Macro Testo Circolare
Descrizione |
---|
La nuova GUI della versione modificata per l'HD dpi (QGridLayout) esegue solo la versione FC 0.18 e successive (PySide2 Qt5) Per la versione precedente vedere FCCircularText and install it manually. Questa macro crea un testo intorno ad un cilindro. Ultima Versione=0.14 Date=2019/04/27 Download the toolBar icon Versione macro: 0.16d Ultima modifica: 2020/09/15 Versione FreeCAD: 0.18 è più Download: ToolBar Icon Autore: Mario52 |
Autore |
Mario52 |
Download |
ToolBar Icon |
Link |
Raccolta di macro Come installare le macro Personalizzare la toolbar |
Versione macro |
0.16d |
Data ultima modifica |
2020/09/15 |
Versioni di FreeCAD |
0.18 è più |
Scorciatoia |
Nessuna |
Vedere anche |
Nessuno |
Descrizione
Questa macro usa Draft ShapeString è scrive un testo, in piedi o coricato, circonferenziale o elicoidale nel modo di Trajan Column e crea un orologio con numeri arabi 1 2 3 ... o Romani I II III ... (ispirata a Macro to Create Clock Face) FC community member, cblt2l.
Temporary code for external macro link. Do not use this code. This code is used exclusively by Addon Manager. Link for optional manual installation: Macro
# This code is copied instead of the original macro code # to guide the user to the online download page. # Use it if the code of the macro is larger than 64 KB and cannot be included in the wiki # or if the RAW code URL is somewhere else in the wiki. from PySide import QtGui, QtCore diag = QtGui.QMessageBox(QtGui.QMessageBox.Information, "Information", "This macro must be downloaded from this link\n" "\n" "https://gist.githubusercontent.com/mario52a/a25e802498bae6959335/raw/626d0fb54429687c14e4c613cf837f8ca8ad304e/Macro_FCCircularText.FCMacro" + "\n" "\n" "Quit this window to access the download page") diag.setWindowFlags(QtCore.Qt.WindowStaysOnTopHint) diag.setWindowModality(QtCore.Qt.ApplicationModal) diag.exec_() import webbrowser webbrowser.open("https://gist.githubusercontent.com/mario52a/a25e802498bae6959335/raw/626d0fb54429687c14e4c613cf837f8ca8ad304e/Macro_FCCircularText.FCMacro")
Esempio di macro che mostra il testo con un orientamento a 360 gradi
Utilizzo
Usare la macro FcString per creare dei caratteri e il file FcClock per creare degli orologi.
Tutti i caratteri sono e rimangono indipendenti. Quando si creano le estrusioni non viene eliminato nulla. Se viene creato un Compound (oggetto Composto) con Run Comp esso viene copiato in una nuova cartella.
Di default le opzioni sono disattivate e si attivano quando si seleziona una delle funzioni:
Fatta eccezione per la casella Z di Placement per Clock che è attiva e che sposta il testo lungo l'asse Z per consentire posizionare il testo sulla superficie di appoggio.
Nota
Le opzioni che sono facoltative per la funzione selezionata sono inattive e quindi non utilizzabili.
L'interfaccia grafica di Circular Text
Panoramica
Prima sezione
- La finestra di editazione del testo che consente di inserire il testo da visualizzare (cliccando su Reset, nella finestra del titolo si può vedere quanti caratteri contiene la stringa di input)
- Il pulsante Reverse serve per invertire il testo
- LineEdit : visualizza il percorso e il nome del font del file
- Il Help visualizza la pagina wiki nel browser FreeCAD
- ComboView per il font scelto
- ARIAL.TTF è il font di default
Opzioni disponibili
Dopo il primo utilizzo, è possibile modificare i parametri vedere:
User parameter:BaseApp/Preferences/Macros/FCMmacros/FCCircularText
switchModeTextList
- 0 = modalità testo normale (e nero) chiude switchFontComBox
- 1 = consente switchFontComBox 1
switchFontComBox
- 0 = (e switchModeTextList = 1) modalità testo (a colori) nell'elenco ComboBox, più veloce
- 1 = (e switchModeTextList = 1) font ComboBoxst più lento ma più bello!
setSystemFonts
- 0 = matplotlib.font_manager.findSystemFonts ("C:/", "ttf")
- fare tutti i caratteri (in tutte le cartelle e sottocartelle del DD) tempo !!
- 1 = fontman.findSystemFonts (self.pathFont)
- esegue tutti i caratteri nella directory (e in tutte le sottocartelle)
seTtextAlignement
- 0 = AlignLeft (default)
- 1 = AlignCenter
- 2 = AlignRight
setFontByDefault
- Font impostazione predefinita (ultimo utilizzato)
switchResetFALSE
- 0 = reset (predefinito)
- 1 = nessun reset (sconsigliato) alcuni switch possono rimanere aperti o chiusi inaspettatamente!
Esempio
- switchModeTextList=
false
- switchFontComBox =
false
- setSystemFonts =
false
- seTtextAlignement = 0
- switchModeTextList=
true
- switchFontComBox =
false
- setSystemFonts =
false
- seTtextAlignement = 0
- switchModeTextList=
true
- switchFontComBox =
false
- setSystemFonts =
false
- seTtextAlignement = 1 (0=Left, 1=Centered, 2=Right)
- switchModeTextList=
true
- switchFontComBox =
true
- setSystemFonts =
false
- seTtextAlignement = 1
Seconda sezione
Configurare i caratteri in FCCircularText
Prima zona
Scegliere:
-
Outdoor esterno
-
Indoor interno
-
Helix elicoidale
-
Clock orologio
- Mode Stand o Mode Flat : Il testo può essere messo in piedi o coricato e le opzioni Outdoor e Indoor indicano se è rivolto verso l'esterno o verso l'interno .
-
Mode Stand Outdoor Il testo è disposto verticale, leggibile dall'esterno.
-
Mode Flat Outdoor Il testo è posizionato orizzontale, leggibile dall'esterno.
-
Mode Flat Indoor Il testo è orizzontale, leggibile dall'interno.
-
Mode Stand Indoor Il testo è verticale, leggibile dall'interno.
Seconda zona
Questa sezione permette di configurare il comportamento complessivo dei caratteri in tutte le scelte disponibili, ma con qualche variazione. I comandi non utilizzabili con l'opzione scelta sono visualizzati in grigio.
- 10.0 mm Radius of circle : Raggio del cerchio. (Default 10)
- 2.0 mm Size character : Altezza del carattere. (Default 2)
- 0 deg Begin angle : Angolo a cui posizionare il primo carattere. (Default 0 °)
- 360 deg End angle : Angolo a cui posizionare l'ultimo carattere. (Default 360)
- 10.0 deg Correction angle : Angolo di correzione per rendere il carattere tangente al cerchio. (Default 10 °)
- 0.15 mm Correction radius: Corregge il raggio del cerchio dei caratteri (optional). (Default 0.15)
- Extrude Char : Estrusione dei caratteri. (di default è disattivato)
- Placement : Posizione del testo nella vista 3D. (di default è disattivato)
- Sp. inclination : Inclinazione del testo rispetto agli assi X, Y e Z (ad esempio per scrivere su un cono). (di default è disattivato)
Outdoor
Modo di default. Il testo viene scritto all'esterno della circonferenza del cerchio.
-
Outdoor
-
-
Indoor
Il testo viene scritto all'interno della circonferenza del cerchio
-
Indoor
-
-
Helix
Il testo viene inserito all'esterno di un'elica.
-
Helix
-
-
- Tutte le opzioni di configurazione dei caratteri sono disponibili.
- Step of helix passo dell'elica
- Char. per turn numero di caratteri per ogni spira dell'elica.
- Se Step of helix (passo dell'elica) è zero, i campi Base Helix e End Helix sono attivi.
- Base Helix fornisce la base per iniziare l'elica (anche Placement Z). Se 'Placement Z' è diverso da zero, il punto di partenza viene aggiunto a Placement Z.
- End Helix Fine di passo dell'elica che è calcolato rispetto all'altezza e al numero di caratteri per spira.
Orologio
Le figure sono parte di un cerchio con numeri arabi o romani.
-
Clock
-
Axial
-
Redress
- Quando si seleziona l'orologio, diventano utilizzabili le seguenti funzioni:
- Angolo iniziale.
- Angolo finale.
- Angolo di correzione.
- Correzione del raggio.
- I pulsanti Mode Stand o Mode Flat.
- L'area Clock è attiva.
- Radius of support : Se viene dato un valore, viene creato un supporto (default 0).
- Se Support number face è diverso da zero viene creato un supporto. Se Extrude support = zero viene creata una faccia.
- 1 = Viene creato un cerchio. Appare un cerchio.
- 2 = Viene creato un rettangolo. Lunghezza = (Radius of media * 1.5) width = Radius of support. Appare un rettangolo.
- 3 = Viene creato un triangolo circoscritto. Appare un triangolo.
- 4 = Viene creato un quadrato, raggio del supporto. Appare un quadrato.
- 5 = Viene creato un poligono circoscritto con il numero di facce indicate. Appare un poligono.
- Extrude support viene attivato e si può fornire una dimensione di estrusione.
- Se Support number face è uguale a zero non c'è il supporto.
- Mode Roman : La scrittura è in cifre romane I II III IIII V VI VII VIII IX X XI XII
- Axial : I dati sono scritti assialmente.
Path section
The title section change and display the length of the wire selected.
If you select one wire, arc, circle, line and edge the section Path is coloured in green and the unused command coloured in red
- Orthogonal the character is Orthogonal to the view
- Tangent the character is Tangent to point path on wire
- BB Base the point base of the character is to point path on the wire
- BB Center the bounBox center of the character is to point path on the wire
- BB Top the top boundBox of the character is to point path on the wire
the last Radio Button used is saved in the parameter of FreeCAD
Sezione comandi
- Exit : Esce dalla macro macro.
- Reset : Ripristina tutti i valori e visualizza il numero di caratteri visualizzati nella finestra.
- Run Comp : Lancia la macro e crea un oggetto Composto da tutti i caratteri.
- Run : Lancia la macro
Parameters available
Certain parameter are available in the parameters of FreeCAD see: Menu → Tools → Edit parameters...
- User parameter: BaseApp/Preferences/Macros/FCMmacros/FCCircularText
switchModeTextList
:false
normal text mode (and black) turns off switchFontComBoxtrue
allow switchFontComBox 1 (default)
switchFontComBox
:false
(and switchModeTextList = 1) text mode (in color) in Faster ComboBox list (default)true
(and switchModeTextList = 1) font Family in ComboBox list slower but more beautiful!
setSystemFonts
:false
matplotlib.font_manager.findSystemFonts ("C: /", "ttf") do all fonts (in all folders and subfolders of the HD) time !!true
fontman.findSystemFonts (self.pathFont)
make all the fonts in the directory (and in all the subfolders) (default)
seTtextAlignement
: 0 = AlignLeft (default) 1 = AlignCenter 2 = AlignRightsetFontByDefault
: Font by Default (the last used)switchResetFALSE
:false
reset (default),true
no reset (not recommended) some switches can stay open or close unexpectedly!setPathOrthogonal
:true
false
setPathTangent
:true
false
setPositionBase
:true
false
setPositionCenter
:true
false
setPositionTop
:true
false
switchVersionSearch
:true
false
Version
: FCCircularText version
Usare la macro FcString per creare dei caratteri e il file FcClock per creare degli orologi.
