int idx); // Example for Tables section. Generates a quick and simple shaded line plot. See implementation at bottom. void Sparkline(const char* id, const float* values, int count, float min_v, float max_v, int offset, const ImVec4& col, const ImVec2& size); // Example for Custom Plotters and Tooltips section. Plots a candlestick chart for financial data. See implementation at bottom. void PlotCandlestick(const char* label_id, const double* xs, const double* opens, const double* closes, const double* lows, const double* highs, int count, bool tooltip = true, float width_percent = 0.25f, ImVec4 bullCol = ImVec4(0,1,0,1), ImVec4 bearCol = ImVec4(1,0,0,1)); // Sets style to mimic Seaborn void StyleSeaborn(); } // namespace MyImPlot namespace ImPlot { /// Choose whether the demo uses double or float versions of the ImPlot API. /// NB: You don't ever need to typdef of define values for ImPlot. This /// is only being done here for the sake of demoing both precision types. // #define IMPLOT_DEMO_USE_DOUBLE #ifdef IMPLOT_DEMO_USE_DOUBLE typedef double t_float; typedef ImPlotPoint t_float2; #define Sin sin #define Cos cos #define Pow pow #define Log log #define Fmod fmod #else typedef float t_float; typedef ImVec2 t_float2; #define Sin sinf #define Cos cosf #define Pow powf #define Log logf #define Fmod fmodf #endif void ShowBenchmarkTool(); inline t_float RandomRange(t_float min, t_float max) { t_float scale = rand() / (t_float) RAND_MAX; return min + scale * ( max - min ); } // utility structure for realtime plot struct ScrollingBuffer { int MaxSize; int Offset; ImVector Data; ScrollingBuffer() { MaxSize = 2000; Offset = 0; Data.reserve(MaxSize); } void AddPoint(t_float x, t_float y) { if (Data.size() < MaxSize) Data.push_back(t_float2(x,y)); else { Data[Offset] = t_float2(x,y); Offset = (Offset + 1) % MaxSize; } } void Erase() { if (Data.size() > 0) { Data.shrink(0); Offset = 0; } } }; // utility structure for realtime plot struct RollingBuffer { t_float Span; ImVector Data; RollingBuffer() { Span = 10.0f; Data.reserve(2000); } void AddPoint(t_float x, t_float y) { t_float xmod = Fmod(x, Span); if (!Data.empty() && xmod < Data.back().x) Data.shrink(0); Data.push_back(t_float2(xmod, y)); } }; void ShowDemoWindow(bool* p_open) { t_float DEMO_TIME = (t_float)ImGui::GetTime(); static bool show_imgui_metrics = false; static bool show_imgui_style_editor = false; static bool show_implot_style_editor = false; static bool show_implot_benchmark = false; if (show_imgui_metrics) { ImGui::ShowMetricsWindow(&show_imgui_metrics); } if (show_imgui_style_editor) { ImGui::Begin("Style Editor (ImGui)", &show_imgui_style_editor); ImGui::ShowStyleEditor(); ImGui::End(); } if (show_implot_style_editor) { ImGui::SetNextWindowSize(ImVec2(415,762), ImGuiCond_Appearing); ImGui::Begin("Style Editor (ImPlot)", &show_implot_style_editor); ImPlot::ShowStyleEditor(); ImGui::End(); } if (show_implot_benchmark) { ImGui::SetNextWindowSize(ImVec2(530,740), ImGuiCond_Appearing); ImGui::Begin("ImPlot Benchmark Tool", &show_implot_benchmark); ImPlot::ShowBenchmarkTool(); ImGui::End(); return; } ImGui::SetNextWindowPos(ImVec2(50, 50), ImGuiCond_FirstUseEver); ImGui::SetNextWindowSize(ImVec2(530, 750), ImGuiCond_FirstUseEver); ImGui::Begin("ImPlot Demo", p_open, ImGuiWindowFlags_MenuBar); if (ImGui::BeginMenuBar()) { if (ImGui::BeginMenu("Tools")) { ImGui::MenuItem("Metrics (ImGui)", NULL, &show_imgui_metrics); ImGui::MenuItem("Style Editor (ImGui)", NULL, &show_imgui_style_editor); ImGui::MenuItem("Style Editor (ImPlot)", NULL, &show_implot_style_editor); ImGui::MenuItem("Benchmark", NULL, &show_implot_benchmark); ImGui::EndMenu(); } ImGui::EndMenuBar(); } //------------------------------------------------------------------------- ImGui::Text("ImPlot says hello. (%s)", IMPLOT_VERSION); ImGui::Spacing(); if (ImGui::CollapsingHeader("Help")) { ImGui::Text("ABOUT THIS DEMO:"); ImGui::BulletText("Sections below are demonstrating many aspects of the library."); ImGui::BulletText("The \"Tools\" menu above gives access to: Style Editors (ImPlot/ImGui)\n" "and Metrics (general purpose Dear ImGui debugging tool)."); ImGui::Separator(); ImGui::Text("PROGRAMMER GUIDE:"); ImGui::BulletText("See the ShowDemoWindow() code in implot_demo.cpp. <- you are here!"); ImGui::BulletText("By default, anti-aliased lines are turned OFF."); ImGui::Indent(); ImGui::BulletText("Software AA can be enabled globally with ImPlotStyle.AntiAliasedLines."); ImGui::BulletText("Software AA can be enabled per plot with ImPlotFlags_AntiAliased."); ImGui::BulletText("AA for plots can be toggled from the plot's context menu."); ImGui::BulletText("If permitable, you are better off using hardware AA (e.g. MSAA)."); ImGui::Unindent(); ImGui::BulletText("If you see visual artifacts, do one of the following:"); ImGui::Indent(); ImGui::BulletText("Handle ImGuiBackendFlags_RendererHasVtxOffset for 16-bit indices in your backend."); ImGui::BulletText("Or, enable 32-bit indices in imconfig.h."); ImGui::BulletText("Your current configuration is:"); ImGui::Indent(); ImGui::BulletText("ImDrawIdx: %d-bit", (int)(sizeof(ImDrawIdx) * 8)); ImGui::BulletText("ImGuiBackendFlags_RendererHasVtxOffset: %s", (ImGui::GetIO().BackendFlags & ImGuiBackendFlags_RendererHasVtxOffset) ? "True" : "False"); ImGui::Unindent(); ImGui::Unindent(); #ifdef IMPLOT_DEMO_USE_DOUBLE ImGui::BulletText("The demo data precision is: double"); #else ImGui::BulletText("The demo data precision is: float"); #endif ImGui::Separator(); ImGui::Text("USER GUIDE:"); ShowUserGuide(); } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Configuration")) { ImGui::ShowFontSelector("Font"); ImGui::ShowStyleSelector("ImGui Style"); ImPlot::ShowStyleSelector("ImPlot Style"); static const char* map = ImPlot::GetColormapName(ImPlotColormap_Default); if (ImGui::BeginCombo("ImPlot Colormap", map)) { for (int i = 0; i < ImPlotColormap_COUNT; ++i) { const char* name = GetColormapName(i); if (ImGui::Selectable(name, map == name)) { map = name; ImPlot::SetColormap(i); } } ImGui::EndCombo(); } float indent = ImGui::CalcItemWidth() - ImGui::GetFrameHeight(); ImGui::Indent(ImGui::CalcItemWidth() - ImGui::GetFrameHeight()); ImGui::Checkbox("Anti-Aliased Lines", &ImPlot::GetStyle().AntiAliasedLines); ImGui::Unindent(indent); } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Line Plots")) { static t_float xs1[1001], ys1[1001]; for (int i = 0; i < 1001; ++i) { xs1[i] = i * 0.001f; ys1[i] = 0.5f + 0.5f * Sin(50 * (xs1[i] + DEMO_TIME / 10)); } static t_float xs2[11], ys2[11]; for (int i = 0; i < 11; ++i) { xs2[i] = i * 0.1f; ys2[i] = xs2[i] * xs2[i]; } ImGui::BulletText("Anti-aliasing can be enabled from the plot's context menu (see