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12
localization/i18n/OrcaSlicer.pot
View file

@ -11517,7 +11517,7 @@ msgid ""
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -11527,13 +11527,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows for "
"just enough smoothing to assist pressure advance achieve a smoother flow "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -12952,7 +12952,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"

19
localization/i18n/ca/OrcaSlicer_ca.po
View file

@ -13264,7 +13264,7 @@ msgid ""
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -13274,13 +13274,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows for "
"just enough smoothing to assist pressure advance achieve a smoother flow "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -13303,13 +13303,13 @@ msgstr ""
"això, pot proporcionar algun benefici marginal en certs casos en què les "
"velocitats de les característiques varien molt. Per exemple, quan hi ha "
"desacceleracions agressives a causa dels voladissos. En aquests casos es "
"recomana un valor elevat d'uns 300-350mm3/s2, ja que això permet un "
"recomana un valor elevat d'uns 300-350 mm³/s², ja que això permet un "
"suavitzat suficient per ajudar a avançar la pressió a aconseguir una "
"transició de flux més suau.\n"
"\n"
"Per a impressores més lentes sense Avanç de Pressió, el valor s'ha "
"d'establir molt més baix. Un valor de 10-15mm3/s2 és un bon punt de partida "
"per als extrusors d'extrusió directa i 5-10mm3/s2 per al tipus Bowden.\n"
"d'establir molt més baix. Un valor de 10-15 mm³/s² és un bon punt de partida "
"per als extrusors d'extrusió directa i 5-10 mm³/s² per al tipus Bowden.\n"
"\n"
"Aquesta característica es coneix com a Equalitzador de Pressió a Prusa "
"slicer.\n"
@ -15126,6 +15126,7 @@ msgstr ""
msgid "Maximum wipe tower print speed"
msgstr "Velocitat màxima d'impressió de la torre de purga"
#, fuzzy
msgid ""
"The maximum print speed when purging in the wipe tower and printing the wipe "
"tower sparse layers. When purging, if the sparse infill speed or calculated "
@ -15140,7 +15141,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"

18
localization/i18n/cs/OrcaSlicer_cs.po
View file

@ -12375,7 +12375,7 @@ msgid ""
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -12385,13 +12385,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows for "
"just enough smoothing to assist pressure advance achieve a smoother flow "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -12411,13 +12411,13 @@ msgstr ""
"lab nebo Voron) tato hodnota obvykle není potřebná. Nicméně v některých "
"případech, kde se rychlosti funkcí výrazně liší, může poskytnout marginální "
"přínos. Například při agresivních zpomaleních způsobených přesahy. V těchto "
"případech se doporučuje vysoká hodnota kolem 300-350 mm3/s2, protože to "
"případech se doporučuje vysoká hodnota kolem 300-350 mm³/s², protože to "
"umožňuje dostatečné vyhlazení pro pomoc při dosažení plynulejšího přechodu "
"tlaku při extruzi.\n"
"\n"
"Pro pomalejší tiskárny bez tlakového předstihu by měla být hodnota nastavena "
"mnohem nižší. Pro přímé pohony je hodnota 10-15 mm3/s2 dobrým výchozím "
"bodem, a pro styl Bowden 5-10 mm3/s2.\n"
"mnohem nižší. Pro přímé pohony je hodnota 10-15 mm³/s² dobrým výchozím "
"bodem, a pro styl Bowden 5-10 mm³/s².\n"
"\n"
"Tato funkce je známa jako Pressure Equalizer v programu Prusa Slicer.\n"
"\n"
@ -14031,7 +14031,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"

16
localization/i18n/de/OrcaSlicer_de.po
View file

@ -13372,7 +13372,7 @@ msgid ""
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -13382,13 +13382,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows for "
"just enough smoothing to assist pressure advance achieve a smoother flow "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -13411,7 +13411,7 @@ msgstr ""
"erforderlich. Er kann jedoch in bestimmten Fällen einen geringfügigen "
"Vorteil bieten, in denen sich die Funktionen stark unterscheiden. Zum "
"Beispiel, wenn es aggressive Verlangsamungen aufgrund von Überhängen gibt. "
"In diesen Fällen wird ein hoher Wert von ca. 300-350mm3/s2 empfohlen, da "
"In diesen Fällen wird ein hoher Wert von ca. 300-350 mm³/s² empfohlen, da "
msgid "mm³/s²"
msgstr ""
@ -15244,7 +15244,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"
@ -19600,7 +19600,7 @@ msgstr ""
#~ "is lower, the lowest speed will be used instead.\n"
#~ "Increasing this speed may affect the tower's stability, as purging can be "
#~ "performed over sparse layers. Before increasing this parameter beyond the "
#~ "default of 90mm/sec, make sure your printer can reliably bridge at the "
#~ "default of 90 mm/s, make sure your printer can reliably bridge at the "
#~ "increased speeds."
#~ msgstr ""
#~ "Die maximale Druckgeschwindigkeit beim Reinigen im Reinigungsturm. Wenn "

10
localization/i18n/en/OrcaSlicer_en.po
View file

@ -11851,7 +11851,7 @@ msgid ""
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -11861,13 +11861,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -13356,7 +13356,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"

22
localization/i18n/es/OrcaSlicer_es.po
View file

@ -13141,7 +13141,7 @@ msgid ""
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -13151,13 +13151,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows for "
"just enough smoothing to assist pressure advance achieve a smoother flow "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -13168,7 +13168,7 @@ msgstr ""
"(alta velocidad/ancho mayor) a una extrusión de menor flujo (menor velocidad/"
"ancho menor) y viceversa.\n"
"\n"
"Define la velocidad máxima a la que el flujo volumétrico extruido en mm3/seg "
"Define la velocidad máxima a la que el flujo volumétrico extruido en mm³/s² "
"puede cambiar con el tiempo. Valores más altos significan que se permiten "
"cambios de velocidad de extrusión más altos, lo que resulta en transiciones "
"de velocidad más rápidas.\n"
@ -13180,13 +13180,13 @@ msgstr ""
"embargo, puede proporcionar algún beneficio marginal en ciertos casos en los "
"que las velocidades de las características varían mucho. Por ejemplo, cuando "
"hay ralentizaciones agresivas debidas a voladizos. En estos casos, se "
"recomienda un valor alto de alrededor de 300-350 mm3/s2, ya que esto permite "
"recomienda un valor alto de alrededor de 300-350 mm³/s², ya que esto permite "
"el suavizado suficiente para ayudar al avance de presión a lograr una "
"transición de flujo más suave.\n"
"\n"
"Para impresoras más lentas sin avance de presión, el valor debe fijarse "
"mucho más bajo. Un valor de 10-15mm3/s2 es un buen punto de partida para "
"extrusoras de accionamiento directo y de 5-10mm3/s2 para las de estilo "
"mucho más bajo. Un valor de 10-15 mm³/s² es un buen punto de partida para "
"extrusoras de accionamiento directo y de 5-10 mm³/s² para las de estilo "
"Bowden.\n"
"\n"
"Esta característica es conocida como Pressure Equalizer en Prusa slicer.\n"
@ -14995,7 +14995,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"
@ -15016,7 +15016,7 @@ msgstr ""
"aumentar la fuerza con la que la boquilla colisiona con las acummulaciones "
"que se hayan podido formar en la torre de purga.\n"
"\n"
"Antes de aumentar este parámetro más allá del valor por defecto de 90mm/seg, "
"Antes de aumentar este parámetro más allá del valor por defecto de 90mm/s, "
"asegúrese de que su impresora puede puentear de forma fiable a las "
"velocidades aumentadas y que el rezume al cambiar de cabezal está bien "
"controlado.\n"

