ENABLE_PREVIEW_LAYER_TIME -> Linear and logarithmic layer time visualization
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enricoturri1966
parent
17f665f8d6
commit
f30fffa0bc
@ -179,11 +179,38 @@ void GCodeViewer::TBuffer::add_path(const GCodeProcessor::MoveVertex& move, unsi
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move.volumetric_rate(), move.extruder_id, move.cp_color_id, { { endpoint, endpoint } } });
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}
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#if ENABLE_PREVIEW_LAYER_TIME
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float GCodeViewer::Extrusions::Range::step_size(EType type) const
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{
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switch (type)
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{
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default:
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case EType::Linear: { return (max > min) ? (max - min) / (static_cast<float>(Range_Colors.size()) - 1.0f) : 0.0f; }
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case EType::Logarithmic: { return (max > min && min > 0.0f) ? ::log(max / min) / (static_cast<float>(Range_Colors.size()) - 1.0f) : 0.0f; }
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}
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}
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GCodeViewer::Color GCodeViewer::Extrusions::Range::get_color_at(float value, EType type) const
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#else
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GCodeViewer::Color GCodeViewer::Extrusions::Range::get_color_at(float value) const
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#endif // ENABLE_PREVIEW_LAYER_TIME
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{
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// Input value scaled to the colors range
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#if ENABLE_PREVIEW_LAYER_TIME
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float global_t = 0.0f;
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const float step = step_size(type);
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if (step > 0.0f) {
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switch (type)
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{
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default:
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case EType::Linear: { global_t = (value > min) ? (value - min) / step : 0.0f; break; }
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case EType::Logarithmic: { global_t = (value > min && min > 0.0f) ? ::log(value / min) / step : 0.0f; break; }
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}
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}
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#else
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const float step = step_size();
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const float global_t = (step != 0.0f) ? std::max(0.0f, value - min) / step : 0.0f; // lower limit of 0.0f
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#endif // ENABLE_PREVIEW_LAYER_TIME
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const size_t color_max_idx = Range_Colors.size() - 1;
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@ -2196,7 +2223,8 @@ void GCodeViewer::refresh_render_paths(bool keep_sequential_current_first, bool
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case EViewType::FanSpeed: { color = m_extrusions.ranges.fan_speed.get_color_at(path.fan_speed); break; }
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case EViewType::Temperature: { color = m_extrusions.ranges.temperature.get_color_at(path.temperature); break; }
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#if ENABLE_PREVIEW_LAYER_TIME
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case EViewType::LayerTime: {
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case EViewType::LayerTimeLinear:
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case EViewType::LayerTimeLogarithmic: {
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const Path::Sub_Path& sub_path = path.sub_paths.front();
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double z = static_cast<double>(sub_path.first.position.z());
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const std::vector<double>& zs = m_layers.get_zs();
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@ -2205,7 +2233,8 @@ void GCodeViewer::refresh_render_paths(bool keep_sequential_current_first, bool
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for (size_t i = 0; i < zs.size(); ++i) {
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if (std::abs(zs[i] - z) < EPSILON) {
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if (ranges[i].contains(sub_path.first.s_id)) {
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color = m_extrusions.ranges.layer_time[time_mode_id].get_color_at(m_layers_times[time_mode_id][i]);
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color = m_extrusions.ranges.layer_time[time_mode_id].get_color_at(m_layers_times[time_mode_id][i],
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(m_view_type == EViewType::LayerTimeLinear) ? Extrusions::Range::EType::Linear : Extrusions::Range::EType::Logarithmic);
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break;
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}
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}
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@ -3073,7 +3102,8 @@ void GCodeViewer::render_legend(float& legend_height)
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const PrintEstimatedStatistics::Mode& time_mode = m_print_statistics.modes[static_cast<size_t>(m_time_estimate_mode)];
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#if ENABLE_PREVIEW_LAYER_TIME
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bool show_estimated_time = time_mode.time > 0.0f && (m_view_type == EViewType::FeatureType || m_view_type == EViewType::LayerTime ||
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bool show_estimated_time = time_mode.time > 0.0f && (m_view_type == EViewType::FeatureType ||
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m_view_type == EViewType::LayerTimeLinear || m_view_type == EViewType::LayerTimeLogarithmic ||
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(m_view_type == EViewType::ColorPrint && !time_mode.custom_gcode_times.empty()));
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#else
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bool show_estimated_time = time_mode.time > 0.0f && (m_view_type == EViewType::FeatureType ||
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@ -3216,7 +3246,7 @@ void GCodeViewer::render_legend(float& legend_height)
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};
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#if ENABLE_PREVIEW_LAYER_TIME