Script
Scaricare lo script da:
L'icona per ill pulsante:
Per maggiori informazioni vedere Personalizzare la barra degli strumenti
Vedi il Codice
Macro_Circular_Text.FCMacro
# -*- coding: utf-8 -*- from __future__ import unicode_literals """ *************************************************************************** * Copyright (c) 2014 2015 2016 2017 2018 2019 2020 <mario52> * * * * This file is a supplement to the FreeCAD CAx development system. * * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU Lesser General Public License (LGPL) * * as published by the Free Software Foundation; either version 2 of * * the License, or (at your option) any later version. * * for detail see the LICENCE text file. * ** ** * Use at your own risk. The author assumes no liability for data loss. * * It is advised to backup your data frequently. * * If you do not trust the software do not use it. * ** ** * This software is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU Library General Public License for more details. * * * * You should have received a copy of the GNU Library General Public * * License along with this macro; if not, write to the Free Software * * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 * * USA * *************************************************************************** * http://www.freecadweb.org/wiki/index.php?title=Macro_FCCircularText * * WARNING! All changes in this file will be lost and * * may cause malfunction of the program * *************************************************************************** """ # FCCircularText.FCMacro # Icon fromTheme FreeCAD # ver 0.14-2 #00.14-4 #00.15 (rmu)#00.16 #0.16b #0.16c #0.16d #0.17 2020/09/26 #0.17b 2020/09/28# # ################################################################################################## #OS: Windows 10 (10.0) #Word size of OS: 64-bit #Word size of FreeCAD: 64-bit #Version: 0.19.22474 (Git) #Build type: Release #Branch: master #Hash: a44f8ffd427fa9b23b1f00dbf62d66cd152cd774 #Python version: 3.6.8 #Qt version: 5.12.1 #Coin version: 4.0.0a #OCC version: 7.3.0 #Locale: French/Mars (fr_MA) ################################################################################################## # __Title__ = "FCCircularText" __Author__ = "Mario52" __Version__ = "0.17b" __Date__ = "2020/09/28" #YYYY/MMM/DD __Comment__ = "This macro creates a text around a cylinder" __Web__ = "https://forum.freecadweb.org/viewtopic.php?f=3&t=7384%22" __Wiki__ = "https://wiki.freecadweb.org/Macro_FCCircularText" __Icon__ = "/usr/lib/freecad/Mod/plugins/icons/FCCircularTextButtom.png" __IconW__ = "C:/Users/YourUserName/AppData/Roaming/FreeCAD/Macro" __Help__ = "start the macro and follow the instructions" __Status__ = "stable" __Requires__ = "freecad 0.19 and higher" __Communication__ = "https://wiki.freecadweb.org/index.php?title=User:Mario52" # import PySide2 from PySide2 import (QtWidgets, QtCore, QtGui) from PySide2.QtWidgets import (QWidget, QApplication, QSlider, QGraphicsView, QGraphicsScene, QVBoxLayout, QStyle) from PySide2.QtGui import (QPainter, QColor, QIcon) from PySide2.QtSvg import * import Draft, Part, FreeCAD, math, PartGui, FreeCADGui from math import sqrt, pi, sin, cos, asin, degrees, radians, tan from FreeCAD import Base import os, time, sys App=FreeCAD Gui=FreeCADGui import WebGui #### Detect version macro ########################################### #26/09/2020 def vesionSearch(): try: import requests contentPage = requests.get("https://wiki.freecadweb.org/Macro_" + __Title__).text versionDetect = dateDetect = "" for i in contentPage.split("\n"): # list page to line if "ctEven macro-version" in i: versionDetect = (i.split(">")[1]) if "ctEven macro-date" in i: dateDetect = (i.split(">")[1]) if (versionDetect != "") and (dateDetect != ""): break try: if (versionDetect == __Version__) and (dateDetect == __Date__): None else: msg = ("New version availlable : " + "\n" + str(versionDetect) + ":" + str(dateDetect) + "\n" + "You can install with AddonManager") FreeCAD.Console.PrintMessage("your actual version : " + str(__Version__) + " : " + str(__Date__) + "\n") FreeCAD.Console.PrintMessage("new version availlable : " + str(versionDetect) + " : " + str(dateDetect) + "\n") diag = QtWidgets.QMessageBox(QtWidgets.QMessageBox.Information, 'New Version', msg) diag.setWindowModality(QtCore.Qt.ApplicationModal) diag.exec_() except Exception: None return versionDetect, dateDetect except Exception: FreeCAD.Console.PrintError("Not search version not connected for testing" + "\n") ## ## global switchVersionSearch; switchVersionSearch = 0 # Search version switchable in # Tools/Edit parameter/BaseApp/Preferences/Macros/FCMmacros/FCCircularText switchVersionSearch = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).GetBool("switchVersionSearch") if switchVersionSearch == 1: vesionSearch() #### Detect version macro ########################################### import sys,traceback def sayexc(mess=''): exc_type, exc_value, exc_traceback = sys.exc_info() ttt=repr(traceback.format_exception(exc_type, exc_value,exc_traceback)) lls=eval(ttt) l=len(lls) l2=lls[(l-3):] FreeCAD.Console.PrintError(mess + "\n" +"--> ".join(l2)) import platform global verPython ; verPython = sys.version_info class ConfigManager(): def __init__(self,name): self.name="Plugins/"+name def get(self,param,default,defaultWindows=None,defaultMac=None): global verPython os=platform.system() #os='Linux' #os='Windows' #os='Darwin' v=False if not defaultWindows: defaultWindows=default if not defaultMac: defaultMac=default if os =='Windows' : default= defaultWindows if os =='Darwin' : default= defaultMac if verPython.major < 3: if default.__class__ == unicode: default=str(default) # return unicode(encoder).encode('iso-8859-1') else: # encoder = str(encoder) # return encoder None if default.__class__ == int: v=FreeCAD.ParamGet('User parameter:'+self.name).GetInt(param) if not v: FreeCAD.ParamGet('User parameter:'+self.name).SetInt(param,default) if default.__class__ == float: v=FreeCAD.ParamGet('User parameter:'+self.name).GetFloat(param) if not v: FreeCAD.ParamGet('User parameter:'+self.name).SetFloat(param,default) if default.__class__ == str: v=FreeCAD.ParamGet('User parameter:'+self.name).GetString(param) if not v: FreeCAD.ParamGet('User parameter:'+self.name).SetString(param,default) if default.__class__ == bool: v=FreeCAD.ParamGet('User parameter:'+self.name).GetBool(param) if not v: FreeCAD.ParamGet('User parameter:'+self.name).SetBool(param,default) if not v: v=default return v global ui ;ui = "" global s ;s = "" global points ;points = 0.0 global coor_X ;coor_X = 0.0 global coor_Y ;coor_Y = 0.0 global coor_Z ;coor_Z = 0.0 global vec ;vec = 0 global PolicePath cm=ConfigManager("circular text") PolicePath=cm.get("PolicePath","/usr/share/fonts/","C:/Windows/Fonts/ARIAL.TTF","/Library/Fonts/Arial.ttf") import FreeCADGui Gui=FreeCADGui global rayon ;rayon = 10.0 # radius global texte ;texte = "FreeCAD the best" #FreeCad The Best your text global debut ;debut = 0 # begin text global rotation ;rotation = 360 # must exceed the number of characters of text global SizeCaractere ;SizeCaractere = 2.0 # size font global precision ;precision = 0.0 global correctionAngle ;correctionAngle = 10.0 global correctionRayon ;correctionRayon = 0.15 global debout ;debout = 1 # 1=stand 0=flat global exterieur ;exterieur = 1 # 1=exteral 0=internal global baseHelix ;baseHelix = 0.0 # base of helix global endHelix ;endHelix = 0.0 # end of helix (heigth) global pasHelix ;pasHelix = 2.0 # Pas of helix global nombreCarParTour ;nombreCarParTour= 10 # number char by Pas global PivotCharachter ;PivotCharachter = 0.0 # pivot character sur lui meme global PlacementX ;PlacementX = 0.0 # Placement character axis X global PlacementY ;PlacementY = 0.0 # Placement characher axis Y global PlacementZ ;PlacementZ = 0.0 # Placement characher axis Z global inclinaisonX ;inclinaisonX = 0 # inclination character axis X global inclinaisonY ;inclinaisonY = 0 # inclination character axis Y global inclinaisonZ ;inclinaisonZ = 0 # inclination character axis Z + correctionAngle global cercleClock ;cercleClock = rayon # diameter support clock global nombreFaces ;nombreFaces = 0 # number Faces of support 0=none 1=circle 2=rectangle 3=triangle 4,5 ... polygon global romain ;romain = 0 # number roman or arabic global redressement ;redressement = 0 # character V or circular global comP ;comP = "" # contener global nameL ;nameL = "" # contener global epaisseur ;epaisseur = 0.0 # epaisseur extrusion character global epaisSupp ;epaisSupp = 0.0 # epaisseur extrusion support global compount1 ;compount1 = 0 # cree un compose des caracteres # pointColor global red ;red = 1.0 # 1 = 255 [ color num x = (1/255)*x ] global green ;green = 0.0 # global blue ;blue = 0.0 # #path################################################################# global path # #path = FreeCAD.ConfigGet("AppHomePath") # path FreeCAD installation #path = FreeCAD.ConfigGet("UserAppData") # path