27
localization/i18n/fr/OrcaSlicer_fr.po
View file

@ -13441,7 +13441,7 @@ msgid ""
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -13451,13 +13451,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows for "
"just enough smoothing to assist pressure advance achieve a smoother flow "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -13468,7 +13468,7 @@ msgstr ""
"élevée / largeur de ligne plus grande) à une extrusion à débit plus faible "
"(vitesse plus faible / largeur de ligne plus petite) et vice versa.\n"
"\n"
"Il définit le taux maximum auquel le débit volumétrique extrudé en mm3/sec "
"Il définit le taux maximum auquel le débit volumétrique extrudé en mm³/s² "
"peut varier dans le temps. Des valeurs plus élevées signifient que des "
"changements du taux dextrusion plus élevés sont autorisés, ce qui entraîne "
"des transitions de vitesse plus rapides.\n"
@ -13480,13 +13480,13 @@ msgstr ""
"Cependant, cela peut apporter un avantage marginal dans certains cas où les "
"vitesses varient considérablement. Par exemple, en cas de ralentissements "
"agressifs dus à des surplombs. Dans ces cas, une valeur élevée denviron "
"300-350 mm3/s2 est recommandée car elle permet un lissage juste suffisant "
"300-350 mm³/s² est recommandée car elle permet un lissage juste suffisant "
"pour aider laugmentation de la pression pour obtenir une transition de "
"débit plus douce.\n"
"\n"
"Pour les imprimantes plus lentes sans fonction de pressure advance, la "
"valeur doit être réglée beaucoup plus bas. Une valeur de 10-15 mm3/s2 est un "
"bon point de départ en direct drive et de 5-10 mm3/s2 en Bowden.\n"
"valeur doit être réglée beaucoup plus bas. Une valeur de 10-15 mm³/s² est un "
"bon point de départ en direct drive et de 5-10 mm³/s² en Bowden.\n"
"\n"
"Cette fonctionnalité est connue sous le nom de Pressure Equalizer dans Prusa "
"Slicer.\n"
@ -15323,6 +15323,7 @@ msgstr ""
msgid "Maximum wipe tower print speed"
msgstr "Vitesse maximale dimpression de la tour dessuyage"
#, fuzzy
msgid ""
"The maximum print speed when purging in the wipe tower and printing the wipe "
"tower sparse layers. When purging, if the sparse infill speed or calculated "
@ -15337,7 +15338,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"
@ -15358,7 +15359,7 @@ msgstr ""
"augmenter la force avec laquelle la buse entre en collision avec les blobs "
"qui peuvent sêtre formés sur la tour dessuyage.\n"
"\n"
"Avant daugmenter ce paramètre au-delà de la valeur par défaut de 90 mm/sec, "
"Avant daugmenter ce paramètre au-delà de la valeur par défaut de 90 mm/s, "
"assurez-vous que votre imprimante peut effectuer un pontage fiable à des "
"vitesses élevées et que le suintement lors du changement doutil est bien "
"contrôlé.\n"
@ -19841,7 +19842,7 @@ msgstr ""
#~ "is lower, the lowest speed will be used instead.\n"
#~ "Increasing this speed may affect the tower's stability, as purging can be "
#~ "performed over sparse layers. Before increasing this parameter beyond the "
#~ "default of 90mm/sec, make sure your printer can reliably bridge at the "
#~ "default of 90 mm/s, make sure your printer can reliably bridge at the "
#~ "increased speeds."
#~ msgstr ""
#~ "Vitesse dimpression maximale lors de la purge dans la tour dessuyage. "
@ -19850,7 +19851,7 @@ msgstr ""
#~ "vitesse la plus basse qui sera utilisée.\n"
#~ "Laugmentation de cette vitesse peut affecter la stabilité de la tour, "
#~ "car la purge peut être effectuée sur des couches peu épaisses. Avant "
#~ "daugmenter ce paramètre au-delà de la valeur par défaut de 90 mm/sec, "
#~ "daugmenter ce paramètre au-delà de la valeur par défaut de 90 mm/s, "
#~ "assurez-vous que votre imprimante peut effectuer un pontage fiable aux "
#~ "vitesses accrues."

12
localization/i18n/hu/OrcaSlicer_hu.po
View file

@ -12170,7 +12170,7 @@ msgid ""
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -12180,13 +12180,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows for "
"just enough smoothing to assist pressure advance achieve a smoother flow "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -13760,7 +13760,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"

28
localization/i18n/it/OrcaSlicer_it.po
View file

@ -13355,7 +13355,7 @@ msgid ""
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -13365,13 +13365,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows for "
"just enough smoothing to assist pressure advance achieve a smoother flow "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -13383,8 +13383,8 @@ msgstr ""
"un'estrusione a basso flusso (bassa velocità/larghezza inferiore) e "
"viceversa.\n"
"\n"
"Definisce la velocità massima con cui la portata volumetrica estrusa in mm3/"
"sec può variare nel tempo. Valori più alti significano che sono consentite "
"Definisce la velocità massima con cui la portata volumetrica estrusa in mm³/"
"s² può variare nel tempo. Valori più alti significano che sono consentite "
"variazioni più elevate della velocità di estrusione, con conseguenti "
"transizioni di velocità più rapide.\n"
"\n"
@ -13395,14 +13395,14 @@ msgstr ""
"può fornire alcuni vantaggi marginali in alcuni casi in cui le velocità di "
"stampa di alcuni elementi variano notevolmente, ad esempio quando ci sono "
"rallentamenti aggressivi dovuti a sporgenze. In questi casi si consiglia un "
"valore elevato di circa 300-350 mm3/s2 in quanto ciò consente un "
"valore elevato di circa 300-350 mm³/s² in quanto ciò consente un "
"livellamento sufficiente per aiutare l'anticipo di pressione a ottenere una "
"transizione di flusso più graduale.\n"
"\n"
"Per le stampanti più lente senza anticipo di pressione, l'opzione deve "
"essere impostata su un valore molto più basso. Un valore di 10-15 mm3/s2 è "
"essere impostata su un valore molto più basso. Un valore di 10-15 mm³/s² è "
"un buon punto di partenza per gli estrusori a trasmissione diretta e di 5-10 "
"mm3/s2 per quelli Bowden.\n"
"mm³/s² per quelli Bowden.\n"
"\n"
"Questa funzione è nota come Equalizzatore di Pressione in Prusa slicer.\n"
"\n"
@ -15256,7 +15256,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"
@ -15276,9 +15276,9 @@ msgstr ""
"aumentare la forza con cui l'ugello entra in collisione con eventuali grumi "
"che si sono formati sulla torre di spurgo.\n"
"\n"
"Prima di aumentare questo parametro oltre il valore predefinito di 90 mm/"
"sec, accertati che la stampante sia in grado di gestire in modo affidabile "
"le maggiori velocità, e che il trasudo del materiale durante il cambio di "
"Prima di aumentare questo parametro oltre il valore predefinito di 90 mm/s, "
"accertati che la stampante sia in grado di gestire in modo affidabile le "
"maggiori velocità, e che il trasudo del materiale durante il cambio di "
"testina sia ben controllato.\n"
"\n"
"Per i perimetri esterni della torre di spurgo viene utilizzata la velocità "

12
localization/i18n/ja/OrcaSlicer_ja.po
View file

@ -11895,7 +11895,7 @@ msgid ""
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -11905,13 +11905,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows for "
"just enough smoothing to assist pressure advance achieve a smoother flow "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -13427,7 +13427,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"

16
localization/i18n/ko/OrcaSlicer_ko.po
View file

@ -12686,7 +12686,7 @@ msgid ""
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -12696,12 +12696,12 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some marginal "
"benefit in certain cases where feature speeds vary greatly. For example, when "
"there are aggressive slowdowns due to overhangs. In these cases a high value "
"of around 300-350mm3/s2 is recommended as this allows for just enough "
"of around 300-350 mm³/s² is recommended as this allows for just enough "
"smoothing to assist pressure advance achieve a smoother flow transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -12720,13 +12720,13 @@ msgstr ""
"고속, 고압출량 직접 구동 프린터(예: 뱀부랩 또는 보론)의 경우 일반적으로 이 값"
"이 필요하지 않습니다. 그러나 기능 속도가 크게 달라지는 특정 경우에는 약간의 이"
"점을 제공할 수 있습니다. 예를 들어 오버행로 인해 급격하게 감속이 발생하는 경우"
"입니다. 이러한 경우 약 300-350mm3/s2의 높은 값이 권장됩니다. 이렇게 하면 프레"
"입니다. 이러한 경우 약 300-350 mm³/s²의 높은 값이 권장됩니다. 이렇게 하면 프레"
"셔 어드밴스가 더 부드러운 압출량 전환을 달성하는 데 도움이 될 만큼 충분히 매끄"
"러워질 수 있기 때문입니다.\n"
"\n"
"프레셔 어드밴스 기능이 없는 느린 프린터의 경우 값을 훨씬 낮게 설정해야 합니"
"다. 10-15mm3/s2 값은 직접 구동 압출기의 좋은 시작점이고 보우덴 스타일의 경우 "
"5-10mm3/s2입니다.\n"
"다. 10-15 mm³/s² 값은 직접 구동 압출기의 좋은 시작점이고 보우덴 스타일의 경우 "
"5-10 mm³/s²입니다.\n"
"\n"
"이 기능은 Prusa 슬라이서에서는 프레셔 이퀄라이저(Pressure Equalizer)로 알려져 "
"있습니다.\n"
@ -14419,7 +14419,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"