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auto append_time_range = [append_item](const Extrusions::Range& range) {
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auto append_time_range = [append_item](const Extrusions::Range& range, Extrusions::Range::EType type) {
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auto append_range_item = [append_item](int i, float value) {
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std::string str_value = get_time_dhms(value);
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if (str_value == "0s")
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@ -3233,9 +3263,16 @@ void GCodeViewer::render_legend(float& legend_height)
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append_range_item(0, range.min);
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}
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else {
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const float step_size = range.step_size();
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float step_size = range.step_size(type);
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for (int i = static_cast<int>(Range_Colors.size()) - 1; i >= 0; --i) {
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append_range_item(i, range.min + static_cast<float>(i) * step_size);
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float value = 0.0f;
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switch (type)
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{
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default:
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case Extrusions::Range::EType::Linear: { value = range.min + static_cast<float>(i) * step_size; break; }
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case Extrusions::Range::EType::Logarithmic: { value = ::exp(::log(range.min) + static_cast<float>(i) * step_size); break; }
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}
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append_range_item(i, value);
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}
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}
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};
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@ -3416,20 +3453,21 @@ void GCodeViewer::render_legend(float& legend_height)
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append_headers({ _u8L("Feature type"), _u8L("Time"), _u8L("Percentage"), _u8L("Used filament") }, offsets);
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break;
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}
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case EViewType::Height: { imgui.title(_u8L("Height (mm)")); break; }
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case EViewType::Width: { imgui.title(_u8L("Width (mm)")); break; }
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case EViewType::Feedrate: { imgui.title(_u8L("Speed (mm/s)")); break; }
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case EViewType::FanSpeed: { imgui.title(_u8L("Fan Speed (%)")); break; }
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case EViewType::Temperature: { imgui.title(_u8L("Temperature (°C)")); break; }
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case EViewType::VolumetricRate: { imgui.title(_u8L("Volumetric flow rate (mm³/s)")); break; }
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case EViewType::Height: { imgui.title(_u8L("Height (mm)")); break; }
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case EViewType::Width: { imgui.title(_u8L("Width (mm)")); break; }
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case EViewType::Feedrate: { imgui.title(_u8L("Speed (mm/s)")); break; }
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case EViewType::FanSpeed: { imgui.title(_u8L("Fan Speed (%)")); break; }
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case EViewType::Temperature: { imgui.title(_u8L("Temperature (°C)")); break; }
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case EViewType::VolumetricRate: { imgui.title(_u8L("Volumetric flow rate (mm³/s)")); break; }
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#if ENABLE_PREVIEW_LAYER_TIME
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case EViewType::LayerTime: { imgui.title(_u8L("Layer time")); break; }
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case EViewType::LayerTimeLinear: { imgui.title(_u8L("Layer time (linear)")); break; }
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case EViewType::LayerTimeLogarithmic: { imgui.title(_u8L("Layer time (logarithmic)")); break; }
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#endif // ENABLE_PREVIEW_LAYER_TIME
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case EViewType::Tool: {
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case EViewType::Tool: {
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append_headers({ _u8L("Tool"), _u8L("Used filament") }, offsets);
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break;
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}
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case EViewType::ColorPrint: { imgui.title(_u8L("Color Print")); break; }
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case EViewType::ColorPrint: { imgui.title(_u8L("Color Print")); break; }
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default: { break; }
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}
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@ -3456,16 +3494,17 @@ void GCodeViewer::render_legend(float& legend_height)
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}
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break;
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}
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case EViewType::Height: { append_range(m_extrusions.ranges.height, 3); break; }
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case EViewType::Width: { append_range(m_extrusions.ranges.width, 3); break; }
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case EViewType::Feedrate: { append_range(m_extrusions.ranges.feedrate, 1); break; }
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case EViewType::FanSpeed: { append_range(m_extrusions.ranges.fan_speed, 0); break; }
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case EViewType::Temperature: { append_range(m_extrusions.ranges.temperature, 0); break; }
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case EViewType::VolumetricRate: { append_range(m_extrusions.ranges.volumetric_rate, 3); break; }
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case EViewType::Height: { append_range(m_extrusions.ranges.height, 3); break; }
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case EViewType::Width: { append_range(m_extrusions.ranges.width, 3); break; }
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case EViewType::Feedrate: { append_range(m_extrusions.ranges.feedrate, 1); break; }
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case EViewType::FanSpeed: { append_range(m_extrusions.ranges.fan_speed, 0); break; }
