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Standardize strings (#12665)

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* Standardize view actions

* Standardize the term for "first layer"

---------

Co-authored-by: SoftFever <softfeverever@gmail.com>
This commit is contained in:
Alexandre Folle de Menezes
2026-03-09 09:36:36 -03:00
committed by GitHub
parent 3842511068
commit d7ea6daae2
28 changed files with 811 additions and 769 deletions
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84
src/libslic3r/PrintConfig.cpp
View File

@@ -673,7 +673,7 @@ void PrintConfigDef::init_common_params()
def = this->add("elefant_foot_compensation", coFloat);
def->label = L("Elephant foot compensation");
def->category = L("Quality");
def->tooltip = L("Shrinks the initial layer on build plate to compensate for elephant foot effect.");
def->tooltip = L("Shrinks the first layer on build plate to compensate for elephant foot effect.");
def->sidetext = L("mm"); // milimeters, CIS languages need translation
def->min = 0;
def->mode = comAdvanced;
@@ -926,9 +926,9 @@ void PrintConfigDef::init_fff_params()
def->set_default_value(new ConfigOptionInts{45});
def = this->add("supertack_plate_temp_initial_layer", coInts);
def->label = L("Initial layer");
def->full_label = L("Initial layer bed temperature");
def->tooltip = L("Bed temperature of the initial layer. "
def->label = L("First layer");
def->full_label = L("First layer bed temperature");
def->tooltip = L("Bed temperature of the first layer. "
"A value of 0 means the filament does not support printing on the Cool Plate SuperTack.");
def->sidetext = L(u8"\u2103" /* °C */); // degrees Celsius, CIS languages need translation
def->min = 0;
@@ -936,9 +936,9 @@ void PrintConfigDef::init_fff_params()
def->set_default_value(new ConfigOptionInts{ 35 });
def = this->add("cool_plate_temp_initial_layer", coInts);
def->label = L("Initial layer");
def->full_label = L("Initial layer bed temperature");
def->tooltip = L("Bed temperature of the initial layer. "
def->label = L("First layer");
def->full_label = L("First layer bed temperature");
def->tooltip = L("Bed temperature of the first layer. "
"A value of 0 means the filament does not support printing on the Cool Plate.");
def->sidetext = L(u8"\u2103" /* °C */); // degrees Celsius, CIS languages need translation
def->min = 0;
@@ -946,9 +946,9 @@ void PrintConfigDef::init_fff_params()
def->set_default_value(new ConfigOptionInts{ 35 });
def = this->add("textured_cool_plate_temp_initial_layer", coInts);
def->label = L("Initial layer");
def->full_label = L("Initial layer bed temperature");
def->tooltip = L("Bed temperature of the initial layer. "
def->label = L("First layer");
def->full_label = L("First layer bed temperature");
def->tooltip = L("Bed temperature of the first layer. "
"A value of 0 means the filament does not support printing on the Textured Cool Plate.");
def->sidetext = L(u8"\u2103" /* °C */); // degrees Celsius, CIS languages need translation
def->min = 0;
@@ -956,9 +956,9 @@ void PrintConfigDef::init_fff_params()
def->set_default_value(new ConfigOptionInts{ 40 });
def = this->add("eng_plate_temp_initial_layer", coInts);
def->label = L("Initial layer");
def->full_label = L("Initial layer bed temperature");
def->tooltip = L("Bed temperature of the initial layer. "
def->label = L("First layer");
def->full_label = L("First layer bed temperature");
def->tooltip = L("Bed temperature of the first layer. "
"A value of 0 means the filament does not support printing on the Engineering Plate.");
def->sidetext = L(u8"\u2103" /* °C */); // degrees Celsius, CIS languages need translation
def->min = 0;
@@ -966,18 +966,18 @@ void PrintConfigDef::init_fff_params()
def->set_default_value(new ConfigOptionInts{ 45 });
def = this->add("hot_plate_temp_initial_layer", coInts);
def->label = L("Initial layer");
def->full_label = L("Initial layer bed temperature");
def->tooltip = L("Bed temperature of the initial layer. "
def->label = L("First layer");
def->full_label = L("First layer bed temperature");