16
localization/i18n/lt/OrcaSlicer_lt.po
View file

@ -13160,7 +13160,7 @@ msgid ""
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -13170,13 +13170,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows for "
"just enough smoothing to assist pressure advance achieve a smoother flow "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -13197,13 +13197,13 @@ msgstr ""
"\"Bambu lab\" arba \"Voron\") ši vertė paprastai nereikalinga. Tačiau tam "
"tikrais atvejais, kai funkcijos greičiai labai skiriasi, ji gali duoti "
"nedidelę naudą. Pavyzdžiui, kai yra agresyvių sulėtėjimų dėl iškyšų. Tokiais "
"atvejais rekomenduojama didelė vertė, maždaug 300-350 mm3/s2 , nes tai "
"atvejais rekomenduojama didelė vertė, maždaug 300-350 mm³/s² , nes tai "
"leidžia pakankamai išlyginti, kad padedant slėgio avansui būtų pasiektas "
"sklandesnis srauto perėjimas.\n"
"\n"
"Lėtesniems spausdintuvams, kuriuose nėra slėgio didinimo, vertė turėtų būti "
"nustatyta daug mažesnė. Tiesioginės pavaros ekstruderiams gera pradinė vertė "
"yra 10-15 mm3/s2, o Bowdeno tipo ekstruderiams - 5-10 mm3/s2.\n"
"yra 10-15 mm³/s², o Bowdeno tipo ekstruderiams - 5-10 mm³/s².\n"
"\n"
"Ši funkcija \"Prusa\" programoje \"Prusa slicer\" vadinama slėgio išlyginimo "
"funkcija.\n"
@ -14997,7 +14997,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"

12
localization/i18n/nl/OrcaSlicer_nl.po
View file

@ -12362,7 +12362,7 @@ msgid ""
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -12372,13 +12372,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows for "
"just enough smoothing to assist pressure advance achieve a smoother flow "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -13974,7 +13974,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"

20
localization/i18n/pl/OrcaSlicer_pl.po
View file

@ -13193,7 +13193,7 @@ msgid ""
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -13203,13 +13203,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows for "
"just enough smoothing to assist pressure advance achieve a smoother flow "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -13232,13 +13232,13 @@ msgstr ""
"potrzebna. Może ona jednak zapewnić pewne marginalne korzyści w niektórych "
"przypadkach, gdy prędkości funkcji znacznie się różnią. Na przykład, gdy "
"występują agresywne spowolnienia spowodowane nawisami. W takich przypadkach "
"zalecana jest wysoka wartość około 300-350 mm3/s2, ponieważ pozwala to na "
"zalecana jest wysoka wartość około 300-350 mm³/s², ponieważ pozwala to na "
"wystarczające wygładzenie, aby wspomóc wzrost ciśnienia w celu uzyskania "
"płynniejszego przejścia przepływu.\n"
"\n"
"W przypadku wolniejszych drukarek bez przyspieszenia ciśnienia wartość ta "
"powinna być znacznie niższa. Wartość 10-15 mm3/s2 jest dobrym punktem "
"wyjścia dla extruderów z napędem bezpośrednim i 5-10 mm3/s2 dla extruderów "
"powinna być znacznie niższa. Wartość 10-15 mm³/s² jest dobrym punktem "
"wyjścia dla extruderów z napędem bezpośrednim i 5-10 mm³/s² dla extruderów "
"typu Bowden.\n"
"\n"
"Ta funkcja jest znana jako Pressure Equalizer w Prusa slicer.\n"
@ -15055,7 +15055,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"
@ -19260,7 +19260,7 @@ msgstr ""
#~ "is lower, the lowest speed will be used instead.\n"
#~ "Increasing this speed may affect the tower's stability, as purging can be "
#~ "performed over sparse layers. Before increasing this parameter beyond the "
#~ "default of 90mm/sec, make sure your printer can reliably bridge at the "
#~ "default of 90 mm/s, make sure your printer can reliably bridge at the "
#~ "increased speeds."
#~ msgstr ""
#~ "Maksymalna prędkość drukowania podczas oczyszczania w wieży czyszczącej. "

24
localization/i18n/pt_BR/OrcaSlicer_pt_BR.po
View file

@ -13226,7 +13226,7 @@ msgid ""
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -13236,13 +13236,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows for "
"just enough smoothing to assist pressure advance achieve a smoother flow "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -13253,7 +13253,7 @@ msgstr ""
"velocidade/maior largura) para uma extrusão de baixo fluxo (baixa velocidade/"
"menor largura) e vice-versa.\n"
"\n"
"Define a taxa máxima pela qual o fluxo volumétrico extrudado em mm3/seg pode "
"Define a taxa máxima pela qual o fluxo volumétrico extrudado em mm³/s² pode "
"mudar ao longo do tempo. Valores mais altos significam que mudanças de taxa "
"de extrusão mais altas são permitidas, resultando em transições de "
"velocidade mais rápidas.\n"
@ -13265,20 +13265,20 @@ msgstr ""
"entanto, pode fornecer alguns benefícios marginais em certos casos em que as "
"velocidades das características variam muito. Por exemplo, quando há "
"desacelerações agressivas devido a saliências. Nesses casos, um valor alto "
"de cerca de 300-350mm3/s2 é recomendado, pois isso permite apenas suavização "
"de cerca de 300-350 mm³/s² é recomendado, pois isso permite apenas suavização "
"suficiente para ajudar o avanço de pressão a alcançar uma transição de fluxo "
"mais suave.\n"
"\n"
"Para impressoras mais lentas sem avanço de pressão, o valor deve ser "
"definido muito mais baixo. Um valor de 10-15mm3/s2 é um bom ponto de partida "
"para extrusoras de acionamento direto e 5-10mm3/s2 para estilo Bowden.\n"
"definido muito mais baixo. Um valor de 10-15 mm³/s² é um bom ponto de partida "
"para extrusoras de acionamento direto e 5-10 mm³/s² para estilo Bowden.\n"
"\n"
"Este recurso é conhecido como Equalizador de Pressão no slicer Prusa.\n"
"\n"
"Nota: este parâmetro desativa o ajuste de arco."
msgid "mm³/s²"
msgstr "mm3/s2"
msgstr ""
msgid "Smoothing segment length"
msgstr "Comprimento do segmento de suavização"
@ -15085,7 +15085,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"
@ -15105,7 +15105,7 @@ msgstr ""
"aumentar a força com que o bico colide com quaisquer bolhas que possam ter "
"se formado na torre de limpeza.\n"
"\n"
"Antes de aumentar esse parâmetro além do padrão de 90mm/s, certifique-se de "
"Antes de aumentar esse parâmetro além do padrão de 90 mm/s, certifique-se de "
"que sua impressora pode realizar pontes de forma confiável nas velocidades "
"aumentadas e que o vazamento ao trocar a ferramenta está bem controlado.\n"
"\n"

12
localization/i18n/ru/OrcaSlicer_ru.po
View file

@ -13420,7 +13420,7 @@ msgid ""
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -13430,13 +13430,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows for "
"just enough smoothing to assist pressure advance achieve a smoother flow "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -15353,7 +15353,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"

12
localization/i18n/sv/OrcaSlicer_sv.po
View file

@ -12113,7 +12113,7 @@ msgid ""
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -12123,13 +12123,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows for "
"just enough smoothing to assist pressure advance achieve a smoother flow "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -13660,7 +13660,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"

18
localization/i18n/tr/OrcaSlicer_tr.po
View file

@ -13061,7 +13061,7 @@ msgid ""
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -13071,13 +13071,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows for "
"just enough smoothing to assist pressure advance achieve a smoother flow "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -13099,13 +13099,13 @@ msgstr ""
"veya Voron gibi) bu değer genellikle gerekli değildir. Ancak özellik "
"hızlarının büyük ölçüde değiştiği bazı durumlarda marjinal bir fayda "
"sağlayabilir. Örneğin, çıkıntılar nedeniyle agresif yavaşlamalar olduğunda. "
"Bu durumlarda 300-350mm3/s2 civarında yüksek bir değer önerilir çünkü bu, "
"Bu durumlarda 300-350 mm³/s² civarında yüksek bir değer önerilir çünkü bu, "
"basınç ilerlemesinin daha yumuşak bir akış geçişi elde etmesine yardımcı "
"olmak için yeterli yumuşatmaya izin verir.\n"
"\n"
"Basınç avansı olmayan daha yavaş yazıcılar için değer çok daha düşük "
"ayarlanmalıdır. Doğrudan tahrikli ekstruderler için 10-15mm3/s2 ve Bowden "
"tarzı için 5-10mm3/s2 değeri iyi bir başlangıç noktasıdır.\n"
"ayarlanmalıdır. Doğrudan tahrikli ekstruderler için 10-15 mm³/s² ve Bowden "
"tarzı için 5-10 mm³/s² değeri iyi bir başlangıç noktasıdır.\n"
"\n"
"Bu özellik Prusa slicer'da Basınç Dengeleyici olarak bilinir.\n"
"\n"
@ -14898,7 +14898,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"