Help)."); if (ImPlot::BeginPlot("Line Plot", "x", "f(x)")) { ImPlot::PlotLine("sin(x)", xs1, ys1, 1001); ImPlot::SetNextMarkerStyle(ImPlotMarker_Circle); ImPlot::PlotLine("x^2", xs2, ys2, 11); ImPlot::EndPlot(); } } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Filled Line Plots")) { static t_float xs1[101], ys1[101], ys2[101], ys3[101]; srand(0); for (int i = 0; i < 101; ++i) { xs1[i] = (float)i; ys1[i] = RandomRange(400,450); ys2[i] = RandomRange(275,350); ys3[i] = RandomRange(150,225); } static bool show_lines = true; static bool show_fills = true; static float fill_ref = 0; ImGui::Checkbox("Lines",&show_lines); ImGui::SameLine(); ImGui::Checkbox("Fills",&show_fills); ImGui::DragFloat("Reference",&fill_ref, 1, -100, 500); ImPlot::SetNextPlotLimits(0,100,0,500); if (ImPlot::BeginPlot("Stock Prices", "Days", "Price")) { if (show_fills) { ImPlot::PushStyleVar(ImPlotStyleVar_FillAlpha, 0.25f); ImPlot::PlotShaded("Stock 1", xs1, ys1, 101, fill_ref); ImPlot::PlotShaded("Stock 2", xs1, ys2, 101, fill_ref); ImPlot::PlotShaded("Stock 3", xs1, ys3, 101, fill_ref); ImPlot::PopStyleVar(); } if (show_lines) { ImPlot::PlotLine("Stock 1", xs1, ys1, 101); ImPlot::PlotLine("Stock 2", xs1, ys2, 101); ImPlot::PlotLine("Stock 3", xs1, ys3, 101); } ImPlot::EndPlot(); } } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Shaded Plots")) { static t_float xs[1001], ys[1001], ys1[1001], ys2[1001], ys3[1001], ys4[1001]; srand(0); for (int i = 0; i < 1001; ++i) { xs[i] = i * 0.001f; ys[i] = 0.25f + 0.25f * Sin(25 * xs[i]) * Sin(5 * xs[i]) + RandomRange(-0.01f, 0.01f); ys1[i] = ys[i] + RandomRange(0.1f, 0.12f); ys2[i] = ys[i] - RandomRange(0.1f, 0.12f); ys3[i] = 0.75f + 0.2f * Sin(25 * xs[i]); ys4[i] = 0.75f + 0.1f * Cos(25 * xs[i]); } static float alpha = 0.25f; ImGui::DragFloat("Alpha",&alpha,0.01f,0,1); if (ImPlot::BeginPlot("Shaded Plots", "X-Axis", "Y-Axis")) { ImPlot::PushStyleVar(ImPlotStyleVar_FillAlpha, alpha); ImPlot::PlotShaded("Uncertain Data",xs,ys1,ys2,1001); ImPlot::PlotLine("Uncertain Data", xs, ys, 1001); ImPlot::PlotShaded("Overlapping",xs,ys3,ys4,1001); ImPlot::PlotLine("Overlapping",xs,ys3,1001); ImPlot::PlotLine("Overlapping",xs,ys4,1001); ImPlot::PopStyleVar(); ImPlot::EndPlot(); } } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Scatter Plots")) { srand(0); static t_float xs1[100], ys1[100]; for (int i = 0; i < 100; ++i) { xs1[i] = i * 0.01f; ys1[i] = xs1[i] + 0.1f * ((t_float)rand() / (t_float)RAND_MAX); } static t_float xs2[50], ys2[50]; for (int i = 0; i < 50; i++) { xs2[i] = 0.25f + 0.2f * ((t_float)rand() / (t_float)RAND_MAX); ys2[i] = 0.75f + 0.2f * ((t_float)rand() / (t_float)RAND_MAX); } if (ImPlot::BeginPlot("Scatter Plot", NULL, NULL)) { ImPlot::PlotScatter("Data 1", xs1, ys1, 100); ImPlot::PushStyleVar(ImPlotStyleVar_FillAlpha, 0.25f); ImPlot::SetNextMarkerStyle(ImPlotMarker_Square, 6, ImVec4(0,1,0,0.5f), IMPLOT_AUTO, ImVec4(0,1,0,1)); ImPlot::PlotScatter("Data 2", xs2, ys2, 50); ImPlot::PopStyleVar(); ImPlot::EndPlot(); } } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Bar Plots")) { static const char* labels[] = {"S1","S2","S3","S4","S5","S6","S7","S8","S9","S10"}; static const double positions[] = {0,1,2,3,4,5,6,7,8,9}; static bool horz = false; static t_float midtm[10] = {83, 67, 23, 89, 83, 78, 91, 82, 85, 90}; static t_float final[10] = {80, 62, 56, 99, 55, 78, 88, 78, 90, 100}; static t_float grade[10] = {80, 69, 52, 92, 72, 78, 75, 76, 89, 95}; ImGui::Checkbox("Horizontal",&horz); if (horz) { ImPlot::SetNextPlotLimits(0, 110, -0.5, 9.5, ImGuiCond_Always); ImPlot::SetNextPlotTicksY(positions, 10, labels); } else { ImPlot::SetNextPlotLimits(-0.5, 9.5, 0, 110, ImGuiCond_Always); ImPlot::SetNextPlotTicksX(positions, 10, labels); } if (ImPlot::BeginPlot("Bar Plot", horz ? "Score" : "Student", horz ? "Student" : "Score", ImVec2(-1,0), ImPlotFlags_Default, ImPlotAxisFlags_Default, horz ? ImPlotAxisFlags_Default | ImPlotAxisFlags_Invert : ImPlotAxisFlags_Default)) { if (horz) { ImPlot::PlotBarsH("Midterm Exam", midtm, 10, 0.2f, -0.2f); ImPlot::PlotBarsH("Final Exam", final, 10, 0.2f, 0); ImPlot::PlotBarsH("Course Grade", grade, 10, 0.2f, 0.2f); } else { ImPlot::PlotBars("Midterm Exam", midtm, 10, 0.2f, -0.2f); ImPlot::PlotBars("Final Exam", final, 10, 0.2f, 0); ImPlot::PlotBars("Course Grade", grade, 10, 0.2f, 0.2f); } ImPlot::EndPlot(); } } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Error Bars")) { static t_float xs[5] = {1,2,3,4,5}; static t_float bar[5] = {1,2,5,3,4}; static t_float lin1[5] = {8,8,9,7,8}; static t_float lin2[5] = {6,7,6,9,6}; static t_float err1[5] = {0.2f, 0.4f, 0.2f, 0.6f, 0.4f}; static t_float err2[5] = {0.4f, 0.2f, 0.4f, 0.8f, 0.6f}; static t_float err3[5] = {0.09f, 0.14f, 0.09f, 0.12f, 0.16f}; static t_float err4[5] = {0.02f, 0.08f, 0.15f, 0.05f, 0.2f}; ImPlot::SetNextPlotLimits(0, 6, 0, 10); if (ImPlot::BeginPlot("##ErrorBars",NULL,NULL)) { ImPlot::PlotBars("Bar", xs, bar, 5, 0.5f); ImPlot::PlotErrorBars("Bar", xs, bar, err1, 5); ImPlot::SetNextErrorBarStyle(ImPlot::GetColormapColor(1), 0); ImPlot::PlotErrorBars("Line", xs, lin1, err1, err2, 5); ImPlot::SetNextMarkerStyle(ImPlotMarker_Circle); ImPlot::PlotLine("Line", xs, lin1, 5); ImPlot::PushStyleColor(ImPlotCol_ErrorBar, ImPlot::GetColormapColor(2)); ImPlot::PlotErrorBars("Scatter", xs, lin2, err2, 5); ImPlot::PlotErrorBarsH("Scatter", xs, lin2, err3, err4, 5); ImPlot::PopStyleColor(); ImPlot::PlotScatter("Scatter", xs, lin2, 5); ImPlot::EndPlot(); } } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Pie Charts")) { static const char* labels1[] = {"Frogs","Hogs","Dogs","Logs"}; static float data1[] = {0.15f, 0.30f, 0.2f, 0.05f}; static bool normalize = false; ImGui::SetNextItemWidth(250); ImGui::DragFloat4("Values", data1, 0.01f, 0, 1); if ((data1[0] + data1[1] + data1[2] + data1[3]) < 1) { ImGui::SameLine(); ImGui::Checkbox("Normalize", &normalize); } ImPlot::SetNextPlotLimits(0,1,0,1,ImGuiCond_Always); if (ImPlot::BeginPlot("##Pie1", NULL, NULL, ImVec2(250,250), ImPlotFlags_Legend, 0, 0)) { ImPlot::PlotPieChart(labels1, data1, 4, 0.5f, 0.5f, 0.4f, normalize, "%.2f"); ImPlot::EndPlot(); } ImGui::SameLine(); static const char* labels2[] = {"A","B","C","D","E"}; static t_float data2[] = {1,1,2,3,5}; ImPlot::PushColormap(ImPlotColormap_Pastel); ImPlot::SetNextPlotLimits(0,1,0,1,ImGuiCond_Always); if (ImPlot::BeginPlot("##Pie2", NULL, NULL, ImVec2(250,250), ImPlotFlags_Legend, 0, 0)) { ImPlot::PlotPieChart(labels2, data2, 5, 0.5f, 0.5f, 0.4f, true, "%.0f", 180); ImPlot::EndPlot(); } ImPlot::PopColormap(); } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Heatmaps")) { static t_float values1[7][7] = {{0.8f, 2.4f, 2.5f, 3.9f, 0.0f, 4.0f, 0.0f}, {2.4f, 0.0f, 4.0f, 