FreeCAD User data #path = "your path" # your directory path param = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macro") # macro path path = param.GetString("MacroPath","") + "/" # macro path path = path.replace("\\","/") # convert the "\" to "/" #FreeCAD.Console.PrintMessage( "Path for the icons : " + path + "\n")# ###################################################################### indoorIcon = [ "60 46 9 1", " c None", ". c #6F2322", "+ c #343433", "@ c #CE1416", "# c #3E3E6E", "$ c #5C5A58", "% c #5D5C85", "& c #7A7B99", "* c #8E8DA5", "************************************************************", "************************************************************", "************************************************************", "************************************************************", "************************************************************", "********************************++++++++++++****************", "***************************+++++$$$$$$$$$$$$++**************", "************************+++$$$$$$$$$$$$$$$$$$$++************", "**********************++$$$$$$$$$$$$$$$$$$$$$$$$++**********", "*******************+++$$$$$$$$$$$$$$$$$$$$$$$$$$$$+*********", "******************++$$$$$$$$$$$$$++++$$$$$$$$$$$$$$+********", "****************++$$$$$$$$$$+++++$$$$+++++$$$$$$$$$+********", "***************+$$$$$$$$++++$$$$$$$@@@$$$$++$$$$$+++********", "*************++$$$$$$$$+$$$$$@@@$$$@$$$$$$$$+$$$+$$+********", "************+$$$$$$$$++$$$$$$@$$$$$@$$$$$$@@$+++$$$$+*******", "***********+$$$$$$$$+$$@@@$$$@@@$$$@$$$$$@@@$+$$$$$$+*******", "**********+$$$$$$$$+$$$@$$$$$@$$$$$@@@$$$@$@$+$$$$$$+*******", "*********+$$$$$$$$+$$$$@@@$$$@@@$$$$+++++@@@$++$$$$$+*******", "********+$$$$$$$$+$$$$$@$$$$$$$$$+++****@@*@+@@@$$$+********", "*******+$$$$$$$$+$@@@$$@@@$$$++++************@*@@++*********", "******+$$$$$$$$+$$@$@.$$$$$++****************@**@***********", "******+$$$$$$$$+$$@@@$$$$++******************@@*@***********", "*****+$$$$$$$$++$$@$@.$++********************@@@@***********", "*****+$$$$$$$$++$$@$$@+*************************************", "*****+$$$$$$++$$$$$$+***************************************", "****+$$$$$$$+$$$$$++****************************************", "****+$$$$$$$+$@@@.+*****************************************", "****+$$$$$$$+$@$$+******************************************", "****+$$$$$$$+$@@@+******************************************", "****+$$$$$$$$.@$+*******************************************", "****+$$$$$$$$.@$+*******************************************", "****+$$$$$$$++$$+*******************************************", "****+$$$$$$+++$$+*******************************************", "*****+$$$++$$$+$+*******************************************", "*****+$++$$$$$+$+*******************************************", "******+$$$$$$$+++*******************************************", "*******+$$$$$$$++*******************************************", "*******+$$$$$$$+********************************************", "********+$$$$$$+********************************************", "********+$$$$++*********************************************", "********++$++***********************************************", "*********++*************************************************", "************************************************************", "************************************************************", "************************************************************", "************************************************************"] helpIcon = [ "24 24 4 1", " c None", ". c #016AC5", "+ c #F8F8FF", "@ c #FFFFFF", "........................", ".++++++++++++++++++++++.", ".++++++++++++++++++++++.", ".++..................++.", ".++..................++.", ".++......@@@@@@......++.", ".++.....@@@@@@@@.....++.", ".++.....@@@..@@@.....++.", ".++.....@@....@@.....++.", ".++.....@@....@@.....++.", ".++...........@@.....++.", ".++..........@@@.....++.", ".++.........@@@......++.", ".++........@@@.......++.", ".++........@@........++.", ".++........@@........++.", ".++..................++.", ".++........@@........++.", ".++........@@........++.", ".++..................++.", ".++..................++.", ".++++++++++++++++++++++.", ".++++++++++++++++++++++.", "........................"] executeIcon = [ "24 24 3 1", " c None", ". c #4E9A06", "+ c #FFFFFF", " ", " ", " ", " . ", " .+. ", " .+.+. ", " .+...+. ", " .+.....+. ", " . .+.......+.", " .+. .+.......+. ", " .+.+. .+.......+. ", " .+...+. .+.......+. ", " .+.....+.+.......+. ", ".+.......+.......+. ", " .+.............+. ", " .+...........+. ", " .+.........+. ", " .+.......+. ", " .+.....+. ", " .+...+. ", " .+.+. ", " .+. ", " . ", " "] quitIcon = [ "24 24 3 1", " c None", ". c #FFFFFF", "+ c #CC0000", " .... ", "++++++++++....++++++++++", "+.......++....++.......+", "+.......++....++.......+", "+.......++....++.......+", "+...++++++....++++++...+", "+...++++++....++++++...+", "+...+++++......+++++...+", "+...+++++......+++++...+", "+...+++++......+++++...+", "+...+++++......+++++...+", "+...+++++......+++++...+", "+...+++++......+++++...+", "+...++++++++++++++++...+", "+...++++++++++++++++...+", "+...++++++++++++++++...+", "+...++++++++++++++++...+", "+...++++++++++++++++...+", "+...++++++++++++++++...+", "+...++++++++++++++++...+", "+......................+", "+......................+", "+......................+", "++++++++++++++++++++++++"] resetIcon = [ "24 24 3 1", " c None", ". c #3465A4", "+ c #888A85", " ", " ........ ", " .++++++++. ", " .++..+....+. ..... ", " .+.. .+....+. .+++. ", " .+. .+....+..+.+. ", " ... .+....+.+.+. ", " .+....+..+. ", " .+......+. ", " .+.....+. ", " .+....+. ", " ...... .+...+. ", " .++++. .++++. ", " .+...+. ...... ", " .+....+. ", " .+.....+. ", " .+......+. ", " .+..+....+. ", " .+.+.+....+. ... ", " .+.+..+....+. .+. ", " .+++. .+....+. ..+. ", " ..... .+....+..++. ", " .++++++++. ", " ........ "] standIcon = [ "16 16 9 1", " c None", ". c #010400", "+ c #28090D", "@ c #4C0000", "# c #770000", "$ c #AE0000", "% c #262826", "& c #CB0000", "* c #FD0705", "*********** ", "*********** ", "** *** ** ", "** *...........", " *...........", " *.. ... ..", " *** ... ", " *** ... ", " *** ... ", " *** ... ", " *** ... ", " ***** ... ", " ... ", " ... ", " ..... ", " "] flatIcon = [ "16 16 9 1", " c None", ". c #020400", "+ c #2B0500", "@ c #620502", "# c #770301", "$ c #970300", "% c #B40100", "& c #E60002", "* c #FE0004", " ", " ", " ", " ", " ** . ", " *** ... ", " ** ... ", " *** .. ", " *** .. ", " ****&#... ", " *****$+.....% ", " ** &.+%@...@. ", " ** ..#*&%@....", "**** ... *&$...", " *** .. ** ..", " ."] romanIcon = [ "16 16 5 1", " c None", ". c #FD9806", "+ c #FD9904", "@ c #FD9905", "# c #FD9906", " ", " ", " @@ ", " @@@@@ ", " @@@@@ @@ ", " @@@@ @@ @@ ", "@@ @@ @@ @@ ", "@@@ @@ @@ @@ ", " @@@@ @@ @@ ", " +@@ @@ @@ ", " #@@@ @ @@@", " @@ .@@ @@@@ ", " @# @@@@@ ", " +@@@@@ ", " @@ ", " "] arabicIcon = [ "16 16 5 1", " c None", ". c #F6972B", "+ c #F6982B", "@ c #F5972B", "# c #F7982B", " ", " ", " ", " .. ", " .. ..... ", " ... .. ", " . .. ", " .+ .. ", " .+ @. ", " .+ #.... ", " ... ... ", " .... ", " ... ", " ....... ", " ... ", " "] redressIcon = [ "16 16 4 1", " c None", ". c #010400", "+ c #000000", "@ c #FD9905", " ", " ", ".. ..+ ", " . . ", " . ++ .. ", " . + . ", "... ... . ", " . ", " @ ... ", " @ ", " @ @ ..+ ", " @ @ . ", " @@@ .+ ", " @@ . ", " ..+ ", " "] axialIcon = [ "16 16 4 1", " c None", ". c #000000", "+ c #010400", "@ c #FD9905", " ", " ", "++ ++. ", " + + ", " + .. +. ", " + . +. ", "+++ +++ + ", " ++ ", " @ + ", " @ ", " @ @ ", " @ @ + +", " @@@ + + +", " @@ .+.+.", " ", " "] #### matplotlib debut 1/5 ################################################################# #import PySide2 #from PySide2 import (QtWidgets, QtCore, QtGui) #from PySide2.QtWidgets import (QWidget, QApplication, QSlider, QGraphicsView, QGraphicsScene, QVBoxLayout, QStyle) import re import operator from operator import itemgetter #, attrgetter, methodcaller # pour sort setIconTTF = [ "16 16 6 1", " c None", ". c #204A87", "+ c None", "@ c #729FCF", "# c #CC0000", "$ c #EDD400", ".+++++++++++@@@@", ".++++++++@+@++@@", ".++#####++++@@+@", ".+++$#$$$++@+@+@", ".++++#$+++++++@+", ".++++#$#####++++", ".++++#$+$#$$$+++", ".++++#$++#$+++++", ".@++++$++#$+###+", ".@@++++++#$+#$$$", "..@@+++++#$+#$++", "...@@+++++$+###+", "....@@++++++#$$$", ".....@@+++++#$++", "......@@+++++$++", "................"] setIconFON = [ "16 16 6 1", " c None", ". c #204A87", "+ c None", "@ c #F57900", "# c #CC0000", "$ c #EDD400", ".+++++++++++@@@@", ".++++++++@+@++@@", ".++###++++++@@+@", ".++#$$$++++@+@+@", ".++#$+++++++++@+", ".++###+###++++++", ".++#$$$#$#$+++++", ".++#$++#$#$+++++", ".@++$++#$#$##+#+", ".@@++++#$#$##$#$", "..@@+++###$#$##$", "...@@+++$$$#$##$", "....@@+++++#$+#$", ".....@@++++#$+#$", "......@@++++$++$", "................"] setIconOTF = [ "16 16 6 1", " c None", ". c #204A87", "+ c None", "@ c #4E9A06", "# c #CC0000", "$ c #EDD400", ".