12
localization/i18n/uk/OrcaSlicer_uk.po
View file

@ -13192,7 +13192,7 @@ msgid ""
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -13202,13 +13202,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows for "
"just enough smoothing to assist pressure advance achieve a smoother flow "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -15024,7 +15024,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"

15
localization/i18n/zh_CN/OrcaSlicer_zh_CN.po
View file

@ -12033,13 +12033,14 @@ msgstr "挤出头最大可打印的层高。用于限制开启自适应层高时
msgid "Extrusion rate smoothing"
msgstr "平滑挤出率"
#, fuzzy
msgid ""
"This parameter smooths out sudden extrusion rate changes that happen when "
"the printer transitions from printing a high flow (high speed/larger width) "
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -12049,13 +12050,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows for "
"just enough smoothing to assist pressure advance achieve a smoother flow "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -12074,7 +12075,7 @@ msgstr ""
"够的平滑,以帮助压力提前实现更平滑的流量过渡。\n"
"\n"
"对于没有压力提前的较慢打印机该值应该设置得非常低。对于近程挤出机来说10-15 "
"mm3/s2是一个很好值的起点而对于远程挤出机来说是5-10 mm3/s2。\n"
"mm³/s²是一个很好值的起点而对于远程挤出机来说是5-10 mm³/s²。\n"
"\n"
"这个功能在Prusa切片机中被称为压力均衡器。\n"
"\n"
@ -13624,7 +13625,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"

16
localization/i18n/zh_TW/OrcaSlicer_zh_TW.po
View file

@ -12272,13 +12272,14 @@ msgstr "擠出頭最大可列印的層高。用於限制開啟自適應層高時
msgid "Extrusion rate smoothing"
msgstr "平滑擠出率"
#, fuzzy
msgid ""
"This parameter smooths out sudden extrusion rate changes that happen when "
"the printer transitions from printing a high flow (high speed/larger width) "
"extrusion to a lower flow (lower speed/smaller width) extrusion and vice "
"versa.\n"
"\n"
"It defines the maximum rate by which the extruded volumetric flow in mm3/sec "
"It defines the maximum rate by which the extruded volumetric flow in mm³/s² "
"can change over time. Higher values mean higher extrusion rate changes are "
"allowed, resulting in faster speed transitions.\n"
"\n"
@ -12288,13 +12289,13 @@ msgid ""
"Voron) this value is usually not needed. However it can provide some "
"marginal benefit in certain cases where feature speeds vary greatly. For "
"example, when there are aggressive slowdowns due to overhangs. In these "
"cases a high value of around 300-350mm3/s2 is recommended as this allows for "
"just enough smoothing to assist pressure advance achieve a smoother flow "
"cases a high value of around 300-350 mm³/s² is recommended as this allows "
"for just enough smoothing to assist pressure advance achieve a smoother flow "
"transition.\n"
"\n"
"For slower printers without pressure advance, the value should be set much "
"lower. A value of 10-15mm3/s2 is a good starting point for direct drive "
"extruders and 5-10mm3/s2 for Bowden style.\n"
"lower. A value of 10-15 mm³/s² is a good starting point for direct drive "
"extruders and 5-10 mm³/s² for Bowden style.\n"
"\n"
"This feature is known as Pressure Equalizer in Prusa slicer.\n"
"\n"
@ -13880,6 +13881,7 @@ msgstr "圓錐體頂點處的角度,用於穩定換料塔。 更大的角度
msgid "Maximum wipe tower print speed"
msgstr "換料塔最快列印速度"
#, fuzzy
msgid ""
"The maximum print speed when purging in the wipe tower and printing the wipe "
"tower sparse layers. When purging, if the sparse infill speed or calculated "
@ -13894,7 +13896,7 @@ msgid ""
"the force with which the nozzle collides with any blobs that may have formed "
"on the wipe tower.\n"
"\n"
"Before increasing this parameter beyond the default of 90mm/sec, make sure "
"Before increasing this parameter beyond the default of 90 mm/s, make sure "
"your printer can reliably bridge at the increased speeds and that ooze when "
"tool changing is well controlled.\n"
"\n"
@ -13909,7 +13911,7 @@ msgstr ""
"\n"
"提高此速度可能會影響塔的穩定性,並增加噴嘴與換料塔上斑點的碰撞力。\n"
"\n"
"在將此參數提高於預設值 90mm/sec 以上之前,請確保您的印表設備能夠可靠地在更高"
"在將此參數提高於預設值 90mm/s 以上之前,請確保您的印表設備能夠可靠地在更高"
"的速度下橋接,並且工具更換時的溢出能良好的被控制。\n"
"\n"
"對於換料塔外部周邊,無論此設定如何,都使用內部周邊速度。"

414
src/libslic3r/PrintConfig.cpp
View file

File diff suppressed because it is too large Load diff

6
src/slic3r/GUI/BedShapeDialog.cpp
View file

@ -49,7 +49,7 @@ void BedShape::append_option_line(ConfigOptionsGroupShp optgroup, Parameter para
def.min = 0;
def.max = 214700;
def.width = 10; // increase width for large scale printers with 4 digit values
def.sidetext = L("mm");
def.sidetext = "mm"; // milimeters, don't need translation
def.label = get_option_label(param);
def.tooltip = L("Size in X and Y of the rectangular plate.");
key = "rect_size";
@ -60,7 +60,7 @@ void BedShape::append_option_line(ConfigOptionsGroupShp optgroup, Parameter para
def.min = -107350;
def.max = 107350;
def.width = 10; // increase width for large scale printers with 4 digit values
def.sidetext = L("mm");
def.sidetext = "mm"; // milimeters, don't need translation
def.label = get_option_label(param);
def.tooltip = L("Distance of the 0,0 G-code coordinate from the front left corner of the rectangle.");
key = "rect_origin";
@ -69,7 +69,7 @@ void BedShape::append_option_line(ConfigOptionsGroupShp optgroup, Parameter para
def.type = coFloat;
def.set_default_value(new ConfigOptionFloat(200));
def.width = 10; // match size
def.sidetext = L("mm");
def.sidetext = "mm"; // milimeters, don't need translation
def.label = get_option_label(param);
def.tooltip = L("Diameter of the print bed. It is assumed that origin (0,0) is located in the center.");
key = "diameter";

6
src/slic3r/GUI/CalibrationWizardPresetPage.cpp
View file

@ -313,7 +313,7 @@ void CaliPresetCustomRangePanel::create_panel(wxWindow* parent)
m_title_texts[i]->Wrap(-1);
m_title_texts[i]->SetFont(::Label::Body_14);
item_sizer->Add(m_title_texts[i], 0, wxALL, 0);
m_value_inputs[i] = new TextInput(parent, wxEmptyString, wxString::FromUTF8("°C"), "", wxDefaultPosition, CALIBRATION_FROM_TO_INPUT_SIZE, 0);
m_value_inputs[i] = new TextInput(parent, wxEmptyString, wxString::FromUTF8("\u2103" /* °C */), "", wxDefaultPosition, CALIBRATION_FROM_TO_INPUT_SIZE, 0);
m_value_inputs[i]->GetTextCtrl()->SetValidator(wxTextValidator(wxFILTER_NUMERIC));
m_value_inputs[i]->GetTextCtrl()->Bind(wxEVT_TEXT, [this, i](wxCommandEvent& event) {
std::string number = m_value_inputs[i]->GetTextCtrl()->GetValue().ToStdString();
@ -392,7 +392,7 @@ void CaliPresetTipsPanel::create_panel(wxWindow* parent)
auto nozzle_temp_sizer = new wxBoxSizer(wxVERTICAL);
auto nozzle_temp_text = new Label(parent, _L("Nozzle temperature"));
nozzle_temp_text->SetFont(Label::Body_12);
m_nozzle_temp = new TextInput(parent, wxEmptyString, wxString::FromUTF8("°C"), "", wxDefaultPosition, CALIBRATION_FROM_TO_INPUT_SIZE, wxTE_READONLY);
m_nozzle_temp = new TextInput(parent, wxEmptyString, wxString::FromUTF8("\u2103" /* °C */), "", wxDefaultPosition, CALIBRATION_FROM_TO_INPUT_SIZE, wxTE_READONLY);
m_nozzle_temp->SetBorderWidth(0);
nozzle_temp_sizer->Add(nozzle_temp_text, 0, wxALIGN_LEFT);
nozzle_temp_sizer->Add(m_nozzle_temp, 0, wxEXPAND);
@ -439,7 +439,7 @@ void CaliPresetTipsPanel::set_params(int nozzle_temp, int bed_temp, float max_vo
m_nozzle_temp->GetTextCtrl()->SetValue(text_nozzle_temp);
std::string bed_temp_text = bed_temp==0 ? "-": std::to_string(bed_temp);
m_bed_temp->SetLabel(wxString::FromUTF8(bed_temp_text + "°C"));
m_bed_temp->SetLabel(wxString::FromUTF8(bed_temp_text + "\u2103" /* °C */));
wxString flow_val_text = wxString::Format("%0.2f", max_volumetric);
m_max_volumetric_speed->GetTextCtrl()->SetValue(flow_val_text);