1.0f, 2.7f, 0.0f, 0.0f}, {1.1f, 2.4f, 0.8f, 4.3f, 1.9f, 4.4f, 0.0f}, {0.6f, 0.0f, 0.3f, 0.0f, 3.1f, 0.0f, 0.0f}, {0.7f, 1.7f, 0.6f, 2.6f, 2.2f, 6.2f, 0.0f}, {1.3f, 1.2f, 0.0f, 0.0f, 0.0f, 3.2f, 5.1f}, {0.1f, 2.0f, 0.0f, 1.4f, 0.0f, 1.9f, 6.3f}}; static float scale_min = 0; static float scale_max = 6.3f; static t_float values2[100*100]; srand((unsigned int)(DEMO_TIME*1000000)); for (int i = 0; i < 100*100; ++i) values2[i] = RandomRange(0,1); static const char* xlabels[] = {"C1","C2","C3","C4","C5","C6","C7"}; static const char* ylabels[] = {"R1","R2","R3","R4","R5","R6","R7"}; static ImPlotColormap map = ImPlotColormap_Viridis; if (ImGui::Button("Change Colormap",ImVec2(225,0))) map = (map + 1) % ImPlotColormap_COUNT; ImGui::SameLine(); ImGui::LabelText("##Colormap Index", "%s", ImPlot::GetColormapName(map)); ImGui::SetNextItemWidth(225); ImGui::DragFloatRange2("Min / Max",&scale_min, &scale_max, 0.01f, -20, 20); static ImPlotAxisFlags axes_flags = ImPlotAxisFlags_LockMin | ImPlotAxisFlags_LockMax | ImPlotAxisFlags_TickLabels; ImPlot::PushColormap(map); SetNextPlotTicksX(0 + 1.0/14.0, 1 - 1.0/14.0, 7, xlabels); SetNextPlotTicksY(1 - 1.0/14.0, 0 + 1.0/14.0, 7, ylabels); if (ImPlot::BeginPlot("##Heatmap1",NULL,NULL,ImVec2(225,225),0,axes_flags,axes_flags)) { ImPlot::PlotHeatmap("heat",values1[0],7,7,scale_min,scale_max); ImPlot::EndPlot(); } ImGui::SameLine(); ImPlot::ShowColormapScale(scale_min, scale_max, 225); ImPlot::PopColormap(); ImGui::SameLine(); static ImVec4 gray[2] = {ImVec4(0,0,0,1), ImVec4(1,1,1,1)}; ImPlot::PushColormap(gray, 2); ImPlot::SetNextPlotLimits(-1,1,-1,1); if (ImPlot::BeginPlot("##Heatmap2",NULL,NULL,ImVec2(225,225),ImPlotFlags_ContextMenu,0,0)) { ImPlot::PlotHeatmap("heat1",values2,100,100,0,1,NULL); ImPlot::PlotHeatmap("heat2",values2,100,100,0,1,NULL, ImPlotPoint(-1,-1), ImPlotPoint(0,0)); ImPlot::EndPlot(); } ImPlot::PopColormap(); } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Realtime Plots")) { ImGui::BulletText("Move your mouse to change the data!"); ImGui::BulletText("This example assumes 60 FPS. Higher FPS requires larger buffer size."); static ScrollingBuffer sdata1, sdata2; static RollingBuffer rdata1, rdata2; ImVec2 mouse = ImGui::GetMousePos(); static t_float t = 0; t += ImGui::GetIO().DeltaTime; sdata1.AddPoint(t, mouse.x * 0.0005f); rdata1.AddPoint(t, mouse.x * 0.0005f); sdata2.AddPoint(t, mouse.y * 0.0005f); rdata2.AddPoint(t, mouse.y * 0.0005f); static float history = 10.0f; ImGui::SliderFloat("History",&history,1,30,"%.1f s"); rdata1.Span = history; rdata2.Span = history; static ImPlotAxisFlags rt_axis = ImPlotAxisFlags_Default & ~ImPlotAxisFlags_TickLabels; ImPlot::SetNextPlotLimitsX(t - history, t, ImGuiCond_Always); if (ImPlot::BeginPlot("##Scrolling", NULL, NULL, ImVec2(-1,150), ImPlotFlags_Default, rt_axis, rt_axis | ImPlotAxisFlags_LockMin)) { ImPlot::PlotShaded("Data 1", &sdata1.Data[0].x, &sdata1.Data[0].y, sdata1.Data.size(), 0, sdata1.Offset, 2 * sizeof(t_float)); ImPlot::PlotLine("Data 2", &sdata2.Data[0], sdata2.Data.size(), sdata2.Offset); ImPlot::EndPlot(); } ImPlot::SetNextPlotLimitsX(0, history, ImGuiCond_Always); if (ImPlot::BeginPlot("##Rolling", NULL, NULL, ImVec2(-1,150), ImPlotFlags_Default, rt_axis, rt_axis)) { // two methods of plotting Data // as ImVec2* (or ImPlot*): ImPlot::PlotLine("Data 1", &rdata1.Data[0], rdata1.Data.size()); // as float*, float* (or double*, double*) with stride of 2 * sizeof ImPlot::PlotLine("Data 2", &rdata2.Data[0].x, &rdata2.Data[0].y, rdata2.Data.size(), 0, 2 * sizeof(t_float)); ImPlot::EndPlot(); } } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Markers and Text")) { static float mk_size = ImPlot::GetStyle().MarkerSize; static float mk_weight = ImPlot::GetStyle().MarkerWeight; ImGui::DragFloat("Marker Size",&mk_size,0.1f,2.0f,10.0f,"%.2f px"); ImGui::DragFloat("Marker Weight", &mk_weight,0.05f,0.5f,3.0f,"%.2f px"); ImPlot::SetNextPlotLimits(0, 10, 0, 12); if (ImPlot::BeginPlot("##MarkerStyles", NULL, NULL, ImVec2(-1,0), 0, 0, 0)) { t_float xs[2] = {1,4}; t_float ys[2] = {10,11}; // filled markers for (int m = 1; m < ImPlotMarker_COUNT; ++m) { ImGui::PushID(m); ImPlot::SetNextMarkerStyle(m, mk_size, IMPLOT_AUTO_COL, mk_weight); ImPlot::PlotLine("##Filled", xs, ys, 2); ImGui::PopID(); ys[0]--; ys[1]--; } xs[0] = 6; xs[1] = 9; ys[0] = 10; ys[1] = 11; // open markers for (int m = 1; m < ImPlotMarker_COUNT; ++m) { ImGui::PushID(m); ImPlot::SetNextMarkerStyle(m, mk_size, ImVec4(0,0,0,0), mk_weight); ImPlot::PlotLine("##Open", xs, ys, 2); ImGui::PopID(); ys[0]--; ys[1]--; } ImPlot::PlotText("Filled Markers", 2.5f, 6.0f); ImPlot::PlotText("Open Markers", 7.5f, 6.0f); ImPlot::PushStyleColor(ImPlotCol_InlayText, ImVec4(1,0,1,1)); ImPlot::PlotText("Vertical Text", 5.0f, 6.0f, true); ImPlot::PopStyleColor(); ImPlot::EndPlot(); } } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Log Scale")) { static t_float xs[1001], ys1[1001], ys2[1001], ys3[1001]; for (int i = 0; i < 1001; ++i) { xs[i] = i*0.1f; ys1[i] = Sin(xs[i]) + 1; ys2[i] = Log(xs[i]); ys3[i] = Pow(10.0f, xs[i]); } ImGui::BulletText("Open the plot context menu (double right click) to change scales."); ImPlot::SetNextPlotLimits(0.1, 100, 0, 10); if (ImPlot::BeginPlot("Log Plot", NULL, NULL, ImVec2(-1,0), ImPlotFlags_Default, ImPlotAxisFlags_Default | ImPlotAxisFlags_LogScale )) { ImPlot::PlotLine("f(x) = x", xs, xs, 1001); ImPlot::PlotLine("f(x) = sin(x)+1", xs, ys1, 1001); ImPlot::PlotLine("f(x) = log(x)", xs, ys2, 1001); ImPlot::PlotLine("f(x) = 10^x", xs, ys3, 21); ImPlot::EndPlot(); } } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Multiple Y-Axes")) { static t_float xs[1001], xs2[1001], ys1[1001], ys2[1001], ys3[1001]; for (int i = 0; i < 1001; ++i) { xs[i] = (i*0.1f); ys1[i] = Sin(xs[i]) * 3 + 1; ys2[i] = Cos(xs[i]) * 0.2f + 0.5f; ys3[i] = Sin(xs[i]+0.5f) * 100 + 200; xs2[i] = xs[i] + 10.0f; } static bool y2_axis = true; static bool y3_axis = true; ImGui::Checkbox("Y-Axis 2", &y2_axis); ImGui::SameLine(); ImGui::Checkbox("Y-Axis 3", &y3_axis); ImGui::SameLine(); // you can fit axes programatically ImGui::SameLine(); if (ImGui::Button("Fit X")) ImPlot::FitNextPlotAxes(true, false, false, false); ImGui::SameLine(); if (ImGui::Button("Fit Y")) ImPlot::FitNextPlotAxes(false, true, false, false); ImGui::SameLine(); if (ImGui::Button("Fit Y2")) ImPlot::FitNextPlotAxes(false, false, true, false); ImGui::SameLine(); if (ImGui::Button("Fit Y3")) ImPlot::FitNextPlotAxes(false, false, false, true); ImPlot::SetNextPlotLimits(0.1, 100, 0, 10); ImPlot::SetNextPlotLimitsY(0, 1, ImGuiCond_Once, 1); ImPlot::SetNextPlotLimitsY(0, 300, ImGuiCond_Once, 2); if (ImPlot::BeginPlot("Multi-Axis Plot", NULL, NULL, ImVec2(-1,0), ImPlotFlags_Default | (y2_axis ? ImPlotFlags_YAxis2 : 0) | (y3_axis ? ImPlotFlags_YAxis3 : 0))) { ImPlot::PlotLine("f(x) = x", xs, xs, 1001); ImPlot::PlotLine("f(x) = sin(x)*3+1", xs, ys1, 1001); if (y2_axis) { ImPlot::SetPlotYAxis(1); ImPlot::PlotLine("f(x) = cos(x)*.2+.5 (Y2)", xs, ys2, 1001); } if (y3_axis) { ImPlot::SetPlotYAxis(2); ImPlot::PlotLine("f(x) = sin(x+.5)*100+200 (Y3)", xs2, ys3, 1001); } ImPlot::EndPlot(); } } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Querying")) { static ImVector data; static ImPlotLimits range, query; ImGui::BulletText("Ctrl + click in the plot area to draw points."); ImGui::BulletText("Middle click (or Ctrl + right click) and drag to create a query rect."); ImGui::Indent(); ImGui::BulletText("Hold Alt to expand query horizontally."); ImGui::BulletText("Hold Shift to expand query vertically."); ImGui::BulletText("The query rect can be dragged after it's created."); ImGui::Unindent(); if (ImPlot::BeginPlot("##Drawing", NULL, NULL, ImVec2(-1,0), ImPlotFlags_Default | ImPlotFlags_Query, ImPlotAxisFlags_GridLines, ImPlotAxisFlags_GridLines)) { if (ImPlot::IsPlotHovered() && ImGui::IsMouseClicked(0) && ImGui::GetIO().KeyCtrl) { ImPlotPoint pt = ImPlot::GetPlotMousePos(); data.push_back(t_float2((t_float)pt.x, (t_float)pt.y)); } if (data.size() > 0) ImPlot::PlotScatter("Points", &data[0].x, &data[0].y, data.size(), 0, 2 * sizeof(t_float)); if (ImPlot::IsPlotQueried() && data.size() > 0) { ImPlotLimits range2 = ImPlot::GetPlotQuery(); int cnt = 0; t_float2 avg; for (int i = 0; i < data.size(); ++i) { if (range2.Contains(data[i].x, data[i].y)) { avg.x += data[i].x; avg.y += data[i].y; cnt++; } } if (cnt > 0) { avg.x = avg.x / cnt; avg.y = avg.y / cnt; ImPlot::SetNextMarkerStyle(ImPlotMarker_Square); ImPlot::PlotScatter("Average", &avg.x, &avg.y, 1); } } range = ImPlot::GetPlotLimits(); query = ImPlot::GetPlotQuery(); ImPlot::EndPlot(); } ImGui::Text("The current plot limits are: [%g,%g,%g,%g]", range.X.Min, range.X.Max, range.Y.Min, range.Y.Max); ImGui::Text("The current query limits are: [%g,%g,%g,%g]", query.X.Min, query.X.Max, query.Y.Min, query.Y.Max); } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Views")) { // mimic's soulthread's imgui_plot demo static t_float x_data[512]; static t_float y_data1[512]; static t_float y_data2[512]; static t_float y_data3[512]; static t_float sampling_freq = 44100; static t_float freq = 500; for (size_t i = 0; i < 512; ++i) { const t_float t = i / sampling_freq; x_data[i] = t; const t_float arg = 2 * 3.14f * freq * t; y_data1[i] = Sin(arg); y_data2[i] = y_data1[i] * -0.6f + Sin(2 * arg) * 0.4f; y_data3[i] = y_data2[i] * -0.6f + Sin(3 * arg) * 0.4f; } ImGui::BulletText("Query the first plot to render a subview in the second plot (see above for controls)."); ImPlot::SetNextPlotLimits(0,0.01,-1,1); ImPlotAxisFlags flags = ImPlotAxisFlags_Default & ~ImPlotAxisFlags_TickLabels; ImPlotLimits query; if (ImPlot::BeginPlot("##View1",NULL,NULL,ImVec2(-1,150), ImPlotFlags_Default | ImPlotFlags_Query, flags, flags)) { ImPlot::PlotLine("Signal 1", x_data, y_data1, 512); ImPlot::PlotLine("Signal 2", x_data, y_data2, 512); ImPlot::PlotLine("Signal 3", x_data, y_data3, 512); query = ImPlot::GetPlotQuery(); ImPlot::EndPlot(); } ImPlot::SetNextPlotLimits(query.X.Min, query.X.Max, query.Y.Min, query.Y.Max, ImGuiCond_Always); if (ImPlot::BeginPlot("##View2",NULL,NULL,ImVec2(-1,150), 0, 0, 0)) { ImPlot::PlotLine("Signal 1", x_data, y_data1, 512); ImPlot::PlotLine("Signal 2", x_data, y_data2, 512); ImPlot::PlotLine("Signal 3", x_data, y_data3, 512); ImPlot::EndPlot(); } } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Drag and Drop")) { const int K_CHANNELS = 9; srand((int)(10000000 * DEMO_TIME)); static bool paused = false; static bool init = true; static ScrollingBuffer data[K_CHANNELS]; static bool show[K_CHANNELS]; static int yAxis[K_CHANNELS]; if (init) { for (int i = 0; i < K_CHANNELS; ++i) { show[i] = false; yAxis[i] = 0; } init = false; } ImGui::BulletText("Drag data items from the left column onto the plot or onto a specific y-axis."); ImGui::BulletText("Redrag data items from the legend onto other y-axes."); ImGui::BeginGroup(); if (ImGui::Button("Clear", ImVec2(100, 0))) { for (int i = 0; i < K_CHANNELS; ++i) { show[i] = false; data[i].Data.shrink(0); data[i].Offset = 0; } } if (ImGui::Button(paused ? "Resume" : "Pause", ImVec2(100,0))) paused = !paused; for (int i = 0; i < K_CHANNELS; ++i) { char label[16]; sprintf(label, show[i] ? "data_%d (Y%d)" : "data_%d", i, yAxis[i]+1); ImGui::Selectable(label, false, 0, ImVec2(100, 0)); if (ImGui::BeginDragDropSource(ImGuiDragDropFlags_None)) { ImGui::SetDragDropPayload("DND_PLOT", &i, sizeof(int)); ImGui::TextUnformatted(label); ImGui::EndDragDropSource(); } } ImGui::EndGroup(); ImGui::SameLine(); srand((unsigned int)DEMO_TIME*10000000); static t_float t = 0; if (!paused) { t += ImGui::GetIO().DeltaTime; for (int i = 0; i < K_CHANNELS; ++i) { if (show[i]) data[i].AddPoint(t, (i+1)*0.1f + RandomRange(-0.01f,0.01f)); } } ImPlot::SetNextPlotLimitsX((double)t - 10, t, paused ? ImGuiCond_Once : ImGuiCond_Always); if (ImPlot::BeginPlot("##DND", NULL, NULL, ImVec2(-1,0), ImPlotFlags_Legend | ImPlotFlags_Highlight | ImPlotFlags_BoxSelect | ImPlotFlags_ContextMenu | ImPlotFlags_YAxis2 | ImPlotFlags_YAxis3)) { for (int i = 0; i < K_CHANNELS; ++i) { if (show[i] && data[i].Data.size() > 0) { char label[K_CHANNELS]; sprintf(label, "data_%d", i); ImPlot::SetPlotYAxis(yAxis[i]); ImPlot::PlotLine(label, &data[i].Data[0].x, &data[i].Data[0].y, data[i].Data.size(), data[i].Offset, 2 * sizeof(t_float)); // allow legend labels to be dragged and dropped if (ImPlot::BeginLegendDragDropSource(label)) { ImGui::SetDragDropPayload("DND_PLOT", &i, sizeof(int)); ImGui::TextUnformatted(label); ImPlot::EndLegendDragDropSource(); } } } // make our plot a drag and drop target if (ImGui::BeginDragDropTarget()) { if (const ImGuiPayload* payload = ImGui::AcceptDragDropPayload("DND_PLOT")) { int i = *(int*)payload->Data; show[i] = true; yAxis[i] = 0; // set specific y-axis if hovered for (int y = 0; y < 3; y++) { if (ImPlot::IsPlotYAxisHovered(y)) yAxis[i] = y; } } ImGui::EndDragDropTarget(); } ImPlot::EndPlot(); } } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Digital and Analog Signals")) { static bool paused = false; #define K_PLOT_DIGITAL_CH_COUNT 4 #define K_PLOT_ANALOG_CH_COUNT 4 static ScrollingBuffer dataDigital[K_PLOT_DIGITAL_CH_COUNT]; static ScrollingBuffer dataAnalog[K_PLOT_ANALOG_CH_COUNT]; static bool showDigital[K_PLOT_DIGITAL_CH_COUNT]; static bool showAnalog[K_PLOT_ANALOG_CH_COUNT]; ImGui::BulletText("You can plot digital and analog signals on the same plot."); ImGui::BulletText("Digital