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case EViewType::Temperature: { append_range(m_extrusions.ranges.temperature, 0); break; }
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case EViewType::VolumetricRate: { append_range(m_extrusions.ranges.volumetric_rate, 3); break; }
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#if ENABLE_PREVIEW_LAYER_TIME
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case EViewType::LayerTime: { append_time_range(m_extrusions.ranges.layer_time[static_cast<size_t>(m_time_estimate_mode)]); break; }
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case EViewType::LayerTimeLinear: { append_time_range(m_extrusions.ranges.layer_time[static_cast<size_t>(m_time_estimate_mode)], Extrusions::Range::EType::Linear); break; }
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case EViewType::LayerTimeLogarithmic: { append_time_range(m_extrusions.ranges.layer_time[static_cast<size_t>(m_time_estimate_mode)], Extrusions::Range::EType::Logarithmic); break; }
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#endif // ENABLE_PREVIEW_LAYER_TIME
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case EViewType::Tool: {
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case EViewType::Tool: {
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// shows only extruders actually used
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size_t i = 0;
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for (unsigned char extruder_id : m_extruder_ids) {
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@ -3475,7 +3514,7 @@ void GCodeViewer::render_legend(float& legend_height)
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}
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break;
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}
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case EViewType::ColorPrint: {
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case EViewType::ColorPrint: {
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#if ENABLE_FIX_IMPORTING_COLOR_PRINT_VIEW_INTO_GCODEVIEWER
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const std::vector<CustomGCode::Item>& custom_gcode_per_print_z = wxGetApp().is_editor() ? wxGetApp().plater()->model().custom_gcode_per_print_z.gcodes : m_custom_gcode_per_print_z;
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#else
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@ -3924,7 +3963,7 @@ void GCodeViewer::render_legend(float& legend_height)
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if (imgui.button(label)) {
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m_time_estimate_mode = mode;
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#if ENABLE_PREVIEW_LAYER_TIME
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if (m_view_type == EViewType::LayerTime)
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if (m_view_type == EViewType::LayerTimeLinear || m_view_type == EViewType::LayerTimeLogarithmic)
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refresh_render_paths();
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#endif // ENABLE_PREVIEW_LAYER_TIME
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wxGetApp().plater()->get_current_canvas3D()->set_as_dirty();
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@ -429,6 +429,14 @@ class GCodeViewer
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{
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struct Range
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{
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#if ENABLE_PREVIEW_LAYER_TIME
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enum class EType : unsigned char
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{
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Linear,
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Logarithmic
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};
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#endif // ENABLE_PREVIEW_LAYER_TIME
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float min;
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float max;
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unsigned int count;
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@ -443,8 +451,13 @@ class GCodeViewer
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}
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void reset() { min = FLT_MAX; max = -FLT_MAX; count = 0; }
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#if ENABLE_PREVIEW_LAYER_TIME
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float step_size(EType type = EType::Linear) const;
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Color get_color_at(float value, EType type = EType::Linear) const;
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#else
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float step_size() const { return (max - min) / (static_cast<float>(Range_Colors.size()) - 1.0f); }
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Color get_color_at(float value) const;
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#endif // ENABLE_PREVIEW_LAYER_TIME
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};
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struct Ranges
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@ -756,7 +769,8 @@ public:
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Temperature,
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VolumetricRate,
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#if ENABLE_PREVIEW_LAYER_TIME
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LayerTime,
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LayerTimeLinear,
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LayerTimeLogarithmic,
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#endif // ENABLE_PREVIEW_LAYER_TIME
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Tool,
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ColorPrint,
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@ -226,7 +226,8 @@ bool Preview::init(wxWindow* parent, Model* model)
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m_choice_view_type->Append(_L("Temperature"));
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m_choice_view_type->Append(_L("Volumetric flow rate"));
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#if ENABLE_PREVIEW_LAYER_TIME
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m_choice_view_type->Append(_L("Layer time"));
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m_choice_view_type->Append(_L("Layer time (linear)"));
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m_choice_view_type->Append(_L("Layer time (logarithmic)"));
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#endif // ENABLE_PREVIEW_LAYER_TIME
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m_choice_view_type->Append(_L("Tool"));
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m_choice_view_type->Append(_L("Color Print"));
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