10
src/slic3r/GUI/ConfigWizard.cpp
View file

@ -278,7 +278,7 @@ PrinterPicker::PrinterPicker(wxWindow *parent, const VendorProfile &vendor, wxSt
const auto &variant = model.variants[i];
const auto label = model.technology == ptFFF
? from_u8((boost::format("%1% %2% %3%") % variant.name % _utf8(L("mm")) % _utf8(L("nozzle"))).str())
? from_u8((boost::format("%1% %2% %3%") % variant.name % _utf8("mm") % _utf8(L("nozzle"))).str())
: from_u8(model.name);
if (i == 1) {
@ -1353,7 +1353,7 @@ PageDiameters::PageDiameters(ConfigWizard *parent)
auto *sizer_nozzle = new wxFlexGridSizer(3, 5, 5);
auto *text_nozzle = new wxStaticText(this, wxID_ANY, _L("Nozzle Diameter:"));
auto *unit_nozzle = new wxStaticText(this, wxID_ANY, _L("mm"));
auto *unit_nozzle = new wxStaticText(this, wxID_ANY, "mm");
sizer_nozzle->AddGrowableCol(0, 1);
sizer_nozzle->Add(text_nozzle, 0, wxALIGN_CENTRE_VERTICAL);
sizer_nozzle->Add(diam_nozzle);
@ -1367,7 +1367,7 @@ PageDiameters::PageDiameters(ConfigWizard *parent)
auto *sizer_filam = new wxFlexGridSizer(3, 5, 5);
auto *text_filam = new wxStaticText(this, wxID_ANY, _L("Filament Diameter:"));
auto *unit_filam = new wxStaticText(this, wxID_ANY, _L("mm"));
auto *unit_filam = new wxStaticText(this, wxID_ANY, "mm");
sizer_filam->AddGrowableCol(0, 1);
sizer_filam->Add(text_filam, 0, wxALIGN_CENTRE_VERTICAL);
sizer_filam->Add(diam_filam);
@ -1448,7 +1448,7 @@ PageTemperatures::PageTemperatures(ConfigWizard *parent)
auto *sizer_extr = new wxFlexGridSizer(3, 5, 5);
auto *text_extr = new wxStaticText(this, wxID_ANY, _L("Extrusion Temperature:"));
auto *unit_extr = new wxStaticText(this, wxID_ANY, "°C");
auto *unit_extr = new wxStaticText(this, wxID_ANY, "\u2103" /* °C */);
sizer_extr->AddGrowableCol(0, 1);
sizer_extr->Add(text_extr, 0, wxALIGN_CENTRE_VERTICAL);
sizer_extr->Add(spin_extr);
@ -1462,7 +1462,7 @@ PageTemperatures::PageTemperatures(ConfigWizard *parent)
auto *sizer_bed = new wxFlexGridSizer(3, 5, 5);
auto *text_bed = new wxStaticText(this, wxID_ANY, _L("Bed Temperature:"));
auto *unit_bed = new wxStaticText(this, wxID_ANY, "°C");
auto *unit_bed = new wxStaticText(this, wxID_ANY, "\u2103" /* °C */);
sizer_bed->AddGrowableCol(0, 1);
sizer_bed->Add(text_bed, 0, wxALIGN_CENTRE_VERTICAL);
sizer_bed->Add(spin_bed);

10
src/slic3r/GUI/CreatePresetsDialog.cpp
View file

@ -1870,7 +1870,7 @@ wxBoxSizer *CreatePrinterPresetDialog::create_bed_size_item(wxWindow *parent)
// ORCA use icon on input box to match style with other Point fields
horizontal_sizer->Add(length_sizer, 0, wxEXPAND | wxLEFT | wxTOP | wxALIGN_CENTER_VERTICAL, FromDIP(10));
wxBoxSizer *length_input_sizer = new wxBoxSizer(wxVERTICAL);
m_bed_size_x_input = new TextInput(parent, "200", _L("mm"), "inputbox_x", wxDefaultPosition, PRINTER_SPACE_SIZE, wxTE_PROCESS_ENTER);
m_bed_size_x_input = new TextInput(parent, "200", "mm", "inputbox_x", wxDefaultPosition, PRINTER_SPACE_SIZE, wxTE_PROCESS_ENTER);
wxTextValidator validator(wxFILTER_DIGITS);
m_bed_size_x_input->GetTextCtrl()->SetValidator(validator);
length_input_sizer->Add(m_bed_size_x_input, 0, wxEXPAND | wxLEFT, FromDIP(5));
@ -1880,7 +1880,7 @@ wxBoxSizer *CreatePrinterPresetDialog::create_bed_size_item(wxWindow *parent)
// ORCA use icon on input box to match style with other Point fields
horizontal_sizer->Add(width_sizer, 0, wxEXPAND | wxLEFT | wxTOP | wxALIGN_CENTER_VERTICAL, FromDIP(10));
wxBoxSizer *width_input_sizer = new wxBoxSizer(wxVERTICAL);
m_bed_size_y_input = new TextInput(parent, "200", _L("mm"), "inputbox_y", wxDefaultPosition, PRINTER_SPACE_SIZE, wxTE_PROCESS_ENTER);
m_bed_size_y_input = new TextInput(parent, "200", "mm", "inputbox_y", wxDefaultPosition, PRINTER_SPACE_SIZE, wxTE_PROCESS_ENTER);
m_bed_size_y_input->GetTextCtrl()->SetValidator(validator);
width_input_sizer->Add(m_bed_size_y_input, 0, wxEXPAND | wxALL, 0);
horizontal_sizer->Add(width_input_sizer, 0, wxEXPAND | wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(5));
@ -1903,7 +1903,7 @@ wxBoxSizer *CreatePrinterPresetDialog::create_origin_item(wxWindow *parent)
// ORCA use icon on input box to match style with other Point fields
horizontal_sizer->Add(length_sizer, 0, wxEXPAND | wxLEFT | wxTOP | wxALIGN_CENTER_VERTICAL, FromDIP(10));
wxBoxSizer *length_input_sizer = new wxBoxSizer(wxVERTICAL);
m_bed_origin_x_input = new TextInput(parent, "0", _L("mm"), "inputbox_x", wxDefaultPosition, PRINTER_SPACE_SIZE, wxTE_PROCESS_ENTER);
m_bed_origin_x_input = new TextInput(parent, "0", "mm", "inputbox_x", wxDefaultPosition, PRINTER_SPACE_SIZE, wxTE_PROCESS_ENTER);
wxTextValidator validator(wxFILTER_DIGITS);
m_bed_origin_x_input->GetTextCtrl()->SetValidator(validator);
length_input_sizer->Add(m_bed_origin_x_input, 0, wxEXPAND | wxLEFT, FromDIP(5)); // Align with other
@ -1913,7 +1913,7 @@ wxBoxSizer *CreatePrinterPresetDialog::create_origin_item(wxWindow *parent)
// ORCA use icon on input box to match style with other Point fields
horizontal_sizer->Add(width_sizer, 0, wxEXPAND | wxLEFT | wxTOP | wxALIGN_CENTER_VERTICAL, FromDIP(10));
wxBoxSizer *width_input_sizer = new wxBoxSizer(wxVERTICAL);
m_bed_origin_y_input = new TextInput(parent, "0", _L("mm"), "inputbox_y", wxDefaultPosition, PRINTER_SPACE_SIZE, wxTE_PROCESS_ENTER);
m_bed_origin_y_input = new TextInput(parent, "0", "mm", "inputbox_y", wxDefaultPosition, PRINTER_SPACE_SIZE, wxTE_PROCESS_ENTER);
m_bed_origin_y_input->GetTextCtrl()->SetValidator(validator);
width_input_sizer->Add(m_bed_origin_y_input, 0, wxEXPAND | wxALL, 0);
horizontal_sizer->Add(width_input_sizer, 0, wxEXPAND | wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(5));
@ -2006,7 +2006,7 @@ wxBoxSizer *CreatePrinterPresetDialog::create_max_print_height_item(wxWindow *pa
horizontal_sizer->Add(optionSizer, 0, wxEXPAND | wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(10));
wxBoxSizer *hight_input_sizer = new wxBoxSizer(wxVERTICAL);
m_print_height_input = new TextInput(parent, "200", _L("mm"), wxEmptyString, wxDefaultPosition, PRINTER_SPACE_SIZE, wxTE_PROCESS_ENTER); // Use same alignment with all other input boxes
m_print_height_input = new TextInput(parent, "200", "mm", wxEmptyString, wxDefaultPosition, PRINTER_SPACE_SIZE, wxTE_PROCESS_ENTER); // Use same alignment with all other input boxes
wxTextValidator validator(wxFILTER_DIGITS);
m_print_height_input->GetTextCtrl()->SetValidator(validator);
hight_input_sizer->Add(m_print_height_input, 0, wxEXPAND | wxLEFT, FromDIP(5));