signals do not respond to Y drag and zoom, so that"); ImGui::Indent(); ImGui::Text("you can drag analog signals over the rising/falling digital edge."); ImGui::Unindent(); ImGui::BeginGroup(); if (ImGui::Button("Clear", ImVec2(100, 0))) { for (int i = 0; i < K_PLOT_DIGITAL_CH_COUNT; ++i) showDigital[i] = false; for (int i = 0; i < K_PLOT_ANALOG_CH_COUNT; ++i) showAnalog[i] = false; } if (ImGui::Button(paused ? "Resume" : "Pause", ImVec2(100,0))) paused = !paused; for (int i = 0; i < K_PLOT_DIGITAL_CH_COUNT; ++i) { char label[32]; sprintf(label, "digital_%d", i); ImGui::Checkbox(label, &showDigital[i]); if (ImGui::BeginDragDropSource(ImGuiDragDropFlags_None)) { ImGui::SetDragDropPayload("DND_DIGITAL_PLOT", &i, sizeof(int)); ImGui::TextUnformatted(label); ImGui::EndDragDropSource(); } } for (int i = 0; i < K_PLOT_ANALOG_CH_COUNT; ++i) { char label[32]; sprintf(label, "analog_%d", i); ImGui::Checkbox(label, &showAnalog[i]); if (ImGui::BeginDragDropSource(ImGuiDragDropFlags_None)) { ImGui::SetDragDropPayload("DND_ANALOG_PLOT", &i, sizeof(int)); ImGui::TextUnformatted(label); ImGui::EndDragDropSource(); } } ImGui::EndGroup(); ImGui::SameLine(); static t_float t = 0; if (!paused) { t += ImGui::GetIO().DeltaTime; //digital signal values int i = 0; if (showDigital[i]) dataDigital[i].AddPoint(t, Sin(2*t) > 0.45); i++; if (showDigital[i]) dataDigital[i].AddPoint(t, Sin(2*t) < 0.45); i++; if (showDigital[i]) dataDigital[i].AddPoint(t, Fmod(t,5.0f)); i++; if (showDigital[i]) dataDigital[i].AddPoint(t, Sin(2*t) < 0.17); //Analog signal values i = 0; if (showAnalog[i]) dataAnalog[i].AddPoint(t, Sin(2*t)); i++; if (showAnalog[i]) dataAnalog[i].AddPoint(t, Cos(2*t)); i++; if (showAnalog[i]) dataAnalog[i].AddPoint(t, Sin(2*t) * Cos(2*t)); i++; if (showAnalog[i]) dataAnalog[i].AddPoint(t, Sin(2*t) - Cos(2*t)); } ImPlot::SetNextPlotLimitsY(-1, 1); ImPlot::SetNextPlotLimitsX(t - 10.0, t, paused ? ImGuiCond_Once : ImGuiCond_Always); if (ImPlot::BeginPlot("##Digital")) { for (int i = 0; i < K_PLOT_DIGITAL_CH_COUNT; ++i) { if (showDigital[i] && dataDigital[i].Data.size() > 0) { char label[32]; sprintf(label, "digital_%d", i); ImPlot::PlotDigital(label, &dataDigital[i].Data[0].x, &dataDigital[i].Data[0].y, dataDigital[i].Data.size(), dataDigital[i].Offset, 2 * sizeof(t_float)); } } for (int i = 0; i < K_PLOT_ANALOG_CH_COUNT; ++i) { if (showAnalog[i]) { char label[32]; sprintf(label, "analog_%d", i); if (dataAnalog[i].Data.size() > 0) ImPlot::PlotLine(label, &dataAnalog[i].Data[0].x, &dataAnalog[i].Data[0].y, dataAnalog[i].Data.size(), dataAnalog[i].Offset, 2 * sizeof(t_float)); } } ImPlot::EndPlot(); } if (ImGui::BeginDragDropTarget()) { const ImGuiPayload* payload = ImGui::AcceptDragDropPayload("DND_DIGITAL_PLOT"); if (payload) { int i = *(int*)payload->Data; showDigital[i] = true; } else { payload = ImGui::AcceptDragDropPayload("DND_ANALOG_PLOT"); if (payload) { int i = *(int*)payload->Data; showAnalog[i] = true; } } ImGui::EndDragDropTarget(); } } if (ImGui::CollapsingHeader("Tables")) { #ifdef IMGUI_HAS_TABLE static ImGuiTableFlags flags = ImGuiTableFlags_BordersOuter | ImGuiTableFlags_BordersV | ImGuiTableFlags_RowBg; static bool anim = true; static int offset = 0; ImGui::BulletText("Plots can be used inside of ImGui tables."); ImGui::Checkbox("Animate",&anim); if (anim) offset = (offset + 1) % 100; if (ImGui::BeginTable("##table", 3, flags, ImVec2(-1,0))) { ImGui::TableSetupColumn("Electrode", ImGuiTableColumnFlags_WidthFixed, 75.0f); ImGui::TableSetupColumn("Voltage", ImGuiTableColumnFlags_WidthFixed, 75.0f); ImGui::TableSetupColumn("EMG Signal"); ImGui::TableAutoHeaders(); ImPlot::PushColormap(ImPlotColormap_Cool); for (int row = 0; row < 10; row++) { ImGui::TableNextRow(); static float data[100]; srand(row); for (int i = 0; i < 100; ++i) data[i] = (float)RandomRange(0,10); ImGui::TableSetColumnIndex(0); ImGui::Text("EMG %d", row); ImGui::TableSetColumnIndex(1); ImGui::Text("%.3f V", data[offset]); ImGui::TableSetColumnIndex(2); ImGui::PushID(row); MyImPlot::Sparkline("##spark",data,100,0,11.0f,offset,ImPlot::GetColormapColor(row),ImVec2(-1, 35)); ImGui::PopID(); } ImPlot::PopColormap(); ImGui::EndTable(); } #else ImGui::BulletText("You need to merge the ImGui 'tables' branch for this section."); #endif } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Offset and Stride")) { static const int k_circles = 11; static const int k_points_per = 50; static const int k_size = 2 * k_points_per * k_circles; static t_float interleaved_data[k_size]; for (int p = 0; p < k_points_per; ++p) { for (int c = 0; c < k_circles; ++c) { t_float r = (t_float)c / (k_circles - 1) * 0.2f + 0.2f; interleaved_data[p*2*k_circles + 2*c + 0] = 0.5f + r * Cos((t_float)p/k_points_per * 6.28f); interleaved_data[p*2*k_circles + 2*c + 1] = 0.5f + r * Sin((t_float)p/k_points_per * 6.28f); } } static int offset = 0; ImGui::BulletText("Offsetting is useful for realtime plots (see above) and circular buffers."); ImGui::BulletText("Striding is useful for interleaved data (e.g. audio) or plotting structs."); ImGui::BulletText("Here, all circle data is stored in a single interleaved buffer:"); ImGui::BulletText("[c0.x0 c0.y0 ... cn.x0 cn.y0 c0.x1 c0.y1 ... cn.x1 cn.y1 ... cn.xm cn.ym]"); ImGui::BulletText("The offset value indicates which circle point index is considered the first."); ImGui::BulletText("Offsets can be negative and/or larger than the actual data count."); ImGui::SliderInt("Offset", &offset, -2*k_points_per, 2*k_points_per); if (ImPlot::BeginPlot("##strideoffset")) { ImPlot::PushColormap(ImPlotColormap_Jet); char buff[16]; for (int c = 0; c < k_circles; ++c) { sprintf(buff, "Circle %d", c); ImPlot::PlotLine(buff, &interleaved_data[c*2 + 0], &interleaved_data[c*2 + 1], k_points_per, offset, 2*k_circles*sizeof(t_float)); } ImPlot::EndPlot(); ImPlot::PopColormap(); } // offset++; uncomment for animation! } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Custom Getters")) { ImGui::BulletText("Most plotters can be passed a function pointer for getting data."); ImGui::BulletText("You can optionally pass user data to be given to your getter."); ImGui::BulletText("C++ lambdas can be passed as function pointers as well."); if (ImPlot::BeginPlot("##Custom Getters")) { ImPlot::PlotLine("Spiral", MyImPlot::Spiral, NULL, 1000); static MyImPlot::WaveData data1(0.001, 0.2, 2, 0.75); static MyImPlot::WaveData data2(0.001, 0.2, 4, 0.25); ImPlot::PlotLine("Waves", MyImPlot::SineWave, &data1, 1000); ImPlot::PlotLine("Waves", MyImPlot::SawWave, &data2, 1000); ImPlot::PushStyleVar(ImPlotStyleVar_FillAlpha, 0.25f); ImPlot::PlotShaded("Waves", MyImPlot::SineWave, &data1, MyImPlot::SawWave, &data2, 1000); ImPlot::PopStyleVar(); // you can