def->tooltip = L("Bed temperature of the first layer. "
"A value of 0 means the filament does not support printing on the High Temp Plate.");
def->sidetext = L(u8"\u2103" /* °C */); // degrees Celsius, CIS languages need translation
def->max = 300;
def->set_default_value(new ConfigOptionInts{ 45 });
def = this->add("textured_plate_temp_initial_layer", coInts);
def->label = L("Initial layer");
def->full_label = L("Initial layer bed temperature");
def->tooltip = L("Bed temperature of the initial layer. "
def->label = L("First layer");
def->full_label = L("First layer bed temperature");
def->tooltip = L("Bed temperature of the first layer. "
"A value of 0 means the filament does not support printing on the Textured PEI Plate.");
def->sidetext = L(u8"\u2103" /* °C */); // degrees Celsius, CIS languages need translation
def->min = 0;
@@ -3013,9 +3013,9 @@ void PrintConfigDef::init_fff_params()
def->set_default_value(new ConfigOptionFloatOrPercent(100, true));
def = this->add("initial_layer_acceleration", coFloat);
def->label = L("Initial layer");
def->label = L("First layer");
def->category = L("Speed");
def->tooltip = L("Acceleration of initial layer. Using a lower value can improve build plate adhesion.");
def->tooltip = L("Acceleration of the first layer. Using a lower value can improve build plate adhesion.");
def->sidetext = L(u8"mm/s²"); // milimeters per second per second, CIS languages need translation
def->min = 0;
def->mode = comAdvanced;
@@ -3094,9 +3094,9 @@ void PrintConfigDef::init_fff_params()
def->set_default_value(new ConfigOptionFloat(9));
def = this->add("initial_layer_jerk", coFloat);
def->label = L("Initial layer");
def->label = L("First layer");
def->category = L("Speed");
def->tooltip = L("Jerk for initial layer.");
def->tooltip = L("Jerk for the first layer.");
def->sidetext = L("mm/s"); // milimeters per second, CIS languages need translation
def->min = 0;
def->mode = comAdvanced;
@@ -3112,9 +3112,9 @@ void PrintConfigDef::init_fff_params()
def->set_default_value(new ConfigOptionFloat(12));
def = this->add("initial_layer_line_width", coFloatOrPercent);
def->label = L("Initial layer");
def->label = L("First layer");
def->category = L("Quality");
def->tooltip = L("Line width of initial layer. If expressed as a %, it will be computed over the nozzle diameter.");
def->tooltip = L("Line width of the first layer. If expressed as a %, it will be computed over the nozzle diameter.");
def->sidetext = L("mm or %");
def->ratio_over = "nozzle_diameter";
def->min = 0;
@@ -3125,9 +3125,9 @@ void PrintConfigDef::init_fff_params()
def = this->add("initial_layer_print_height", coFloat);
def->label = L("Initial layer height");
def->label = L("First layer height");
def->category = L("Quality");
def->tooltip = L("Height of initial layer. Making initial layer height to be thick slightly can improve build plate adhesion.");
def->tooltip = L("Height of the first layer. Making the first layer height thicker can improve build plate adhesion.");
def->sidetext = L("mm"); // milimeters, CIS languages need translation
def->min = 0;
def->set_default_value(new ConfigOptionFloat(0.2));
@@ -3141,24 +3141,24 @@ void PrintConfigDef::init_fff_params()
//def->set_default_value(new ConfigOptionBool(0));
def = this->add("initial_layer_speed", coFloat);
def->label = L("Initial layer");
def->tooltip = L("Speed of initial layer except the solid infill part.");
def->label = L("First layer");
def->tooltip = L("Speed of the first layer except the solid infill part.");
def->sidetext = L("mm/s"); // milimeters per second, CIS languages need translation
def->min = 1;
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionFloat(30));
def = this->add("initial_layer_infill_speed", coFloat);
def->label = L("Initial layer infill");
def->tooltip = L("Speed of solid infill part of initial layer.");
def->label = L("First layer infill");
def->tooltip = L("Speed of solid infill part of the first layer.");
def->sidetext = L("mm/s"); // milimeters per second, CIS languages need translation
def->min = 1;
def->mode = comAdvanced;