+++++++++++@@@@", ".++++++++@+@++@@", ".++###++++++@@+@", ".++#$#$++++@+@+@", ".++#$#$+++++++@+", ".++#$#$###++++++", ".++#$#$+#$$+++++", ".++###$+#$++++++", ".@++$$$+#$+###++", ".@@+++++#$+#$$$+", "..@@++++#$+#$+++", "...@@++++$+###++", "....@@+++++#$$$+", ".....@@++++#$+++", "......@@++++$+++", "................"] setIconPOL = [ "16 16 12 1", " c None", ". c #204A87", "+ c None", "@ c #06989A", "# c #73D216", "$ c #000000", "% c #75507B", "& c #729FCF", "* c #CC0000", "= c #F57900", "- c #EDD400", "; c #4E9A06", ".+++++++++++@#$%", ".++++++++$+#++&$", ".++***++++++=@+%", ".++*-*-++++*+&+$", ".++*-*-+++++++*+", ".++***-***++++++", ".++*---*-*-+++++", ".++*-++*-*-+++++", ".$++-++*-*-*++++", ".*@++++*-*-*-+++", "..#*+++***-*-+++", "...;#+++---*-+++", "....%=+++++*-+++", ".....;$++++****+", "......@%++++----", "................"] #import glob #files_TTF = glob.glob(self.pathFont + "/*.TTF") ################################## import matplotlib import matplotlib.font_manager import matplotlib.font_manager as fontman import matplotlib.font_manager as fontconfig from matplotlib.font_manager import FontProperties #from matplotlib.ft2font import FT2Font ################################## #### Config Begin matplotlib font ####################### # # https://en.wikipedia.org/wiki/Web_colors global setColorTTF ; setColorTTF = "blue" # .TTF color by "extension name" or hexa "#0000FF" global setColorFON ; setColorFON = "orange" # .FON color by "extension name" or hexa "#FFA500" global setColorOTF ; setColorOTF = "green" # .OTF color by "extension name" or hexa "#008000" global setColorPOL ; setColorPOL = "black" # .OTHER color by "extension name" or hexa "#000000" ##### global switchModeTextList; switchModeTextList= 1 # 0 = mode text normal (et noir) coupe le switchFontComBox # 1 = permet le switchFontComBox 1 (default) ##### global switchFontComBox ; switchFontComBox = 0 # 0 = (et switchModeTextList= 1) mode texte (en couleur) dans liste ComboBox plus rapide (default) # 1 = (et switchModeTextList= 1) fontFamily dans liste ComboBox plus lent mais plus beau! ##### global setSystemFonts ; setSystemFonts = 1 # 0 = matplotlib.font_manager.findSystemFonts("C:/", "ttf") # fait toutes les fontes (dans tous les dossiers et sous dossiers du DD) time !! # 1 = fontman.findSystemFonts(self.pathFont) # fait toutes les fontes du repertoire (et dans tous les sous dossiers) (default) ##### global seTtextAlignement ; seTtextAlignement = 0 # 0 = AlignLeft (default) # 1 = AlignCenter # 2 = AlignRight ##### global setFontByDefault ; setFontByDefault = "ARIAL" # Font by Default ##### global switchResetFALSE ; switchResetFALSE = 0 # 0 = reset (default) # 1 = pas de reset (non conseille) certains switch peuvent rester ouvert ou fermer inopinement ! ##### #### Config End matplotlib font ######################### global setPathOrthogonal ; setPathOrthogonal = 0 # global setPathTangent ; setPathTangent = 1 # global setPositionBase ; setPositionBase = 1 # global setPositionCenter ; setPositionCenter = 0 # global setPositionTop ; setPositionTop = 0 # #### Config ############################################# def createSpace(texte): # detecte majuscule et ajoute un espace devant la lettre # return createSpace(TexTe) = Tex Te , if createSpace(TEXTE) = TEXTE if texte.isupper(): stringSpace = texte else: try: stringSpace = texte[0] for i in texte[1:]: if re.search(r"[A-Z]", i): i = " " + i stringSpace += i except Exception: stringSpace = texte return stringSpace def family(chaine): # return family(chaine)[1] = Family , family(chaine)[2] = typeCar (form [a, b, c ...] famille = typeCar = "" try: if chaine.find('-') != -1: famille = chaine[:chaine.find('-')] typeCar = chaine[chaine.find('-')+1:] else: famille = chaine typeCar = "" except Exception: famille = chaine typeCar = "" typeCar = str(createSpace(typeCar)).split() return [createSpace(famille), typeCar] class MyLabelPatience(): # fenetre image d'attente de chargement global path label = QtWidgets.QLabel() label.setText("<img src=" + path + "FCCircularTextButtom.png><b><center>Wait please</center> \n\n<center>i search the fonts !\n\n</right></b>") ecran = FreeCADGui.getMainWindow().frameGeometry() xF = 250; yF = 250 xW = (ecran.width()/2) - (xF/2) yW = (ecran.height()/2)- (yF/2) label.setGeometry(xW, yW, xF, yF) label.setStyleSheet("QLabel {background-color : #F0C300;font: 12pt; }"); label.setWindowFlags(PySide2.QtCore.Qt.WindowFlags(PySide2.QtCore.Qt.FramelessWindowHint)) # pas de bords label.setWindowFlags(PySide2.QtCore.Qt.WindowStaysOnTopHint) # PySide cette fonction met la fenetre en avant #### matplotlib fin 1/5 ################################################################# try: _fromUtf8 = QtCore.QString.fromUtf8 except AttributeError: def _fromUtf8(s): return s try: _encoding = QtGui.QApplication.UnicodeUTF8 def _translate(context, text, disambig): return QtGui.QApplication.translate(context, text, disambig, _encoding) except AttributeError: def _translate(context, text, disambig): return QtGui.QApplication.translate(context, text, disambig) class Ui_MainWindow(object): def __init__(self): global path self.path = path #### matplotlib debut 2/5 apres __init__ ################################################################# #### matplotlib font textEdit self.FontTextSize = 20 self.fonteComp = "" self.font = QtGui.QFont() self.tableau = [] #Index (), [chemin plus nom fichier (nomPathPolice), nom sans extension (nomSimple), nomSimpleExt (nomSimple + Ext)] self.index = 0 #Index () #### matplotlib font textEdit def searchFont(self,pathSearch): global PolicePath global setSystemFonts global seTtextAlignement global switchFontComBox global switchModeTextList global setFontByDefault MyLabelPatience.label.show() FreeCADGui.updateGui() # rafraichi l'ecran files_All_Fonts = "" ##https://matplotlib.org/_modules/matplotlib/font_manager.html if setSystemFonts == 0: files_All_Fonts = matplotlib.font_manager.findSystemFonts(pathSearch, "ttf") # fait toutes les fontes ? () else: files_All_Fonts = fontman.findSystemFonts(pathSearch) # fait toutes les fontes (et dans tous les sous dossiers) if len(files_All_Fonts) > 0: self.tableau = [] self.index = 0 for fonte in files_All_Fonts: #### nomPathPolice = nomFichier = nomSimpleExt = nomSimple = nomExtension = nameName = "" nomPathPolice = fonte.replace("\\","/") # convert the "\" to "/" nomFichier = nomPathPolice.split("/") # complet split nomSimpleExt = nomFichier[-1] # nom avec extension nomSimple = nomFichier[-1][:-4] # nom sans extension nomExtension = nomSimpleExt[nomSimpleExt.rfind('.')+1:].upper() # extension #### try: # nameFamily = matplotlib.font_manager.FontProperties(fname=fonte).get_family() ##['sans-serif'] # nameStyle = matplotlib.font_manager.FontProperties(fname=fonte).get_style() #normal # nameVariant = matplotlib.font_manager.FontProperties(fname=fonte).get_variant() #normal # nameWeight = matplotlib.font_manager.FontProperties(fname=fonte).get_weight() #normal # nameStretch = matplotlib.font_manager.FontProperties(fname=fonte).get_stretch() #normal # nameFileComp = matplotlib.font_manager.FontProperties(fname=fonte).get_file() ##c:\windows\fonts\NotoNaskhArabicUI-Regular.ttf # nameSize = matplotlib.font_manager.FontProperties(fname=fonte).get_size() #10.0 nameName = matplotlib.font_manager.FontProperties(fname=fonte).get_name() ##Noto Naskh Arabic UI # nameSizePoint = matplotlib.font_manager.FontProperties(fname=fonte).get_size_in_points() #10.0 # nameSlant = matplotlib.font_manager.FontProperties(fname=fonte).get_slant() #normal # namePattern = matplotlib.font_manager.FontProperties(fname=fonte).get_fontconfig_pattern() #:family=sans-serif:style=normal:variant=normal:weight=normal:stretch=normal:file=c:\windows\fonts\NotoNaskhArabicUI-Regular.ttf:size=10.0 except Exception: nameFamily = nameStyle = nameVariant = nameWeight = nameStretch = nameFileComp = nameSize = nameName = nameSizePoint = nameSlant = namePattern = "" #### if nameName == "" : nameName = nomSimple self.tableau.append([0, nomPathPolice, nomSimple, nomSimpleExt.upper(), nomExtension.upper(), nameName]) self.tableau = sorted(self.tableau, key=itemgetter(3)) # sorted by nomSimple.upper() try: for line in range(len(self.tableau)): # enleve les doubles (bon) if self.tableau[line][2] == self.tableau[line + 1][2]: # enleve les doubles (bon) del(self.tableau[line + 1]) # enleve les doubles (bon) except Exception: None self.comboBoxPy.clear() for line in range(len(self.tableau)): try: self.tableau[line][0] = line # ajoute le numero de ligne if self.tableau[line][2].upper() == setFontByDefault.upper(): # detecte la fonte de base self.index = line PolicePath = self.tableau[line][1] ####Section common color and font begin ###################### model = self.comboBoxPy.model() if switchModeTextList == 1: if self.tableau[line][4] == "TTF": item = QtGui.QStandardItem(QtGui.QPixmap(setIconTTF), str(line)) item.setForeground(QtGui.QColor(setColorTTF)) elif self.tableau[line][4] == "FON": item = QtGui.QStandardItem(QtGui.QPixmap(setIconFON), str(line)) item.setForeground(QtGui.QColor(setColorFON)) elif self.tableau[line][4] == "OTF": item = QtGui.QStandardItem(QtGui.QPixmap(setIconOTF), str(line)) item.setForeground(QtGui.QColor(setColorOTF)) else: item = QtGui.QStandardItem(QtGui.QPixmap(setIconPOL), str(line)) item.setForeground(QtGui.QColor(setColorPOL)) if seTtextAlignement == 0: item.setTextAlignment(QtCore.Qt.AlignLeft) elif seTtextAlignement == 1: item.setTextAlignment(QtCore.Qt.AlignCenter) elif seTtextAlignement == 2: item.setTextAlignment(QtCore.Qt.AlignRight) else: self.comboBoxPy.addItem(self.tableau[line][2]) model.appendRow(item) else: self.comboBoxPy.addItem("") self.comboBoxPy.setItemText(line, self.tableau[line][2]) ####Section item color and font end ########################## ####Section setfont Family switchFontComBox begin############# if (switchFontComBox == 1) and (switchModeTextList == 1): typeCar = font = "" font = QtGui.QFont() #font = item.font() typeCar = family(self.tableau[line][2])[1] font.setBold(False) font.setItalic(False) if len(typeCar) > 0: for option in typeCar: if option == "Bold": font.setBold(True) if (option == "Italic") or (option == "It") or (option == "Slanted"): font.setItalic(True) if option == "Oblique": font.setItalic(True) #'Bold''Regular''Slanted''Italic''Medium''Extra''Light''Condensed''Black''It''Semibold' font.setFamily(self.tableau[line][5]) font.setPixelSize(15) if switchModeTextList == 1: item.setFont(font) else: self.comboBoxPy.addItem("") ####Section setfont Family switchFontComBox end############### except Exception: FreeCAD.Console.PrintMessage("searchFont()" + "\n") None self.lineEdit_NameFile.setText("(" + str(self.index + 1) + "/" + str(len(self.tableau)) + ") " + self.tableau[self.index][1]) self.comboBoxPy.setCurrentIndex(self.index) self.fonteComp = self.tableau[self.index][1] MyLabelPatience.label.close() #### matplotlib fin 2/5 apres __init__ ################################################################# def setupUi(self, MainWindow): self.window = MainWindow global ui global PolicePath global rayon global texte global rotation global SizeCaractere global debout global exterieur global precision global correctionAngle global correctionRayon global baseHelix global endHelix global nombreCarParTour global epaisseur global epaisSupp global setPathOrthogonal global setPathTangent global setPositionBase global setPositionCenter global setPositionTop MainWindow.setObjectName(_fromUtf8("MainWindow")) # MainWindow.resize(360, 400) # MainWindow.setMaximumSize(QtCore.QSize(370, 638)) # MainWindow.setMinimumSize(QtCore.QSize(400, 640)) self.centralWidget = QtWidgets.QWidget(MainWindow) self.centralWidget.setObjectName(_fromUtf8("centralWidget")) self.groupBox_00 = QtWidgets.QGroupBox() self.groupBox_01 = QtWidgets.QGroupBox() # self.groupBox_01.setMaximumHeight(180) #### self.textEdit = QtWidgets.QTextEdit() # self.textEdit.setStyleSheet("background-color: white; color: red; ") self.textEdit.textChanged.connect(self.on_textEdit_Changed) #### self.frame_Option = QtWidgets.QFrame() self.frame_Option.setFrameShape(QtWidgets.QFrame.StyledPanel) self.frame_Option.setFrameShadow(QtWidgets.QFrame.Plain) #Raised) Sunken # self.textEdit.setMaximumHeight(100) self.PB_Reverse = QtWidgets.QPushButton() self.PB_Reverse.clicked.connect(self.on_PB_Reverse) self.CB_Word = QtWidgets.QCheckBox(self.groupBox_01) self.CB_Word.setText(_fromUtf8("Word")) self.CB_Word.clicked.connect(self.on_CB_Word) #### self.PB_Help = QtWidgets.QPushButton(MainWindow) self.PB_Help.setIcon(QtGui.QIcon(QtGui.QPixmap(helpIcon))) # help icone dans une variable self.PB_Help.clicked.connect(self.on_PB_Help_clicked) # help #### matplotlib debut 3/5 setupUi ################################################################# self.lineEdit_NameFile = QtWidgets.QLineEdit() #self.lineEdit_NameFile.returnPressed.connect(self.on_lineEdit_NameFile) self.comboBoxPy = QtWidgets.QComboBox() #### self.pathFont = PolicePath[:len(PolicePath)-(PolicePath[::-1].index("/"))-1] #### ui.searchFont(self.pathFont) QtCore.QObject.connect(self.comboBoxPy, QtCore.SIGNAL("currentIndexChanged(int)"), self.on_fontComboBoxPython) #### matplotlib fin 3/5 setupUi ################################################################# #### self.groupBox_02 = QtWidgets.QGroupBox() self.DS_Radius_Circle = QtWidgets.QDoubleSpinBox() self.DS_Radius_Circle.setMinimum(-99999999.0) self.DS_Radius_Circle.setMaximum(99999999.0) self.DS_Radius_Circle.setValue(rayon) self.DS_Radius_Circle.valueChanged.connect(self.on_DS_Radius_Circle) #connection doubleSpinBox self.label_10 = QtWidgets.QLabel() self.DS_Size_Character = QtWidgets.QDoubleSpinBox() self.DS_Size_Character.setMinimum(0.0) self.DS_Size_Character.setMaximum(99999999.0) self.DS_Size_Character.setSingleStep(1.0) self.DS_Size_Character.setValue(SizeCaractere) self.DS_Size_Character.valueChanged.connect(self.on_DS_Size_Character) #connection doubleSpinBox self.label_4 = QtWidgets.QLabel() self.S_Begin_Angle = QtWidgets.QSpinBox() self.S_Begin_Angle.setMaximum(360.0) self.S_Begin_Angle.setValue(debut) self.S_Begin_Angle.valueChanged.connect(self.on_S_Begin_Angle) #connection SpinBox self.label_13 = QtWidgets.QLabel() self.S_End_Angle = QtWidgets.QSpinBox() self.S_End_Angle.setMaximum(360) self.S_End_Angle.setValue(rotation) self.S_End_Angle.valueChanged.connect(self.on_S_End_Angle) #connection SpinBox self.label_14 = QtWidgets.QLabel() self.DS_Correction_Angle = QtWidgets.QDoubleSpinBox() self.DS_Correction_Angle.setMinimum(-359.00) self.DS_Correction_Angle.setMaximum(359.00) self.DS_Correction_Angle.setValue(correctionAngle) self.DS_Correction_Angle.valueChanged.connect(self.on_DS_Correction_Angle) #connection doubleSpinBox self.label_7 = QtWidgets.QLabel() self.DS_Correction_Radius = QtWidgets.QDoubleSpinBox() self.DS_Correction_Radius.setMinimum(-99999999.0) self.DS_Correction_Radius.setMaximum(99999999.0) self.DS_Correction_Radius.setValue(correctionRayon) self.DS_Correction_Radius.valueChanged.connect(self.on_DS_Correction_Radius) #connection doubleSpinBox self.label_8 = QtWidgets.QLabel() self.DS_Extrude = QtWidgets.QDoubleSpinBox() self.DS_Extrude.setEnabled(False) self.DS_Extrude.setMinimum(-99999999.0) self.DS_Extrude.setMaximum(99999999.0) self.DS_Extrude.setValue(epaisseur) self.DS_Extrude.valueChanged.connect(self.on_DS_Extrude) #connection doubleSpinBox self.CH_Extrude = QtWidgets.QCheckBox() self.CH_Extrude.clicked.connect(self.on_CH_Extrude) #connection checkBox self.DS_PlacementX = QtWidgets.QDoubleSpinBox() self.DS_PlacementX.setEnabled(False) self.DS_PlacementX.setSpecialValueText(_fromUtf8("")) self.DS_PlacementX.setMinimum(-9999999.0) self.DS_PlacementX.setMaximum(9999999.99) self.DS_PlacementX.valueChanged.connect(self.on_DS_PlacementX) #connection doubleSpinBox self.DS_PlacementY = QtWidgets.QDoubleSpinBox() self.DS_PlacementY.setEnabled(False) self.DS_PlacementY.setSpecialValueText(_fromUtf8("")) self.DS_PlacementY.setMinimum(-9999999.0) self.DS_PlacementY.setMaximum(9999999.99) self.DS_PlacementY.valueChanged.connect(self.on_DS_PlacementY) #connection doubleSpinBox self.DS_PlacementZ = QtWidgets.QDoubleSpinBox() self.DS_PlacementZ.setEnabled(False) self.DS_PlacementZ.setSpecialValueText(_fromUtf8("")) self.DS_PlacementZ.setMinimum(-9999999.0) self.DS_PlacementZ.setMaximum(9999999.99) self.DS_PlacementZ.valueChanged.connect(self.on_DS_PlacementZ) #connection doubleSpinBox self.CH_Sp_Placement = QtWidgets.QCheckBox() self.CH_Sp_Placement.clicked.connect(self.on_CH_Sp_Placement) #connection checkBox self.DS_InclinaisonX = QtWidgets.QSpinBox() self.DS_InclinaisonX.setEnabled(False) self.DS_InclinaisonX.setMinimum(-360.0) self.DS_InclinaisonX.setMaximum(360.0) self.DS_InclinaisonX.setValue(inclinaisonX) self.DS_InclinaisonX.valueChanged.connect(self.on_DS_InclinaisonX) #connection doubleSpinBox self.DS_InclinaisonY = QtWidgets.QSpinBox() self.DS_InclinaisonY.setEnabled(False) self.DS_InclinaisonY.setMinimum(-360) self.DS_InclinaisonY.setMaximum(360) self.DS_InclinaisonY.setValue(inclinaisonY) self.DS_InclinaisonY.valueChanged.connect(self.on_DS_InclinaisonY) #connection doubleSpinBox self.DS_InclinaisonZ = QtWidgets.QSpinBox() self.DS_InclinaisonZ.setEnabled(False) self.DS_InclinaisonZ.setMinimum(-360.0) self.DS_InclinaisonZ.setMaximum(360.0) self.DS_InclinaisonZ.setValue(inclinaisonZ) self.DS_InclinaisonZ.valueChanged.connect(self.on_DS_InclinaisonZ) #connection doubleSpinBox self.CH_Sp_Inclination = QtWidgets.QCheckBox() self.CH_Sp_Inclination.clicked.connect(self.on_CH_Sp_Inclination) #connection checkBox #### self.groupBox_03 = QtWidgets.QGroupBox() self.RA_Choice_Outdoor = QtWidgets.QRadioButton() self.RA_Choice_Outdoor.setChecked(True) self.RA_Choice_Outdoor.clicked.connect(self.on_RA_Choice_Outdoor) #connection radioButton self.RA_Choice_Indoor = QtWidgets.QRadioButton() self.RA_Choice_Indoor.clicked.connect(self.on_RA_Choice_Indoor) #connection radioButton self.RA_Choice_Helix = QtWidgets.QRadioButton() self.RA_Choice_Helix.clicked.connect(self.on_RA_Choice_Helix) #connection radioButton self.RA_Choice_Clock = QtWidgets.QRadioButton() self.RA_Choice_Clock.clicked.connect(self.on_RA_Choice_Clock) #connection radioButton self.PU_Flat = QtWidgets.QPushButton() self.PU_Flat.setEnabled(True) self.PU_Flat.setIcon(QtGui.QIcon(QtGui.QPixmap(standIcon))) # icone dans une variable self.PU_Flat.clicked.connect(self.on_PU_Flat) self.graphicsView = QtWidgets.QGraphicsView() ####Screen Graphic BitMap ##https://doc.qt.io/qtforpython/PySide2/QtCore/Qt.html self.graphicsView = QtWidgets.QGraphicsView() self.graphicsView.setObjectName("graphicsView") self.graphicsView.setFixedSize(215,60) # pic = QtGui.QPixmap(indoorIcon) # png # self.scene = QtWidgets.QGraphicsScene() # self.scene.addPixmap(QtGui.QPixmap(pic)) # png (bmp) # self.graphicsView.setScene(self.scene) ####Screen Graphic BitMap #### self.groupBox_04 = QtWidgets.QGroupBox() self.groupBox_04.setEnabled(False) self.groupBox_04.setCheckable(False) self.groupBox_04.setVisible(False) self.DS_Step_Of_The_Helix = QtWidgets.QDoubleSpinBox() self.DS_Step_Of_The_Helix.setMaximum(99999999.99) self.DS_Step_Of_The_Helix.setValue(pasHelix) self.DS_Step_Of_The_Helix.valueChanged.connect(self.on_DS_Step_Of_The_Helix) #connection doubleSpinBox self.label_12 = QtWidgets.QLabel() self.DS_Number_Char_Per_Turn = QtWidgets.QSpinBox() self.DS_Number_Char_Per_Turn.setMaximum(99999999) self.DS_Number_Char_Per_Turn.setValue(nombreCarParTour) self.DS_Number_Char_Per_Turn.valueChanged.connect(self.on_DS_Number_Char_Per_Turn) #connection doubleSpinBox self.label = QtWidgets.QLabel() self.DS_Base_Helix = QtWidgets.QDoubleSpinBox() self.DS_Base_Helix.setEnabled(False) self.DS_Base_Helix.setMinimum(-99999999.0) self.DS_Base_Helix.setMaximum(99999999.0) self.DS_Base_Helix.setValue(baseHelix) self.DS_Base_Helix.valueChanged.connect(self.on_DS_Base_Helix) #connection doubleSpinBox self.label_2 = QtWidgets.QLabel() self.DS_End_Helix = QtWidgets.QDoubleSpinBox() self.DS_End_Helix.setEnabled(False) self.DS_End_Helix.setMinimum(-99999999.0) self.DS_End_Helix.setMaximum(99999999.0) self.DS_End_Helix.setValue(endHelix) self.DS_End_Helix.valueChanged.connect(self.on_DS_End_Helix) #connection doubleSpinBox self.label_3 = QtWidgets.QLabel() #### self.groupBox_05 = QtWidgets.QGroupBox() self.groupBox_05.setEnabled(False) self.groupBox_05.setVisible(False) self.DS_Radius_Support = QtWidgets.QDoubleSpinBox() self.DS_Radius_Support.setMaximum(99999999.99) self.DS_Radius_Support.setValue(cercleClock) self.DS_Radius_Support.valueChanged.connect(self.on_DS_Radius_Support) #connection doubleSpinBox self.label_11 = QtWidgets.QLabel() self.PU_Roman = QtWidgets.QPushButton() self.PU_Roman.setIcon(QtGui.QIcon(QtGui.QPixmap(arabicIcon))) # icone dans une variable self.PU_Roman.clicked.connect(self.on_PU_Roman) self.S_Number_Faces_Support = QtWidgets.QSpinBox() self.S_Number_Faces_Support.setMaximum(999) self.S_Number_Faces_Support.setValue(nombreFaces) self.S_Number_Faces_Support.valueChanged.connect(self.on_S_Number_Faces_Support) #connection SpinBox self.label_5 = QtWidgets.QLabel() self.PU_Redress = QtWidgets.QPushButton() self.PU_Redress.setIcon(QtGui.QIcon(QtGui.QPixmap(axialIcon))) # icone dans une variable self.PU_Redress.clicked.connect(self.on_PU_Redress) self.DS_Extrude_Support = QtWidgets.QDoubleSpinBox() self.DS_Extrude_Support.setMaximum(99999999.0) self.DS_Extrude_Support.setEnabled(False) self.DS_Extrude_Support.setValue(epaisSupp) self.DS_Extrude_Support.valueChanged.connect(self.on_DS_Extrude_Support) #connection doubleSpinBox self.label_6 = QtWidgets.QLabel() #### self.groupBox_055 = QtWidgets.QGroupBox() self.groupBox_055.setEnabled(False) self.frame_Path = QtWidgets.QFrame() self.frame_Path.setFrameShape(QtWidgets.QFrame.StyledPanel) self.frame_Path.setFrameShadow(QtWidgets.QFrame.Plain) #Raised) Sunken self.RB_Path_01 = QtWidgets.QRadioButton() self.RB_Path_01.setChecked(setPathOrthogonal) self.RB_Path_02 = QtWidgets.QRadioButton() self.RB_Path_02.setChecked(setPathTangent) self.frame_Position = QtWidgets.QFrame() self.frame_Position.setFrameShape(QtWidgets.QFrame.StyledPanel) self.frame_Position.setFrameShadow(QtWidgets.QFrame.Plain) #.Raised) Sunken self.RB_Position_01 = QtWidgets.QRadioButton() self.RB_Position_01.setChecked(setPositionBase) self.RB_Position_02 = QtWidgets.QRadioButton() self.RB_Position_01.setChecked(setPositionCenter) self.RB_Position_03 = QtWidgets.QRadioButton() self.RB_Position_01.setChecked(setPositionTop) self.horizontalSlider_01_Str = QtWidgets.QSlider() self.horizontalSlider_01_Str.setOrientation(QtCore.Qt.Horizontal) self.label_Path_01 = QtWidgets.QLabel() self.horizontalSlider_02_Car = QtWidgets.QSlider() self.horizontalSlider_02_Car.setOrientation(QtCore.Qt.Horizontal) self.label_Path_02 = QtWidgets.QLabel() self.horizontalSlider_03_Tra = QtWidgets.QSlider() self.horizontalSlider_03_Tra.setOrientation(QtCore.Qt.Horizontal) self.label_Path_03 = QtWidgets.QLabel() #### self.groupBox_06 = QtWidgets.QGroupBox() self.CB_01_Points = QtWidgets.QCheckBox() self.CB_02_Circle = QtWidgets.QCheckBox() self.CB_03_BBox = QtWidgets.QCheckBox() self.CB_04_Progression = QtWidgets.QCheckBox() self.PU_Exit = QtWidgets.QPushButton() self.PU_Exit.setIcon(QtGui.QIcon(QtGui.QPixmap(quitIcon))) # quit icone dans une variable #self.PU_Exit.setIconSize(QtCore.QSize(26, 26)) self.PU_Exit.clicked.connect(self.on_PU_Exit) self.PU_Reset = QtWidgets.QPushButton() self.PU_Reset.setEnabled(True) self.PU_Reset.setIcon(QtGui.QIcon(QtGui.QPixmap(resetIcon))) # reset icone dans une variable self.PU_Reset.clicked.connect(self.on_PU_Reset) self.PU_Benchmarks = QtWidgets.QPushButton() self.PU_Benchmarks.setIcon(QtGui.QIcon(QtGui.QPixmap(executeIcon)))# execute icone dans une variable self.PU_Benchmarks.clicked.connect(self.on_PU_Benchmarks) self.PU_Execute = QtWidgets.QPushButton() self.PU_Execute.setIcon(QtGui.QIcon(QtGui.QPixmap(executeIcon)))# execute icone dans une variable self.PU_Execute.clicked.connect(self.on_PU_Execute) #### #### self.DS_Pivot_Char # pas utilise self.DS_Pivot_Char = QtWidgets.QDoubleSpinBox() self.DS_Pivot_Char.setEnabled(False) self.DS_Pivot_Char.setMinimum(-360.0) self.DS_Pivot_Char.setMaximum(360.0) self.DS_Pivot_Char.setValue(0.0) self.DS_Pivot_Char.valueChanged.connect(self.on_DS_Pivot_Char) #connection doubleSpinBox self.CH_Pivot_Character = QtWidgets.QCheckBox() self.CH_Pivot_Character.clicked.connect(self.on_CH_Pivot_Character) #connection checkBox #### #### #### gridLayout begin ####################### self.gridLayout = QtWidgets.QGridLayout(self.centralWidget) self.gridLayout.setContentsMargins(10, 10, 10, 10) ## self.gridLayout_2 = QtWidgets.QGridLayout(self.groupBox_00) self.groupBox_00.setMaximumHeight(660) self.gridLayout_2.setContentsMargins(10, 10, 10, 10) # self.gridLayout_2.setSpacing(6) ## self.gridLayout_Texte = QtWidgets.QGridLayout(self.groupBox_01) # groupes ..... self.groupBox_01.setMaximumHeight(160) # self.gridLayout_Texte.setSpacing(6) self.gridLayout_Texte.setContentsMargins(10, 10, 10, 10) self.gridLayout_Texte.addWidget(self.textEdit, 0, 0, 1, 1) ## self.gridLayout_frame_Option = QtWidgets.QGridLayout(self.frame_Option) self.gridLayout_frame_Option.setContentsMargins(10, 10, 10, 10) self.gridLayout_frame_Option.addWidget(self.PB_Reverse, 0, 0, 1, 1) self.gridLayout_frame_Option.addWidget(self.CB_Word, 1, 0, 1, 1) self.gridLayout_Texte.addWidget(self.frame_Option, 0, 1, 1, 1) ## self.gridLayout_Texte.addWidget(self.lineEdit_NameFile,1, 0, 1, 1)#_Font self.gridLayout_Texte.addWidget(self.PB_Help,2, 1, 1, 1) self.gridLayout_Texte.addWidget(self.comboBoxPy,2, 0, 1, 1) self.gridLayout_2.addWidget(self.groupBox_01, 0, 0, 1, 1) #### self.gridLayout_Config = QtWidgets.QGridLayout(self.groupBox_02) self.gridLayout_Config.setContentsMargins(10, 10, 10, 10) self.groupBox_02.setMaximumHeight(450) self.groupBox_02.setMinimumHeight(255) # self.gridLayout_Config.setSpacing(6) self.gridLayout_Config.addWidget(self.groupBox_03, 0, 0, 7, 2) # self.groupBox_03.setMaximumHeight(300) self.gridLayout_Choice = QtWidgets.QGridLayout(self.groupBox_03) self.gridLayout_Choice.addWidget(self.RA_Choice_Outdoor, 0, 0, 1, 1) self.gridLayout_Choice.addWidget(self.RA_Choice_Indoor, 1, 0, 1, 1) self.gridLayout_Choice.addWidget(self.RA_Choice_Helix, 0, 1, 1, 1) self.gridLayout_Choice.addWidget(self.RA_Choice_Clock, 1, 1, 1, 1) self.gridLayout_Choice.addWidget(self.PU_Flat, 2, 0, 1, 2) self.gridLayout_Choice.addWidget(self.graphicsView, 3, 0, 1, 2) ## self.gridLayout_Config.addWidget(self.DS_Radius_Circle, 0, 2, 1, 1) self.gridLayout_Config.addWidget(self.label_10, 0, 3, 1, 1) self.gridLayout_Config.addWidget(self.DS_Size_Character, 1, 2, 1, 1) self.gridLayout_Config.addWidget(self.label_4, 1, 3, 1, 1) self.gridLayout_Config.addWidget(self.S_Begin_Angle, 2, 2, 1, 1) self.gridLayout_Config.addWidget(self.label_13, 2, 3, 1, 1) self.gridLayout_Config.addWidget(self.S_End_Angle, 