also pass C++ lambdas: // auto lamda = [](void* data, int idx) { ... return ImPlotPoint(x,y); }; // ImPlot::PlotLine("My Lambda", lambda, data, 1000); ImPlot::EndPlot(); } } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Custom Ticks")) { static bool custom_ticks = true; static bool custom_labels = true; ImGui::Checkbox("Show Custom Ticks", &custom_ticks); if (custom_ticks) { ImGui::SameLine(); ImGui::Checkbox("Show Custom Labels", &custom_labels); } double pi = 3.14; const char* pi_str[] = {"PI"}; static double yticks[] = {1,3,7,9}; static const char* ylabels[] = {"One","Three","Seven","Nine"}; static double yticks_aux[] = {0.2,0.4,0.6}; static const char* ylabels_aux[] = {"A","B","C","D","E","F"}; if (custom_ticks) { ImPlot::SetNextPlotTicksX(&pi,1,custom_labels ? pi_str : NULL, true); ImPlot::SetNextPlotTicksY(yticks, 4, custom_labels ? ylabels : NULL); ImPlot::SetNextPlotTicksY(yticks_aux, 3, custom_labels ? ylabels_aux : NULL, false, 1); ImPlot::SetNextPlotTicksY(0, 1, 6, custom_labels ? ylabels_aux : NULL, false, 2); } ImPlot::SetNextPlotLimits(2.5,5,0,10); if (ImPlot::BeginPlot("Custom Ticks", NULL, NULL, ImVec2(-1,0), ImPlotFlags_Default | ImPlotFlags_YAxis2 | ImPlotFlags_YAxis3)) { // nothing to see here, just the ticks ImPlot::EndPlot(); } } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Custom Styles")) { ImPlot::PushColormap(ImPlotColormap_Deep); // normally you wouldn't change the entire style each frame ImPlotStyle backup = ImPlot::GetStyle(); MyImPlot::StyleSeaborn(); ImPlot::SetNextPlotLimits(-0.5f, 9.5f, 0, 10); if (ImPlot::BeginPlot("seaborn style", "x-axis", "y-axis")) { t_float lin[10] = {8,8,9,7,8,8,8,9,7,8}; t_float bar[10] = {1,2,5,3,4,1,2,5,3,4}; t_float dot[10] = {7,6,6,7,8,5,6,5,8,7}; ImPlot::PlotBars("Bars", bar, 10, 0.5f); ImPlot::PlotLine("Line", lin, 10); ImPlot::NextColormapColor(); // skip green ImPlot::PlotScatter("Scatter", dot, 10); ImPlot::EndPlot(); } ImPlot::GetStyle() = backup; ImPlot::PopColormap(); } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Custom Rendering")) { if (ImPlot::BeginPlot("##CustomRend")) { ImVec2 cntr = ImPlot::PlotToPixels(ImPlotPoint(0.5f, 0.5f)); ImVec2 rmin = ImPlot::PlotToPixels(ImPlotPoint(0.25f, 0.75f)); ImVec2 rmax = ImPlot::PlotToPixels(ImPlotPoint(0.75f, 0.25f)); ImPlot::PushPlotClipRect(); ImPlot::GetPlotDrawList()->AddCircleFilled(cntr,20,IM_COL32(255,255,0,255),20); ImPlot::GetPlotDrawList()->AddRect(rmin, rmax, IM_COL32(128,0,255,255)); ImPlot::PopPlotClipRect(); ImPlot::EndPlot(); } } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Custom Context Menus")) { ImGui::BulletText("You can implement legend context menus to inject per-item controls and widgets."); ImGui::BulletText("Right click the legend label/icon to edit custom item attributes."); static float frequency = 0.1f; static float amplitude = 0.5f; static ImVec4 color = ImVec4(1,1,0,1); static float alpha = 1.0f; static bool line = false; static float thickness = 1; static bool markers = false; static bool shaded = false; static t_float vals[101]; for (int i = 0; i < 101; ++i) vals[i] = amplitude * Sin(frequency * i); ImPlot::SetNextPlotLimits(0,100,-1,1); if (ImPlot::BeginPlot("Right Click the Legend")) { // rendering logic ImPlot::PushStyleVar(ImPlotStyleVar_FillAlpha, alpha); if (!line) { ImPlot::SetNextFillStyle(color); ImPlot::PlotBars("Right Click Me", vals, 101); } else { if (markers) ImPlot::SetNextMarkerStyle(ImPlotMarker_Circle); ImPlot::SetNextLineStyle(color, thickness); ImPlot::PlotLine("Right Click Me", vals, 101); if (shaded) ImPlot::PlotShaded("Right Click Me",vals,101); } ImPlot::PopStyleVar(); // custom legend context menu if (ImPlot::BeginLegendPopup("Right Click Me")) { ImGui::SliderFloat("Frequency",&frequency,0,1,"%0.2f"); ImGui::SliderFloat("Amplitude",&litude,0,1,"%0.2f"); ImGui::Separator(); ImGui::ColorEdit3("Color",&color.x); ImGui::SliderFloat("Transparency",&alpha,0,1,"%.2f"); ImGui::Checkbox("Line Plot", &line); if (line) { ImGui::SliderFloat("Thickness", &thickness, 0, 5); ImGui::Checkbox("Markers", &markers); ImGui::Checkbox("Shaded",&shaded); } ImPlot::EndLegendPopup(); } ImPlot::EndPlot(); } } //------------------------------------------------------------------------- if (ImGui::CollapsingHeader("Custom Plotters and Tooltips")) { ImGui::BulletText("You can create custom plotters or extend ImPlot using implot_internal.h."); double dates[] = {0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63,64,65,66,67,68,69,70,71,72,73,74,75,76,77,78,79,80,81,82,83,84,85,86,87,88,89,90,91,92,93,94,95,96,97,98,99,100,101,102,103,104,105,106,107,108,109,110,111,112,113,114,115,116,117,118,119,120,121,122,123,124,125,126,127,128,129,130,131,132,133,134,135,136,137,138,139,140,141,142,143,144,145,146,147,148,149,150,151,152,153,154,155,156,157,158,159,160,161,162,163,164,165,166,167,168,169,170,171,172,173,174,175,176,177,178,179,180,181,182,183,184,185,186,187,188,189,190,191,192,193,194,195,196,197,198,199,200,201,202,203,204,205,206,207,208,209,210,211,212,213,214,215,216,217}; double opens[] = {1284.7,1319.9,1318.7,1328,1317.6,1321.6,1314.3,1325,1319.3,1323.1,1324.7,1321.3,1323.5,1322,1281.3,1281.95,1311.1,1315,1314,1313.1,1331.9,1334.2,1341.3,1350.6,1349.8,1346.4,1343.4,1344.9,1335.6,1337.9,1342.5,1337,1338.6,1337,1340.4,1324.65,1324.35,1349.5,1371.3,1367.9,1351.3,1357.8,1356.1,1356,1347.6,1339.1,1320.6,1311.8,1314,1312.4,1312.3,1323.5,1319.1,1327.2,1332.1,1320.3,1323.1,1328,1330.9,1338,1333,1335.3,1345.2,1341.1,1332.5,1314,1314.4,1310.7,1314,1313.1,1315,1313.7,1320,1326.5,1329.2,1314.2,1312.3,1309.5,1297.4,1293.7,1277.9,1295.8,1295.2,1290.3,1294.2,1298,1306.4,1299.8,1302.3,1297,1289.6,1302,1300.7,1303.5,1300.5,1303.2,1306,1318.7,1315,1314.5,1304.1,1294.7,1293.7,1291.2,1290.2,1300.4,1284.2,1284.25,1301.8,1295.9,1296.2,1304.4,1323.1,1340.9,1341,1348,1351.4,1351.4,1343.5,1342.3,1349,1357.6,1357.1,1354.7,1361.4,1375.2,1403.5,1414.7,1433.2,1438,1423.6,1424.4,1418,1399.5,1435.5,1421.25,1434.1,1412.4,1409.8,1412.2,1433.4,1418.4,1429,1428.8,1420.6,1441,1460.4,1441.7,1438.4,1431,1439.3,1427.4,1431.9,1439.5,1443.7,1425.6,1457.5,1451.2,1481.1,1486.7,1512.1,1515.9,1509.2,1522.3,1513,1526.6,1533.9,1523,1506.3,1518.4,1512.4,1508.8,1545.4,1537.3,1551.8,1549.4,1536.9,1535.25,1537.95,1535.2,1556,1561.4,1525.6,1516.4,1507,1493.9,1504.9,1506.5,1513.1,1506.5,1509.7,1502,1506.8,1521.5,1529.8,1539.8,1510.9,1511.8,1501.7,1478,1485.4,1505.6,1511.6,1518.6,1498.7,1510.9,1510.8,1498.3,1492,1497.7,1484.8,1494.2,1495.6,1495.6,1487.5,1491.1,1495.1,1506.4}; double