def->set_default_value(new ConfigOptionFloat(60.0));
def = this->add("initial_layer_travel_speed", coFloatOrPercent);
def->label = L("Initial layer travel speed");
def->tooltip = L("Travel speed of initial layer.");
def->label = L("First layer travel speed");
def->tooltip = L("Travel speed of the first layer.");
def->category = L("Speed");
def->sidetext = L("mm/s or %");
def->ratio_over = "travel_speed";
@@ -3177,9 +3177,9 @@ void PrintConfigDef::init_fff_params()
def->set_default_value(new ConfigOptionInt(0));
def = this->add("nozzle_temperature_initial_layer", coInts);
def->label = L("Initial layer");
def->full_label = L("Initial layer nozzle temperature");
def->tooltip = L("Nozzle temperature for printing initial layer when using this filament.");
def->label = L("First layer");
def->full_label = L("First layer nozzle temperature");
def->tooltip = L("Nozzle temperature for printing the first layer when using this filament.");
def->sidetext = L(u8"\u2103" /* °C */); // degrees Celsius, CIS languages need translation
def->min = 0;
def->max = max_temp;
@@ -4673,7 +4673,7 @@ void PrintConfigDef::init_fff_params()
def->set_default_value(new ConfigOptionFloat(1.5));
def = this->add("raft_first_layer_density", coPercent);
def->label = L("Initial layer density");
def->label = L("First layer density");
def->category = L("Support");
def->tooltip = L("Density of the first raft or support layer.");
def->sidetext = "%";
@@ -4683,7 +4683,7 @@ void PrintConfigDef::init_fff_params()
def->set_default_value(new ConfigOptionPercent(90));
def = this->add("raft_first_layer_expansion", coFloat);
def->label = L("Initial layer expansion");
def->label = L("First layer expansion");
def->category = L("Support");
def->tooltip = L("Expand the first raft or support layer to improve bed plate adhesion.");
def->sidetext = L("mm"); // milimeters, CIS languages need translation
@@ -10519,11 +10519,11 @@ DimensionsConfigDef::DimensionsConfigDef()
"'[x, y]' (x and y are floating-point numbers in mm).");
def = this->add("first_layer_print_min", coFloats);
def->label = L("Bottom-left corner of first layer bounding box");
def->label = L("Bottom-left corner of the first layer bounding box");
def->tooltip = point_tooltip;
def = this->add("first_layer_print_max", coFloats);
def->label = L("Top-right corner of first layer bounding box");
def->label = L("Top-right corner of the first layer bounding box");
def->tooltip = point_tooltip;
def = this->add("first_layer_print_size", coFloats);
@@ -10551,8 +10551,8 @@ TemperaturesConfigDef::TemperaturesConfigDef()
ConfigOptionDef* def;
new_def("bed_temperature", coInts, "Bed temperature", "Vector of bed temperatures for each extruder/filament.")
new_def("bed_temperature_initial_layer", coInts, "Initial layer bed temperature", "Vector of initial layer bed temperatures for each extruder/filament. Provides the same value as first_layer_bed_temperature.")
new_def("bed_temperature_initial_layer_single", coInt, "Initial layer bed temperature (initial extruder)", "Initial layer bed temperature for the initial extruder. Same as bed_temperature_initial_layer[initial_extruder]")
new_def("bed_temperature_initial_layer", coInts, "First layer bed temperature", "Vector of first layer bed temperatures for each extruder/filament. Provides the same value as first_layer_bed_temperature.")
new_def("bed_temperature_initial_layer_single", coInt, "First layer bed temperature (initial extruder)", "First layer bed temperature for the initial extruder. Same as bed_temperature_initial_layer[initial_extruder]")
new_def("chamber_temperature", coInts, "Chamber temperature", "Vector of chamber temperatures for each extruder/filament.")
new_def("overall_chamber_temperature", coInt, "Overall chamber temperature", "Overall chamber temperature. This value is the maximum chamber temperature of any extruder/filament used.")
new_def("first_layer_bed_temperature", coInts, "First layer bed temperature", "Vector of first layer bed temperatures for each extruder/filament. Provides the same value as bed_temperature_initial_layer.")