3, 2, 1, 1) self.gridLayout_Config.addWidget(self.label_14, 3, 3, 1, 1) self.gridLayout_Config.addWidget(self.DS_Correction_Angle, 4, 2, 1, 1) self.gridLayout_Config.addWidget(self.label_7, 4, 3, 1, 1) self.gridLayout_Config.addWidget(self.DS_Correction_Radius, 5, 2, 1, 1) self.gridLayout_Config.addWidget(self.label_8, 5, 3, 1, 1) self.gridLayout_Config.addWidget(self.DS_Extrude, 6, 2, 1, 1) self.gridLayout_Config.addWidget(self.CH_Extrude, 6, 3, 1, 1) self.gridLayout_Config.addWidget(self.DS_PlacementX, 7, 0, 1, 1) self.gridLayout_Config.addWidget(self.DS_PlacementY, 7, 1, 1, 1) self.gridLayout_Config.addWidget(self.DS_PlacementZ, 7, 2, 1, 1) self.gridLayout_Config.addWidget(self.CH_Sp_Placement, 7, 3, 1, 1) self.gridLayout_Config.addWidget(self.DS_InclinaisonX, 8, 0, 1, 1) self.gridLayout_Config.addWidget(self.DS_InclinaisonY, 8, 1, 1, 1) self.gridLayout_Config.addWidget(self.DS_InclinaisonZ, 8, 2, 1, 1) self.gridLayout_Config.addWidget(self.CH_Sp_Inclination, 8, 3, 1, 1) self.gridLayout_2.addWidget(self.groupBox_02, 1, 0, 1, 1) #### self.gridLayout_Helix = QtWidgets.QGridLayout(self.groupBox_04) self.gridLayout_Helix.setContentsMargins(10, 10, 10, 10) self.groupBox_04.setMaximumHeight(110) self.groupBox_04.setMinimumHeight(110) # self.gridLayout_Helix.setSpacing(6) self.gridLayout_Helix.addWidget(self.DS_Step_Of_The_Helix, 0, 0, 1, 1) self.gridLayout_Helix.addWidget(self.label_12, 0, 1, 1, 1) self.gridLayout_Helix.addWidget(self.DS_Number_Char_Per_Turn, 0, 2, 1, 1) self.gridLayout_Helix.addWidget(self.label, 0, 3, 1, 1) self.gridLayout_Helix.addWidget(self.DS_Base_Helix, 1, 0, 1, 1) self.gridLayout_Helix.addWidget(self.label_2, 1, 1, 1, 1) self.gridLayout_Helix.addWidget(self.DS_End_Helix, 1, 2, 1, 1) self.gridLayout_Helix.addWidget(self.label_3, 1, 3, 1, 1) self.gridLayout_2.addWidget(self.groupBox_04, 3, 0, 1, 1) #### self.gridLayout_Clock = QtWidgets.QGridLayout(self.groupBox_05) self.gridLayout_Clock.setContentsMargins(10, 10, 10, 10) self.groupBox_05.setMaximumHeight(110) self.groupBox_05.setMinimumHeight(110) # self.gridLayout_Clock.setSpacing(6) self.gridLayout_Clock.addWidget(self.DS_Radius_Support, 0, 0, 1, 1) self.gridLayout_Clock.addWidget(self.label_11, 0, 1, 1, 1) self.gridLayout_Clock.addWidget(self.PU_Roman, 0, 2, 1, 1) self.gridLayout_Clock.addWidget(self.S_Number_Faces_Support, 1, 0, 1, 1) self.gridLayout_Clock.addWidget(self.label_5, 1, 1, 1, 1) self.gridLayout_Clock.addWidget(self.PU_Redress, 1, 2, 1, 1) self.gridLayout_Clock.addWidget(self.DS_Extrude_Support, 2, 0, 1, 1) self.gridLayout_Clock.addWidget(self.label_6, 2, 1, 1, 1) self.gridLayout_2.addWidget(self.groupBox_05, 4, 0, 1, 1) #### self.gridLayout_Path = QtWidgets.QGridLayout(self.groupBox_055) self.gridLayout_Path.setContentsMargins(10, 10, 10, 10) self.groupBox_055.setMaximumHeight(110) self.groupBox_055.setMinimumHeight(110) ## self.gridLayout_frame_Path = QtWidgets.QGridLayout(self.frame_Path) # self.gridLayout_frame_Path.setContentsMargins(10, 10, 10, 10) self.gridLayout_frame_Path.addWidget(self.RB_Path_01, 0, 1, 1, 1) self.gridLayout_frame_Path.addWidget(self.RB_Path_02, 0, 2, 1, 1) self.gridLayout_Path.addWidget(self.frame_Path, 0, 0, 1, 1) ## self.gridLayout_frame_Position = QtWidgets.QGridLayout(self.frame_Position) # self.gridLayout_frame_Position.setContentsMargins(10, 10, 10, 10) self.gridLayout_frame_Position.addWidget(self.RB_Position_01, 0, 0, 1, 1) self.gridLayout_frame_Position.addWidget(self.RB_Position_02, 0, 1, 1, 1) self.gridLayout_frame_Position.addWidget(self.RB_Position_03, 0, 2, 1, 1) self.gridLayout_Path.addWidget(self.frame_Position, 1, 0, 1, 1) # ## # self.gridLayout_Path.addWidget(self.horizontalSlider_01_Str, 2, 0, 1, 1) # self.gridLayout_Path.addWidget(self.label_Path_01, 2, 1, 1, 1) # self.gridLayout_Path.addWidget(self.horizontalSlider_02_Car, 3, 0, 1, 1) # self.gridLayout_Path.addWidget(self.label_Path_02, 3, 1, 1, 1) # self.gridLayout_Path.addWidget(self.horizontalSlider_03_Tra, 4, 0, 1, 1) # self.gridLayout_Path.addWidget(self.label_Path_03, 4, 1, 1, 1) # ## self.gridLayout_2.addWidget(self.groupBox_055, 5, 0, 1, 1) #### self.gridLayout_Command = QtWidgets.QGridLayout(self.groupBox_06) self.gridLayout_Command.setContentsMargins(10, 10, 10, 10) self.groupBox_06.setMaximumHeight(100) # self.gridLayout_Command.setSpacing(6) self.gridLayout_Command.addWidget(self.CB_01_Points, 0, 0, 1, 1) self.gridLayout_Command.addWidget(self.CB_02_Circle, 0, 1, 1, 1) self.gridLayout_Command.addWidget(self.CB_03_BBox, 0, 2, 1, 1) self.gridLayout_Command.addWidget(self.CB_04_Progression, 0, 3, 1, 1) self.gridLayout_Command.addWidget(self.PU_Exit, 1, 0, 1, 1) self.gridLayout_Command.addWidget(self.PU_Reset, 1, 1, 1, 1) self.gridLayout_Command.addWidget(self.PU_Benchmarks, 1, 2, 1, 1) self.gridLayout_Command.addWidget(self.PU_Execute, 1, 3, 1, 1) self.gridLayout_2.addWidget(self.groupBox_06, 6, 0, 1, 1) #### self.gridLayout.addWidget(self.groupBox_00, 0, 0, 1, 1) #### gridLayout end ####################### MainWindow.setCentralWidget(self.centralWidget) self.retranslateUi(MainWindow) QtCore.QMetaObject.connectSlotsByName(MainWindow) def retranslateUi(self, MainWindow): MainWindow.setWindowFlags(PySide2.QtCore.Qt.WindowStaysOnTopHint) # PySide cette fonction met la fenetre en avant MainWindow.setWindowTitle(_fromUtf8(__Title__)) MainWindow.setWindowIcon(QtGui.QIcon(_fromUtf8(self.path + "FCCircularTextButtom.png"))) # change l'icone de la fenetre principale self.groupBox_00.setTitle(_fromUtf8("Ver : " + __Version__ + " : " + __Date__) + " (rmu)") self.groupBox_01.setTitle(_fromUtf8("Text to be displayed ( "+str(len(texte))+" characters )")) self.textEdit.setHtml(_fromUtf8(texte)) self.textEdit.setToolTip(_fromUtf8("Your text to be displayed" + "\n" "the last character superpose de first character ! " + "\n" "you must adding one space after the last character")) self.PB_Reverse.setText(_fromUtf8("Reverse")) self.PB_Reverse.setToolTip(_fromUtf8("Reverse the text edited")) try: self.lineEdit_NameFile.setText(_fromUtf8("(" + str(self.index + 1) + "/" + str(len(self.tableau)) + ") " + self.tableau[self.index][1])) except Exception: None self.lineEdit_NameFile.setToolTip(_fromUtf8("(Number index / Number Fonts) Complete path and name of Font file")) self.PB_Help.setText(_fromUtf8("Help")) self.CB_Word.setText(_fromUtf8("Word")) self.CB_Word.setToolTip(_fromUtf8("If Word is checked, the text are clipped to each space" + "\n" "one space egual one character." + "\n\n" "If in mode Path you work with a circle," + "\n" "the last character superpose de first character ! " + "\n" "you must adding one space after the last character" + "\n" "for spacing the last and the first character" + "\n\n" "You must work with the space as the character")) # self.PB_Decompose.setText(_fromUtf8("Decompose")) #### matplotlib debut 4/5 retranslateUi ################################################################# self.comboBoxPy.setToolTip("Choice your Font" + "\n" + "\n" + "You must modify the configuration of display" + "\n" + "Menu Edit parameter: User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__ + ":" + "\n" + "####" + "\n" + "switchModeTextList= 1\t# 0 = mode text normal (the switchFontComBox is enabled)" + "\n" "\t\t\t# 1 = switchFontComBox authorized (default)" + "\n" "\t\t\t#####" + "\n" "switchFontComBox = 1\t# 0 = mode text in color .. faster" + "\n" "\t\t\t# 1 = fontFamily listed ComboBox slower but beautiful (default)" + "\n" "\t\t\t#####" + "\n" "setSystemFonts = 1\t# 0 = matplotlib.font_manager.findSystemFonts" + "\n" "\t\t\t# all fonts in System font" + "\n" "\t\t\t# 1 = fontman.findSystemFonts(self.pathFont) (default)" + "\n" "\t\t\t# all fonts in all directory and sub directory" + "\n" "\t\t\t#####" + "\n" "seTtextAlignement = 0\t# 0 = AlignLeft (default)" + "\n" "\t\t\t# 1 = AlignCenter" + "\n" "\t\t\t# 2 = AlignRight" + "\n" "\t\t\t#####" + "\n" "setFontByDefault = ""ARIAL""\t # ARIAL" + "\n" "\t\t\t#####" + "\n" "switchResetFALSE = 0\t # 0 by default." + "\n" "If you use this option [ switchResetFALSE = 1 ] some switch can be opened when it should not be" + "\n" "then it is advisable to do a reset after a change one option" + "\n" "####" + "\n" "Actual configuration : " + str(switchModeTextList) + ", " + str(switchFontComBox) + ", " + str(setSystemFonts) + ", " + str(seTtextAlignement) + ", " + setFontByDefault + ", " + str(switchResetFALSE) + "\n" "####" + "\n" + "Read the info") #### matplotlib fin 4/5 retranslateUi ################################################################# self.groupBox_02.setTitle(_fromUtf8("Configuration")) self.DS_Radius_Circle.setToolTip(_fromUtf8("Give the radius of circle")) self.DS_Radius_Circle.setSuffix(_fromUtf8(" mm")) self.label_10.setText(_fromUtf8("Radius of circle")) self.DS_Size_Character.setToolTip(_fromUtf8("Size of the font")) self.DS_Size_Character.setSuffix(_fromUtf8(" mm")) self.label_4.setText(_fromUtf8("Character size")) self.S_Begin_Angle.setToolTip(_fromUtf8("Starting