highs[] = {1284.75,1320.6,1327,1330.8,1326.8,1321.6,1326,1328,1325.8,1327.1,1326,1326,1323.5,1322.1,1282.7,1282.95,1315.8,1316.3,1314,1333.2,1334.7,1341.7,1353.2,1354.6,1352.2,1346.4,1345.7,1344.9,1340.7,1344.2,1342.7,1342.1,1345.2,1342,1350,1324.95,1330.75,1369.6,1374.3,1368.4,1359.8,1359,1357,1356,1353.4,1340.6,1322.3,1314.1,1316.1,1312.9,1325.7,1323.5,1326.3,1336,1332.1,1330.1,1330.4,1334.7,1341.1,1344.2,1338.8,1348.4,1345.6,1342.8,1334.7,1322.3,1319.3,1314.7,1316.6,1316.4,1315,1325.4,1328.3,1332.2,1329.2,1316.9,1312.3,1309.5,1299.6,1296.9,1277.9,1299.5,1296.2,1298.4,1302.5,1308.7,1306.4,1305.9,1307,1297.2,1301.7,1305,1305.3,1310.2,1307,1308,1319.8,1321.7,1318.7,1316.2,1305.9,1295.8,1293.8,1293.7,1304.2,1302,1285.15,1286.85,1304,1302,1305.2,1323,1344.1,1345.2,1360.1,1355.3,1363.8,1353,1344.7,1353.6,1358,1373.6,1358.2,1369.6,1377.6,1408.9,1425.5,1435.9,1453.7,1438,1426,1439.1,1418,1435,1452.6,1426.65,1437.5,1421.5,1414.1,1433.3,1441.3,1431.4,1433.9,1432.4,1440.8,1462.3,1467,1443.5,1444,1442.9,1447,1437.6,1440.8,1445.7,1447.8,1458.2,1461.9,1481.8,1486.8,1522.7,1521.3,1521.1,1531.5,1546.1,1534.9,1537.7,1538.6,1523.6,1518.8,1518.4,1514.6,1540.3,1565,1554.5,1556.6,1559.8,1541.9,1542.9,1540.05,1558.9,1566.2,1561.9,1536.2,1523.8,1509.1,1506.2,1532.2,1516.6,1519.7,1515,1519.5,1512.1,1524.5,1534.4,1543.3,1543.3,1542.8,1519.5,1507.2,1493.5,1511.4,1525.8,1522.2,1518.8,1515.3,1518,1522.3,1508,1501.5,1503,1495.5,1501.1,1497.9,1498.7,1492.1,1499.4,1506.9,1520.9}; double lows[] = {1282.85,1315,1318.7,1309.6,1317.6,1312.9,1312.4,1319.1,1319,1321,1318.1,1321.3,1319.9,1312,1280.5,1276.15,1308,1309.9,1308.5,1312.3,1329.3,1333.1,1340.2,1347,1345.9,1338,1340.8,1335,1332,1337.9,1333,1336.8,1333.2,1329.9,1340.4,1323.85,1324.05,1349,1366.3,1351.2,1349.1,1352.4,1350.7,1344.3,1338.9,1316.3,1308.4,1306.9,1309.6,1306.7,1312.3,1315.4,1319,1327.2,1317.2,1320,1323,1328,1323,1327.8,1331.7,1335.3,1336.6,1331.8,1311.4,1310,1309.5,1308,1310.6,1302.8,1306.6,1313.7,1320,1322.8,1311,1312.1,1303.6,1293.9,1293.5,1291,1277.9,1294.1,1286,1289.1,1293.5,1296.9,1298,1299.6,1292.9,1285.1,1288.5,1296.3,1297.2,1298.4,1298.6,1302,1300.3,1312,1310.8,1301.9,1292,1291.1,1286.3,1289.2,1289.9,1297.4,1283.65,1283.25,1292.9,1295.9,1290.8,1304.2,1322.7,1336.1,1341,1343.5,1345.8,1340.3,1335.1,1341.5,1347.6,1352.8,1348.2,1353.7,1356.5,1373.3,1398,1414.7,1427,1416.4,1412.7,1420.1,1396.4,1398.8,1426.6,1412.85,1400.7,1406,1399.8,1404.4,1415.5,1417.2,1421.9,1415,1413.7,1428.1,1434,1435.7,1427.5,1429.4,1423.9,1425.6,1427.5,1434.8,1422.3,1412.1,1442.5,1448.8,1468.2,1484.3,1501.6,1506.2,1498.6,1488.9,1504.5,1518.3,1513.9,1503.3,1503,1506.5,1502.1,1503,1534.8,1535.3,1541.4,1528.6,1525.6,1535.25,1528.15,1528,1542.6,1514.3,1510.7,1505.5,1492.1,1492.9,1496.8,1493.1,1503.4,1500.9,1490.7,1496.3,1505.3,1505.3,1517.9,1507.4,1507.1,1493.3,1470.5,1465,1480.5,1501.7,1501.4,1493.3,1492.1,1505.1,1495.7,1478,1487.1,1480.8,1480.6,1487,1488.3,1484.8,1484,1490.7,1490.4,1503.1}; double closes[] = {1283.35,1315.3,1326.1,1317.4,1321.5,1317.4,1323.5,1319.2,1321.3,1323.3,1319.7,1325.1,1323.6,1313.8,1282.05,1279.05,1314.2,1315.2,1310.8,1329.1,1334.5,1340.2,1340.5,1350,1347.1,1344.3,1344.6,1339.7,1339.4,1343.7,1337,1338.9,1340.1,1338.7,1346.8,1324.25,1329.55,1369.6,1372.5,1352.4,1357.6,1354.2,1353.4,1346,1341,1323.8,1311.9,1309.1,1312.2,1310.7,1324.3,1315.7,1322.4,1333.8,1319.4,1327.1,1325.8,1330.9,1325.8,1331.6,1336.5,1346.7,1339.2,1334.7,1313.3,1316.5,1312.4,1313.4,1313.3,1312.2,1313.7,1319.9,1326.3,1331.9,1311.3,1313.4,1309.4,1295.2,1294.7,1294.1,1277.9,1295.8,1291.2,1297.4,1297.7,1306.8,1299.4,1303.6,1302.2,1289.9,1299.2,1301.8,1303.6,1299.5,1303.2,1305.3,1319.5,1313.6,1315.1,1303.5,1293,1294.6,1290.4,1291.4,1302.7,1301,1284.15,1284.95,1294.3,1297.9,1304.1,1322.6,1339.3,1340.1,1344.9,1354,1357.4,1340.7,1342.7,1348.2,1355.1,1355.9,1354.2,1362.1,1360.1,1408.3,1411.2,1429.5,1430.1,1426.8,1423.4,1425.1,1400.8,1419.8,1432.9,1423.55,1412.1,1412.2,1412.8,1424.9,1419.3,1424.8,1426.1,1423.6,1435.9,1440.8,1439.4,1439.7,1434.5,1436.5,1427.5,1432.2,1433.3,1441.8,1437.8,1432.4,1457.5,1476.5,1484.2,1519.6,1509.5,1508.5,1517.2,1514.1,1527.8,1531.2,1523.6,1511.6,1515.7,1515.7,1508.5,1537.6,1537.2,1551.8,1549.1,1536.9,1529.4,1538.05,1535.15,1555.9,1560.4,1525.5,1515.5,1511.1,1499.2,1503.2,1507.4,1499.5,1511.5,1513.4,1515.8,1506.2,1515.1,1531.5,1540.2,1512.3,1515.2,1506.4,1472.9,1489,1507.9,1513.8,1512.9,1504.4,1503.9,1512.8,1500.9,1488.7,1497.6,1483.5,1494,1498.3,1494.1,1488.1,1487.5,1495.7,1504.7,1505.3}; static bool tooltip = true; ImGui::Checkbox("Show Tooltip", &tooltip); ImGui::SameLine(); static ImVec4 bullCol = ImVec4(0.000f, 1.000f, 0.441f, 1.000f); static ImVec4 bearCol = ImVec4(0.853f, 0.050f, 0.310f, 1.000f); ImGui::SameLine(); ImGui::ColorEdit4("##Bull", &bullCol.x, ImGuiColorEditFlags_NoInputs); ImGui::SameLine(); ImGui::ColorEdit4("##Bear", &bearCol.x, ImGuiColorEditFlags_NoInputs); ImPlot::SetNextPlotLimits(0, 218, 1250, 1600); if (ImPlot::BeginPlot("Candlestick Chart","Day","USD")) { MyImPlot::PlotCandlestick("GOOGL",dates, opens, closes, lows, highs, 218, tooltip, 0.25f, bullCol, bearCol); ImPlot::EndPlot(); } } //------------------------------------------------------------------------- ImGui::End(); } } // namespace ImPlot namespace MyImPlot { ImPlotPoint SineWave(void* data , int idx) { WaveData* wd = (WaveData*)data; double x = idx * wd->X; return ImPlotPoint(x, wd->Offset + wd->Amp * sin(2 * 3.14 * wd->Freq * x)); } ImPlotPoint SawWave(void* data, int idx) { WaveData* wd = (WaveData*)data; double x = idx * wd->X; return ImPlotPoint(x, wd->Offset + wd->Amp * (-2 / 3.14 * atan(cos(3.14 * wd->Freq * x) / sin(3.14 * wd->Freq * x)))); } ImPlotPoint Spiral(void*, int idx) { float r = 0.9f; // outer radius float a = 0; // inner radius float b = 0.05f; // increment per rev float n = (r - a) / b; // number of revolutions double th = 2 * n * 3.14; // angle float Th = float(th * idx / (1000 - 1)); return ImPlotPoint(0.5f+(a + b*Th / (2.0f * (float) 3.14))*Cos(Th), 0.5f + (a + b*Th / (2.0f * (float)3.14))*Sin(Th)); } // Example for Tables section. Generates a quick and simple shaded line plot. See implementation at bottom. void Sparkline(const char* id, const float* values, int count, float min_v, float max_v, int offset, const ImVec4& col, const ImVec2& size) { ImPlot::PushStyleVar(ImPlotStyleVar_PlotPadding, ImVec2(0,0)); ImPlot::SetNextPlotLimits(0, count - 1, min_v, max_v, ImGuiCond_Always); if (ImPlot::BeginPlot(id,0,0,size,ImPlotFlags_NoChild,0,0,0,0)) { ImPlot::PushStyleColor(ImPlotCol_Line, col); ImPlot::PlotLine(id, values, count, offset); ImPlot::PushStyleVar(ImPlotStyleVar_FillAlpha, 0.25f); ImPlot::PlotShaded(id, values, count, 0, offset); ImPlot::PopStyleVar(); ImPlot::PopStyleColor(); ImPlot::EndPlot(); } ImPlot::PopStyleVar(); } void StyleSeaborn() { ImPlotStyle& style = ImPlot::GetStyle(); ImVec4* colors = style.Colors; 