6
src/slic3r/GUI/DeviceManager.cpp
View file

@ -3088,7 +3088,7 @@ int MachineObject::parse_json(std::string payload, bool key_field_only)
if (jj.contains("errno")) {
if (jj["errno"].is_number()) {
if (jj["errno"].get<int>() == -2) {
wxString text = _L("The current chamber temperature or the target chamber temperature exceeds 45\u2103. "
wxString text = _L("The current chamber temperature or the target chamber temperature exceeds 45\u2103. " /* 45°C */
"In order to avoid extruder clogging, low temperature filament (PLA/PETG/TPU) is not allowed to be loaded.");
GUI::wxGetApp().push_notification(text);
}
@ -3102,11 +3102,11 @@ int MachineObject::parse_json(std::string payload, bool key_field_only)
wxString text;
if (jj["errno"].get<int>() == -2) {
text = _L("Low temperature filament (PLA/PETG/TPU) is loaded in the extruder. "
"In order to avoid extruder clogging, it is not allowed to set the chamber temperature above 45\u2103.");
"In order to avoid extruder clogging, it is not allowed to set the chamber temperature above 45\u2103." /* 45°C */);
}
else if (jj["errno"].get<int>() == -4) {
text = _L("When you set the chamber temperature below 40\u2103, the chamber temperature control will not be activated, "
"and the target chamber temperature will automatically be set to 0\u2103.");
"and the target chamber temperature will automatically be set to 0\u2103." /* 0°C */);
}
if(!text.empty()){
#if __WXOSX__

6
src/slic3r/GUI/ExtrusionCalibration.cpp
View file

@ -127,21 +127,21 @@ void ExtrusionCalibration::create()
wxWindow::GetTextExtent(_L("Bed Temperature")).x),
wxWindow::GetTextExtent(_L("Max volumetric speed")).x),
EXTRUSION_CALIBRATION_INPUT_SIZE.x);
m_nozzle_temp = new TextInput(m_step_1_panel, wxEmptyString, _L("\u2103"), "", wxDefaultPosition, { max_input_width, EXTRUSION_CALIBRATION_INPUT_SIZE.y }, wxTE_READONLY);
m_nozzle_temp = new TextInput(m_step_1_panel, wxEmptyString, "\u2103" /* °C */, "", wxDefaultPosition, { max_input_width, EXTRUSION_CALIBRATION_INPUT_SIZE.y }, wxTE_READONLY);
nozzle_temp_sizer->Add(nozzle_temp_text, 0, wxALIGN_LEFT);
nozzle_temp_sizer->AddSpacer(FromDIP(4));
nozzle_temp_sizer->Add(m_nozzle_temp, 0, wxEXPAND);
auto bed_temp_sizer = new wxBoxSizer(wxVERTICAL);
auto bed_temp_text = new wxStaticText(m_step_1_panel, wxID_ANY, _L("Bed temperature"));
m_bed_temp = new TextInput(m_step_1_panel, wxEmptyString, _L("\u2103"), "", wxDefaultPosition, { max_input_width, EXTRUSION_CALIBRATION_INPUT_SIZE.y }, wxTE_READONLY);
m_bed_temp = new TextInput(m_step_1_panel, wxEmptyString, "\u2103" /* °C */, "", wxDefaultPosition, { max_input_width, EXTRUSION_CALIBRATION_INPUT_SIZE.y }, wxTE_READONLY);
bed_temp_sizer->Add(bed_temp_text, 0, wxALIGN_LEFT);
bed_temp_sizer->AddSpacer(FromDIP(4));
bed_temp_sizer->Add(m_bed_temp, 0, wxEXPAND);
auto max_flow_sizer = new wxBoxSizer(wxVERTICAL);
auto max_flow_text = new wxStaticText(m_step_1_panel, wxID_ANY, _L("Max volumetric speed"));
m_max_flow_ratio = new TextInput(m_step_1_panel, wxEmptyString, _L("mm\u00B3"), "", wxDefaultPosition, { max_input_width, EXTRUSION_CALIBRATION_INPUT_SIZE.y }, wxTE_READONLY);
m_max_flow_ratio = new TextInput(m_step_1_panel, wxEmptyString, "mm³", "", wxDefaultPosition, { max_input_width, EXTRUSION_CALIBRATION_INPUT_SIZE.y }, wxTE_READONLY);
max_flow_sizer->Add(max_flow_text, 0, wxALIGN_LEFT);
max_flow_sizer->AddSpacer(FromDIP(4));
max_flow_sizer->Add(m_max_flow_ratio, 0, wxEXPAND);

6
src/slic3r/GUI/GCodeViewer.cpp
View file

@ -4606,13 +4606,13 @@ void GCodeViewer::render_legend(float &legend_height, int canvas_width, int canv
auto upto_label = [](double z) {
char buf[64];
::sprintf(buf, "%.2f", z);
return _u8L("up to") + " " + std::string(buf) + " " + _u8L("mm");
return _u8L("up to") + " " + std::string(buf) + " " + "mm";
};
auto above_label = [](double z) {
char buf[64];
::sprintf(buf, "%.2f", z);
return _u8L("above") + " " + std::string(buf) + " " + _u8L("mm");
return _u8L("above") + " " + std::string(buf) + " " + "mm";
};
auto fromto_label = [](double z1, double z2) {
@ -4620,7 +4620,7 @@ void GCodeViewer::render_legend(float &legend_height, int canvas_width, int canv
::sprintf(buf1, "%.2f", z1);
char buf2[64];
::sprintf(buf2, "%.2f", z2);
return _u8L("from") + " " + std::string(buf1) + " " + _u8L("to") + " " + std::string(buf2) + " " + _u8L("mm");
return _u8L("from") + " " + std::string(buf1) + " " + _u8L("to") + " " + std::string(buf2) + " " + "mm";
};
auto role_time_and_percent = [time_mode](ExtrusionRole role) {

4
src/slic3r/GUI/GUI_ObjectLayers.cpp
View file

@ -135,7 +135,7 @@ wxSizer* ObjectLayers::create_layer(const t_layer_height_range& range, PlusMinus
m_grid_sizer->Add(editor, 1, wxEXPAND);
auto sizer2 = new wxBoxSizer(wxHORIZONTAL);
auto unit_text = new wxStaticText(m_parent, wxID_ANY, _L("mm"), wxDefaultPosition, wxDefaultSize, wxST_ELLIPSIZE_END);
auto unit_text = new wxStaticText(m_parent, wxID_ANY, "mm", wxDefaultPosition, wxDefaultSize, wxST_ELLIPSIZE_END);
unit_text->SetBackgroundStyle(wxBG_STYLE_PAINT);
unit_text->SetFont(wxGetApp().normal_font());
sizer2->Add(unit_text, 0, wxALIGN_CENTER_VERTICAL);
@ -156,7 +156,7 @@ wxSizer* ObjectLayers::create_layer(const t_layer_height_range& range, PlusMinus
//auto sizer = new wxBoxSizer(wxHORIZONTAL);
//sizer->Add(editor);
//auto temp = new wxStaticText(m_parent, wxID_ANY, _L("mm"));
//auto temp = new wxStaticText(m_parent, wxID_ANY, "mm");
//temp->SetBackgroundStyle(wxBG_STYLE_PAINT);
//temp->SetFont(wxGetApp().normal_font());
//sizer->Add(temp, 0, wxLEFT | wxALIGN_CENTER_VERTICAL, wxGetApp().em_unit());

2
src/slic3r/GUI/ObjectDataViewModel.cpp
View file

@ -157,7 +157,7 @@ ObjectDataViewModelNode::ObjectDataViewModelNode(ObjectDataViewModelNode* parent
parent->GetNthChild(i)->SetIdx(i + 1);
}
const std::string label_range = (boost::format(" %.2f-%.2f ") % layer_range.first % layer_range.second).str();
m_name = _(L("Range")) + label_range + "(" + _(L("mm")) + ")";
m_name = _(L("Range")) + label_range + "(" + _("mm") + ")";
m_bmp = create_scaled_bitmap(LayerIcon);
set_icons();

2
src/slic3r/GUI/Plater.cpp
View file

@ -9618,7 +9618,7 @@ void Plater::_calib_pa_pattern(const Calib_Params& params)
speeds.assign({speed});
const auto msg{_L("INFO:") + "\n" +
_L("No speeds provided for calibration. Use default optimal speed ") + std::to_string(long(speed)) + _L("mm/s")};
_L("No speeds provided for calibration. Use default optimal speed ") + std::to_string(long(speed)) + "mm/s"};
get_notification_manager()->push_notification(msg.ToStdString());
} else if (speeds.size() == 1) {
// If we have single value provided, set speed using global configuration.