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(0.00f, 0.00f, 0.00f, 1.00f); colors[ImPlotCol_FrameBg] = ImVec4(1.00f, 1.00f, 1.00f, 1.00f); colors[ImPlotCol_PlotBg] = ImVec4(0.92f, 0.92f, 0.95f, 1.00f); colors[ImPlotCol_PlotBorder] = ImVec4(0.00f, 0.00f, 0.00f, 0.00f); colors[ImPlotCol_LegendBg] = ImVec4(0.92f, 0.92f, 0.95f, 1.00f); colors[ImPlotCol_LegendBorder] = ImVec4(0.80f, 0.81f, 0.85f, 1.00f); 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(1.00f, 1.00f, 1.00f, 1.00f); colors[ImPlotCol_YAxis3] = ImVec4(0.00f, 0.00f, 0.00f, 1.00f); colors[ImPlotCol_YAxisGrid3] = ImVec4(1.00f, 1.00f, 1.00f, 1.00f); colors[ImPlotCol_Selection] = ImVec4(1.00f, 0.65f, 0.00f, 1.00f); colors[ImPlotCol_Query] = ImVec4(0.23f, 0.10f, 0.64f, 1.00f); colors[ImPlotCol_Crosshairs] = ImVec4(0.23f, 0.10f, 0.64f, 0.50f); style.LineWeight = 1.5; style.Marker = ImPlotMarker_None; style.MarkerSize = 4; style.MarkerWeight = 1; style.FillAlpha = 1.0f; style.ErrorBarSize = 5; style.ErrorBarWeight = 1.5f; style.DigitalBitHeight = 8; style.DigitalBitGap = 4; style.PlotBorderSize = 0; style.MinorAlpha = 1.0f; style.MajorTickLen = ImVec2(0,0); style.MinorTickLen = ImVec2(0,0); style.MajorTickSize = ImVec2(0,0); style.MinorTickSize = ImVec2(0,0); style.MajorGridSize = ImVec2(1.2f,1.2f); style.MinorGridSize = ImVec2(1.2f,1.2f); style.PlotPadding = ImVec2(12,12); style.LabelPadding = ImVec2(5,5); style.LegendPadding = ImVec2(5,5); style.InfoPadding = ImVec2(5,5); style.PlotMinSize = ImVec2(300,225); } } // namespaece MyImPlot // WARNING: // // You can use "implot_internal.h" to build custom plotting fuctions or extend ImPlot. // However, note that forward compatibility of this file is not guaranteed and the // internal API is subject to change. At some point we hope to bring more of this // into the public API and expose the necessary building blocks to fully support // custom plotters. For now, proceed at your own risk! #include namespace MyImPlot { int BinarySearch(const double* arr, int l, int r, double x) { if (r >= l) { int mid = l + (r - l) / 2; if (arr[mid] == x) return mid; if (arr[mid] > x) return BinarySearch(arr, l, mid - 1, x); return BinarySearch(arr, mid + 1, r, x); } return -1; } void PlotCandlestick(const char* label_id, const double* xs, const double* opens, const double* closes, const double* lows, const double* highs, int count, bool tooltip, float width_percent, ImVec4 bullCol, ImVec4 bearCol) { // begin plot item if (ImPlot::BeginItem(label_id)) { // override legend icon color ImPlot::GetCurrentItem()->Color = ImVec4(1,1,1,1); // fit data if requested if (ImPlot::FitThisFrame()) { for (int i = 0; i < count; ++i) { ImPlot::FitPoint(ImPlotPoint(xs[i], lows[i])); ImPlot::FitPoint(ImPlotPoint(xs[i], highs[i])); } } // get ImGui window DrawList ImDrawList* draw_list = ImPlot::GetPlotDrawList(); // calc real value width double half_width = count > 1 ? (xs[1] - xs[0]) * width_percent : width_percent; // render data for (int i = 0; i < count; ++i) { ImVec2 open_pos = ImPlot::PlotToPixels(xs[i] - half_width, opens[i]); ImVec2 close_pos = ImPlot::PlotToPixels(xs[i] + half_width, closes[i]); ImVec2 low_pos = ImPlot::PlotToPixels(xs[i], lows[i]); ImVec2 high_pos = ImPlot::PlotToPixels(xs[i], highs[i]); ImU32 color = ImGui::GetColorU32(opens[i] > closes[i] ? bearCol : bullCol); draw_list->AddLine(low_pos, high_pos, color); draw_list->AddRectFilled(open_pos, close_pos, color); } // custom tool if (ImPlot::IsPlotHovered() && tooltip) { ImPlotPoint mouse = ImPlot::GetPlotMousePos(); mouse.x = round(mouse.x); float tool_l = ImPlot::PlotToPixels(mouse.x - half_width * 1.5, mouse.y).x; float tool_r = ImPlot::PlotToPixels(mouse.x + half_width * 1.5, mouse.y).x; float tool_t = ImPlot::GetPlotPos().y; float tool_b = tool_t + ImPlot::GetPlotSize().y; draw_list->AddRectFilled(ImVec2(tool_l, tool_t), ImVec2(tool_r, tool_b), IM_COL32(0,255,255,64)); // find mouse location index int idx = BinarySearch(xs, 0, count - 1, mouse.x); // render tool tip (won't be affected by plot clip rect) if (idx != -1) { ImGui::BeginTooltip(); ImGui::Text("Day: %.0f", xs[idx]); ImGui::Text("Open: $%.2f", opens[idx]); ImGui::Text("Close: $%.2f", closes[idx]); ImGui::Text("Low: $%.2f", lows[idx]); ImGui::Text("High: $%.2f", highs[idx]); ImGui::EndTooltip(); } } // end plot item ImPlot::EndItem(); } } } // namespace MyImplot namespace ImPlot { struct BenchmarkItem { BenchmarkItem() { float y = RandomRange(0,1); Data = new float[1000]; for (int i = 0; i < 1000; ++i) { Data[i] = y + RandomRange(-0.01f,0.01f); } Col = ImVec4((float)RandomRange(0,1),(float)RandomRange(0,1),(float)RandomRange(0,1),1); } ~BenchmarkItem() { delete[] Data; } float* Data; ImVec4 Col; }; void ShowBenchmarkTool() { static const int max_lines = 500; static BenchmarkItem items[max_lines]; static bool running = false; static int frames = 60; static int L = 0; static int F = 0; static double t1, t2; static ImVector> records; if (running) { F++; if (F == frames) { t2 = ImGui::GetTime(); records.back().push_back(ImPlotPoint(L, frames / (t2 - t1))); L += 5; F = 0; t1 = ImGui::GetTime(); } if (L > max_lines) { running = false; L = max_lines; } } ImGui::Text("ImDrawIdx: %d-bit", (int)(sizeof(ImDrawIdx) * 8)); ImGui::Text("ImGuiBackendFlags_RendererHasVtxOffset: %s", (ImGui::GetIO().BackendFlags & ImGuiBackendFlags_RendererHasVtxOffset) ? "True" : "False"); ImGui::Text("%.2f FPS", ImGui::GetIO().Framerate); ImGui::Separator(); bool was_running = running; if (was_running) { ImGui::PushItemFlag(ImGuiItemFlags_Disabled, true); ImGui::PushStyleVar(ImGuiStyleVar_Alpha, ImGui::GetStyle().Alpha * 0.25f); } if (ImGui::Button("Benchmark")) { running = true; L = F = 0; records.push_back(ImVector()); records.back().reserve(max_lines + 1); t1 = ImGui::GetTime(); } ImGui::SameLine(); ImGui::Checkbox("Anti-Aliased Lines", &ImPlot::GetStyle().AntiAliasedLines); if (was_running) { ImGui::PopItemFlag(); ImGui::PopStyleVar(); } ImGui::ProgressBar((float)L / (float)(max_lines - 1)); ImPlot::SetNextPlotLimits(0,1000,0,1,ImGuiCond_Always); if (ImPlot::BeginPlot("##Bench",NULL,NULL,ImVec2(-1,0),ImPlotFlags_NoChild,0,0,0,0)) { if (running) { for (int i = 0; i < L; ++i) { ImGui::PushID(i); ImPlot::SetNextLineStyle(items[i].Col); ImPlot::PlotLine("##item", items[i].Data, 1000); ImGui::PopID(); } } ImPlot::EndPlot(); } ImPlot::SetNextPlotLimits(0,500,0,500,ImGuiCond_Always); static char buffer[8]; if (ImPlot::BeginPlot("##Stats", "Lines (1,000 pts each)", "Framerate (Hz)", ImVec2(-1,0), ImPlotFlags_Default | ImPlotFlags_NoChild)) { for (int run = 0; run < records.size(); ++run) { sprintf(buffer, "Run %d", run + 1); ImPlot::PlotLine(buffer, records[run].Data, records[run].Size); } ImPlot::EndPlot(); } } }