4
src/slic3r/GUI/RammingChart.cpp
View file

@ -89,10 +89,10 @@ void Chart::draw() {
}
// axis labels:
wxString label = _(L("Time")) + " ("+_(L("s"))+")";
wxString label = _(L("Time")) + " ("+_("s")+")";
dc.GetTextExtent(label,&text_width,&text_height);
dc.DrawText(label,wxPoint(0.5*(m_rect.GetRight()+m_rect.GetLeft())-text_width/2.f, m_rect.GetBottom()+0.6*legend_side));
label = _(L("Volumetric speed")) + " (" + _(L("mm³/s")) + ")";
label = _(L("Volumetric speed")) + " (" + _("mm³/s") + ")";
dc.GetTextExtent(label,&text_width,&text_height);
dc.DrawRotatedText(label,wxPoint(0,0.5*(m_rect.GetBottom()+m_rect.GetTop())+text_width/2.f),90);
}

8
src/slic3r/GUI/WipeTowerDialog.cpp
View file

@ -115,10 +115,10 @@ RammingPanel::RammingPanel(wxWindow* parent, const std::string& parameters)
update_ui(m_chart);
sizer_chart->Add(m_chart, 0, wxALL, 5);
m_widget_time = new SpinInput(this, wxEmptyString, _L("ms") , wxDefaultPosition, wxSize(scale(120), -1), wxSP_ARROW_KEYS, 0 , 5000 , 3000, 500);
m_widget_volume = new SpinInput(this, wxEmptyString, _L("mm³"), wxDefaultPosition, wxSize(scale(120), -1), wxSP_ARROW_KEYS, 0 , 10000, 0 );
m_widget_ramming_line_width_multiplicator = new SpinInput(this, wxEmptyString, _L("%") , wxDefaultPosition, wxSize(scale(120), -1), wxSP_ARROW_KEYS, 10, 200 , 100 );
m_widget_ramming_step_multiplicator = new SpinInput(this, wxEmptyString, _L("%") , wxDefaultPosition, wxSize(scale(120), -1), wxSP_ARROW_KEYS, 10, 200 , 100 );
m_widget_time = new SpinInput(this, wxEmptyString, "ms" , wxDefaultPosition, wxSize(scale(120), -1), wxSP_ARROW_KEYS, 0 , 5000 , 3000, 500);
m_widget_volume = new SpinInput(this, wxEmptyString, "mm³", wxDefaultPosition, wxSize(scale(120), -1), wxSP_ARROW_KEYS, 0 , 10000, 0 );
m_widget_ramming_line_width_multiplicator = new SpinInput(this, wxEmptyString, "%" , wxDefaultPosition, wxSize(scale(120), -1), wxSP_ARROW_KEYS, 10, 200 , 100 );
m_widget_ramming_step_multiplicator = new SpinInput(this, wxEmptyString, "%" , wxDefaultPosition, wxSize(scale(120), -1), wxSP_ARROW_KEYS, 10, 200 , 100 );
auto add_title = [this, sizer_param](wxString label){
auto title = new StaticLine(this, 0, label);

30
src/slic3r/GUI/calib_dlg.cpp
View file

@ -306,7 +306,7 @@ Temp_Calibration_Dlg::Temp_Calibration_Dlg(wxWindow* parent, wxWindowID id, Plat
// start temp
auto start_temp_sizer = new wxBoxSizer(wxHORIZONTAL);
auto start_temp_text = new wxStaticText(this, wxID_ANY, start_temp_str, wxDefaultPosition, st_size, wxALIGN_LEFT);
m_tiStart = new TextInput(this, std::to_string(230), _L("\u2103"), "", wxDefaultPosition, ti_size);
m_tiStart = new TextInput(this, std::to_string(230), "\u2103" /* °C */, "", wxDefaultPosition, ti_size);
m_tiStart->GetTextCtrl()->SetValidator(wxTextValidator(wxFILTER_NUMERIC));
start_temp_sizer->Add(start_temp_text, 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
start_temp_sizer->Add(m_tiStart , 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
@ -315,7 +315,7 @@ Temp_Calibration_Dlg::Temp_Calibration_Dlg(wxWindow* parent, wxWindowID id, Plat
// end temp
auto end_temp_sizer = new wxBoxSizer(wxHORIZONTAL);
auto end_temp_text = new wxStaticText(this, wxID_ANY, end_temp_str, wxDefaultPosition, st_size, wxALIGN_LEFT);
m_tiEnd = new TextInput(this, std::to_string(190), _L("\u2103"), "", wxDefaultPosition, ti_size);
m_tiEnd = new TextInput(this, std::to_string(190), "\u2103" /* °C */, "", wxDefaultPosition, ti_size);
m_tiStart->GetTextCtrl()->SetValidator(wxTextValidator(wxFILTER_NUMERIC));
end_temp_sizer->Add(end_temp_text, 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
end_temp_sizer->Add(m_tiEnd , 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
@ -324,7 +324,7 @@ Temp_Calibration_Dlg::Temp_Calibration_Dlg(wxWindow* parent, wxWindowID id, Plat
// temp step
auto temp_step_sizer = new wxBoxSizer(wxHORIZONTAL);
auto temp_step_text = new wxStaticText(this, wxID_ANY, temp_step_str, wxDefaultPosition, st_size, wxALIGN_LEFT);
m_tiStep = new TextInput(this, wxString::FromDouble(5),_L("\u2103"), "", wxDefaultPosition, ti_size);
m_tiStep = new TextInput(this, wxString::FromDouble(5),"\u2103" /* °C */, "", wxDefaultPosition, ti_size);
m_tiStart->GetTextCtrl()->SetValidator(wxTextValidator(wxFILTER_NUMERIC));
m_tiStep->Enable(false);
temp_step_sizer->Add(temp_step_text, 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
@ -353,7 +353,7 @@ Temp_Calibration_Dlg::Temp_Calibration_Dlg(wxWindow* parent, wxWindowID id, Plat
if(!ti->GetTextCtrl()->GetValue().ToULong(&t))
return;
if(t> 350 || t < 170){
MessageDialog msg_dlg(nullptr, wxString::Format(L"Supported range: 170%s - 350%s",_L("\u2103"),_L("\u2103")), wxEmptyString, wxICON_WARNING | wxOK);
MessageDialog msg_dlg(nullptr, wxString::Format(L"Supported range: 170%s - 350%s","\u2103" /* °C */,"\u2103" /* °C */), wxEmptyString, wxICON_WARNING | wxOK);
msg_dlg.ShowModal();
if(t > 350)
t = 350;
@ -479,7 +479,7 @@ MaxVolumetricSpeed_Test_Dlg::MaxVolumetricSpeed_Test_Dlg(wxWindow* parent, wxWin
// start vol
auto start_vol_sizer = new wxBoxSizer(wxHORIZONTAL);
auto start_vol_text = new wxStaticText(this, wxID_ANY, start_vol_str, wxDefaultPosition, st_size, wxALIGN_LEFT);
m_tiStart = new TextInput(this, std::to_string(5), _L("mm³/s"), "", wxDefaultPosition, ti_size);
m_tiStart = new TextInput(this, std::to_string(5), "mm³/s", "", wxDefaultPosition, ti_size);
m_tiStart->GetTextCtrl()->SetValidator(wxTextValidator(wxFILTER_NUMERIC));
start_vol_sizer->Add(start_vol_text, 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
@ -489,7 +489,7 @@ MaxVolumetricSpeed_Test_Dlg::MaxVolumetricSpeed_Test_Dlg(wxWindow* parent, wxWin
// end vol
auto end_vol_sizer = new wxBoxSizer(wxHORIZONTAL);
auto end_vol_text = new wxStaticText(this, wxID_ANY, end_vol_str, wxDefaultPosition, st_size, wxALIGN_LEFT);
m_tiEnd = new TextInput(this, std::to_string(20), _L("mm³/s"), "", wxDefaultPosition, ti_size);
m_tiEnd = new TextInput(this, std::to_string(20), "mm³/s", "", wxDefaultPosition, ti_size);
m_tiStart->GetTextCtrl()->SetValidator(wxTextValidator(wxFILTER_NUMERIC));
end_vol_sizer->Add(end_vol_text, 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
end_vol_sizer->Add(m_tiEnd , 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
@ -498,7 +498,7 @@ MaxVolumetricSpeed_Test_Dlg::MaxVolumetricSpeed_Test_Dlg(wxWindow* parent, wxWin
// vol step
auto vol_step_sizer = new wxBoxSizer(wxHORIZONTAL);
auto vol_step_text = new wxStaticText(this, wxID_ANY, vol_step_str, wxDefaultPosition, st_size, wxALIGN_LEFT);
m_tiStep = new TextInput(this, wxString::FromDouble(0.5), _L("mm³/s"), "", wxDefaultPosition, ti_size);
m_tiStep = new TextInput(this, wxString::FromDouble(0.5), "mm³/s", "", wxDefaultPosition, ti_size);
m_tiStart->GetTextCtrl()->SetValidator(wxTextValidator(wxFILTER_NUMERIC));
vol_step_sizer->Add(vol_step_text, 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
vol_step_sizer->Add(m_tiStep , 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
@ -578,7 +578,7 @@ VFA_Test_Dlg::VFA_Test_Dlg(wxWindow* parent, wxWindowID id, Plater* plater)
// start vol
auto start_vol_sizer = new wxBoxSizer(wxHORIZONTAL);
auto start_vol_text = new wxStaticText(this, wxID_ANY, start_str, wxDefaultPosition, st_size, wxALIGN_LEFT);
m_tiStart = new TextInput(this, std::to_string(40), _L("mm/s"), "", wxDefaultPosition, ti_size);
m_tiStart = new TextInput(this, std::to_string(40), "mm/s", "", wxDefaultPosition, ti_size);
m_tiStart->GetTextCtrl()->SetValidator(wxTextValidator(wxFILTER_NUMERIC));
start_vol_sizer->Add(start_vol_text, 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
@ -588,7 +588,7 @@ VFA_Test_Dlg::VFA_Test_Dlg(wxWindow* parent, wxWindowID id, Plater* plater)
// end vol
auto end_vol_sizer = new wxBoxSizer(wxHORIZONTAL);
auto end_vol_text = new wxStaticText(this, wxID_ANY, end_vol_str, wxDefaultPosition, st_size, wxALIGN_LEFT);
m_tiEnd = new TextInput(this, std::to_string(200), _L("mm/s"), "", wxDefaultPosition, ti_size);
m_tiEnd = new TextInput(this, std::to_string(200), "mm/s", "", wxDefaultPosition, ti_size);
m_tiStart->GetTextCtrl()->SetValidator(wxTextValidator(wxFILTER_NUMERIC));
end_vol_sizer->Add(end_vol_text, 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
end_vol_sizer->Add(m_tiEnd , 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
@ -597,7 +597,7 @@ VFA_Test_Dlg::VFA_Test_Dlg(wxWindow* parent, wxWindowID id, Plater* plater)
// vol step
auto vol_step_sizer = new wxBoxSizer(wxHORIZONTAL);
auto vol_step_text = new wxStaticText(this, wxID_ANY, vol_step_str, wxDefaultPosition, st_size, wxALIGN_LEFT);
m_tiStep = new TextInput(this, wxString::FromDouble(10), _L("mm/s"), "", wxDefaultPosition, ti_size);
m_tiStep = new TextInput(this, wxString::FromDouble(10), "mm/s", "", wxDefaultPosition, ti_size);
m_tiStart->GetTextCtrl()->SetValidator(wxTextValidator(wxFILTER_NUMERIC));
vol_step_sizer->Add(vol_step_text, 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
vol_step_sizer->Add(m_tiStep , 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
@ -680,7 +680,7 @@ Retraction_Test_Dlg::Retraction_Test_Dlg(wxWindow* parent, wxWindowID id, Plater
// start length
auto start_length_sizer = new wxBoxSizer(wxHORIZONTAL);
auto start_length_text = new wxStaticText(this, wxID_ANY, start_length_str, wxDefaultPosition, st_size, wxALIGN_LEFT);
m_tiStart = new TextInput(this, std::to_string(0), _L("mm"), "", wxDefaultPosition, ti_size);
m_tiStart = new TextInput(this, std::to_string(0), "mm", "", wxDefaultPosition, ti_size);
m_tiStart->GetTextCtrl()->SetValidator(wxTextValidator(wxFILTER_NUMERIC));
start_length_sizer->Add(start_length_text, 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
@ -690,7 +690,7 @@ Retraction_Test_Dlg::Retraction_Test_Dlg(wxWindow* parent, wxWindowID id, Plater
// end length
auto end_length_sizer = new wxBoxSizer(wxHORIZONTAL);
auto end_length_text = new wxStaticText(this, wxID_ANY, end_length_str, wxDefaultPosition, st_size, wxALIGN_LEFT);
m_tiEnd = new TextInput(this, std::to_string(2), _L("mm"), "", wxDefaultPosition, ti_size);
m_tiEnd = new TextInput(this, std::to_string(2), "mm", "", wxDefaultPosition, ti_size);
m_tiStart->GetTextCtrl()->SetValidator(wxTextValidator(wxFILTER_NUMERIC));
end_length_sizer->Add(end_length_text, 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
end_length_sizer->Add(m_tiEnd , 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
@ -699,7 +699,7 @@ Retraction_Test_Dlg::Retraction_Test_Dlg(wxWindow* parent, wxWindowID id, Plater
// length step
auto length_step_sizer = new wxBoxSizer(wxHORIZONTAL);
auto length_step_text = new wxStaticText(this, wxID_ANY, length_step_str, wxDefaultPosition, st_size, wxALIGN_LEFT);
m_tiStep = new TextInput(this, wxString::FromDouble(0.1), _L("mm"), "", wxDefaultPosition, ti_size);
m_tiStep = new TextInput(this, wxString::FromDouble(0.1), "mm", "", wxDefaultPosition, ti_size);
m_tiStart->GetTextCtrl()->SetValidator(wxTextValidator(wxFILTER_NUMERIC));
length_step_sizer->Add(length_step_text, 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
length_step_sizer->Add(m_tiStep , 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
@ -1043,7 +1043,7 @@ Junction_Deviation_Test_Dlg::Junction_Deviation_Test_Dlg(wxWindow* parent, wxWin
// Start junction deviation
auto start_jd_sizer = new wxBoxSizer(wxHORIZONTAL);
auto start_jd_text = new wxStaticText(this, wxID_ANY, start_jd_str, wxDefaultPosition, st_size, wxALIGN_LEFT);
m_tiJDStart = new TextInput(this, wxString::Format("%.3f", 0.000), _L("mm"), "", wxDefaultPosition, ti_size);
m_tiJDStart = new TextInput(this, wxString::Format("%.3f", 0.000), "mm", "", wxDefaultPosition, ti_size);
m_tiJDStart->GetTextCtrl()->SetValidator(wxTextValidator(wxFILTER_NUMERIC));
start_jd_sizer->Add(start_jd_text, 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
start_jd_sizer->Add(m_tiJDStart , 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
@ -1052,7 +1052,7 @@ Junction_Deviation_Test_Dlg::Junction_Deviation_Test_Dlg(wxWindow* parent, wxWin
// End junction deviation
auto end_jd_sizer = new wxBoxSizer(wxHORIZONTAL);
auto end_jd_text = new wxStaticText(this, wxID_ANY, end_jd_str, wxDefaultPosition, st_size, wxALIGN_LEFT);
m_tiJDEnd = new TextInput(this, wxString::Format("%.3f", 0.250), _L("mm"), "", wxDefaultPosition, ti_size);
m_tiJDEnd = new TextInput(this, wxString::Format("%.3f", 0.250), "mm", "", wxDefaultPosition, ti_size);
m_tiJDEnd->GetTextCtrl()->SetValidator(wxTextValidator(wxFILTER_NUMERIC));
end_jd_sizer->Add(end_jd_text, 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));
end_jd_sizer->Add(m_tiJDEnd , 0, wxALL | wxALIGN_CENTER_VERTICAL, FromDIP(2));