text of the circle ")) self.S_Begin_Angle.setSuffix(_fromUtf8(" deg")) self.label_13.setText(_fromUtf8("Starting angle")) self.S_End_Angle.setToolTip(_fromUtf8("End text of the circle ")) self.S_End_Angle.setSuffix(_fromUtf8(" deg")) self.label_14.setText(_fromUtf8("Ending angle")) self.DS_Correction_Angle.setToolTip(_fromUtf8("Correct angle for tangent the text of thr circle or give a tilt angle" + "\n" "this option is adding to the original angle (Sp. inclination)")) self.DS_Correction_Angle.setSuffix(_fromUtf8(" deg")) self.label_7.setText(_fromUtf8("Correction Angle")) self.DS_Correction_Radius.setToolTip(_fromUtf8("Correct of the radius (depend of correction angle)" + "\n" "this option is adding to the original radius (Radius of circle)")) self.DS_Correction_Radius.setSuffix(_fromUtf8(" mm")) self.label_8.setText(_fromUtf8("Correction Radius")) self.DS_Extrude.setSuffix(_fromUtf8(" mm")) self.DS_Extrude.setToolTip(_fromUtf8("Thickness of the extrude of character. If thickness = 0 then not extrude")) self.CH_Extrude.setText(_fromUtf8("Extrude Char.")) self.CH_Extrude.setToolTip(_fromUtf8("Choice extrude character or not")) #### self.DS_PlacementX.setSuffix(_fromUtf8(" X mm")) self.DS_PlacementX.setToolTip(_fromUtf8("Placement direction X" + "\n" "Not used with the Clock option")) self.DS_PlacementY.setSuffix(_fromUtf8(" Y mm")) self.DS_PlacementY.setToolTip(_fromUtf8("Placement direction Y" + "\n" "Not used with the Clock option")) self.DS_PlacementZ.setSuffix(_fromUtf8(" Z mm")) self.DS_PlacementZ.setToolTip(_fromUtf8("Placement direction Z"+ "\n" "For Clock option only this Z axis is available")) self.CH_Sp_Placement.setText(_fromUtf8("Placement")) self.CH_Sp_Placement.setToolTip(_fromUtf8("Placement of character in the choice")) #carDegrees = b' \xc2\xb0'.decode("utf-8") #thanks wmayer https://forum.freecadweb.org/viewtopic.php?f=13&t=36380&p=308476#p308357 self.DS_InclinaisonX.setSuffix(_fromUtf8(" deg")) self.DS_InclinaisonX.setToolTip(_fromUtf8("Inclination character in axis X")) self.DS_InclinaisonY.setSuffix(_fromUtf8(" deg")) self.DS_InclinaisonY.setToolTip(_fromUtf8("Inclination character axis Y")) self.DS_InclinaisonZ.setSuffix(_fromUtf8(" deg")) self.DS_InclinaisonZ.setToolTip(_fromUtf8("Inclination character axis Z")) self.CH_Sp_Inclination.setText(_fromUtf8("Sp. inclination")) self.CH_Sp_Inclination.setToolTip(_fromUtf8("Inclination of character in the choice or alls plane ")) #### self.groupBox_03.setTitle(_fromUtf8("Choice")) self.RA_Choice_Outdoor.setText(_fromUtf8("Outdoor")) self.RA_Choice_Outdoor.setToolTip(_fromUtf8("Create the text on the outer face of the cylinder")) self.RA_Choice_Indoor.setText(_fromUtf8("Indoor")) self.RA_Choice_Indoor.setToolTip(_fromUtf8("Create the text on the inside of the cylinder")) self.RA_Choice_Helix.setText(_fromUtf8("Helix")) self.RA_Choice_Helix.setToolTip(_fromUtf8("Create the text in a helix")) self.RA_Choice_Clock.setText(_fromUtf8("Clock")) self.RA_Choice_Clock.setToolTip(_fromUtf8("Create the text to form a clock")) self.PU_Flat.setText(_fromUtf8("Mode Stand")) self.PU_Flat.setToolTip(_fromUtf8("Click for create the text Flat")) #### self.groupBox_04.setTitle(_fromUtf8("Helix")) self.DS_Step_Of_The_Helix.setSuffix(_fromUtf8(" mm")) self.DS_Step_Of_The_Helix.setToolTip(_fromUtf8("Step of the text along the helix (min Size Caractere)")) self.label_12.setText(_fromUtf8("Step of Helix")) self.DS_Number_Char_Per_Turn.setToolTip(_fromUtf8("Number of characters for one turn of helix")) self.label.setText(_fromUtf8("Char. per turn")) self.DS_Base_Helix.setToolTip(_fromUtf8("Base (begin) of helix (to activate Step of Helix must be zero)")) self.DS_Base_Helix.setSuffix(_fromUtf8(" mm")) self.label_2.setText(_fromUtf8("Base Helix")) self.DS_End_Helix.setToolTip(_fromUtf8("Final height of the helix (to activate Step of Helix must be zero)")) self.DS_End_Helix.setSuffix(_fromUtf8(" mm")) self.label_3.setText(_fromUtf8("End Helix")) #### self.groupBox_05.setTitle(_fromUtf8("Clock")) self.DS_Radius_Support.setSuffix(_fromUtf8(" mm")) self.DS_Radius_Support.setToolTip(_fromUtf8("Radius of the support the clock (By defaut : Radius of circle)")) self.label_11.setText(_fromUtf8("Radius of support")) self.PU_Roman.setText(_fromUtf8("Mode Arabic")) self.PU_Roman.setToolTip(_fromUtf8("The characters is in Roman or Arabic (default)")) self.S_Number_Faces_Support.setToolTip(_fromUtf8("Number of side of the support 0=none, 1=circle, 2=rectangle, 3=triangle, 4=square, 5=pentagon . . . . (Thickness egal extrude)")) self.label_5.setText(_fromUtf8("Support number face")) self.PU_Redress.setText(_fromUtf8("Axial")) self.PU_Redress.setToolTip(_fromUtf8("Click for activate the mode Redress")) self.DS_Extrude_Support.setToolTip(_fromUtf8("Thickness of the extrude the support." + "\n" "If thickness = 0 then not extrude" + "\n" "If thickness of support is bigger than character" + "\n" "the SpinBox is colored in red" + "\n" "if the CheckBox [Extrude Char.] is not checked" + "\n" "the SpinBox is colored in orange for warn that the character is at the base of the support")) self.DS_Extrude_Support.setSuffix(_fromUtf8(" mm")) self.label_6.setText(_fromUtf8("Extrude support")) #### self.groupBox_055.setTitle(_fromUtf8("Path")) self.groupBox_055.setToolTip(_fromUtf8("The string follow the wire selected" + "\n" "The buttons Outdoor, Helix, Indoor, Clock and" + "\n" "the button Mode Stand / Flat are ignored")) self.RB_Path_01.setText(_fromUtf8("Orthogonal")) self.RB_Path_01.setToolTip(_fromUtf8("The character is orthogonal")) self.RB_Path_02.setText(_fromUtf8("Tangent")) self.RB_Path_02.setToolTip(_fromUtf8("The character is tangent on position wire selected")) self.RB_Position_01.setText(_fromUtf8("BB Base")) self.RB_Position_01.setToolTip(_fromUtf8("The BoundBox of the character is on Base")) self.label_Path_01.setText(_fromUtf8("Rotation str")) self.RB_Position_02.setText(_fromUtf8("BB Center")) self.RB_Position_02.setToolTip(_fromUtf8("The BoundBox of the character is on BB Center")) self.label_Path_02.setText(_fromUtf8("Rotation car")) self.RB_Position_03.setText(_fromUtf8("BB Top")) self.RB_Position_03.setToolTip(_fromUtf8("The BoundBox of the character is on BB Top")) self.label_Path_03.setText(_fromUtf8("Translation")) #### self.groupBox_06.setTitle(_fromUtf8("Command")) self.CB_01_Points.setText(_fromUtf8("Points")) self.CB_01_Points.setToolTip(_fromUtf8("Create points repere")) self.CB_02_Circle.setText(_fromUtf8("Circle")) self.CB_02_Circle.setToolTip(_fromUtf8("Create Circle repere")) self.CB_03_BBox.setText(_fromUtf8("BoundBox")) self.CB_03_BBox.setToolTip(_fromUtf8("Create BoundBox on character")) self.CB_04_Progression.setText(_fromUtf8("Progression")) self.CB_04_Progression.setToolTip(_fromUtf8("Visualise the character in construction")) self.PU_Exit.setText(_fromUtf8("Exit")) self.PU_Exit.setToolTip(_fromUtf8("Exit FCCircularText")) self.PU_Reset.setText(_fromUtf8("Reset")) self.PU_Reset.setToolTip(_fromUtf8("Reset the macro and give the number of the characters of windows Textedit")) self.PU_Execute.setText(_fromUtf8("Run")) self.PU_Execute.setToolTip("Execute the process") # without Compount self.PU_Benchmarks.setText(_fromUtf8("Run Comp")) self.PU_Benchmarks.setToolTip(_fromUtf8("Execute the process and one Compount of the characters is create")) #### self.DS_Pivot_Char.setSuffix(_fromUtf8(" deg")) self.DS_Pivot_Char.setToolTip(_fromUtf8("Pivot the character")) self.CH_Pivot_Character.setText(_fromUtf8("Pivot Character")) self.CH_Pivot_Character.setToolTip(_fromUtf8("Pivot the character")) #### matplotlib debut 5/5 ################################################################# def on_fontComboBoxPython(self,indeX): # 0: for fontComboBoxPython global PolicePath global setFontByDefault self.index = indeX self.lineEdit_NameFile.setText("(" + str(self.index + 1) + "/" + str(len(self.tableau)) + ") " + self.tableau[self.index][1]) PolicePath = self.tableau[self.index][1] famille = typeCar = self.font = "" self.font = QtGui.QFont() typeCar = family(self.tableau[self.index][2])[1] self.font.setBold(False) self.font.setItalic(False) if len(typeCar) > 0: for option in typeCar: if option == "Bold": self.font.setBold(True) if (option == "Italic") or (option == "It") or (option == "Slanted"): self.font.setItalic(True) if option == "Oblique": self.font.setItalic(True) #'Bold''Regular''Slanted''Italic''Medium''Extra''Light''Condensed''Black''It''Semibold'#+ self.font.setFamily(self.tableau[self.index][5]) self.font.setPointSize(self.FontTextSize) #### self.fonteComp = self.tableau[self.index][1] setFontByDefault = self.tableau[self.index][2] # FreeCAD.Console.PrintMessage(str(self.index) + " , " + self.tableau[self.index][1] + " , " + self.tableau[self.index][2] + " , ' " + famille + "' , ' " + typeCar + " ' \n") #### matplotlib fin 5/5 ################################################################# def on_lineEdit_NameFile(self): self.pathFont = self.lineEdit_NameFile.text() #print(self.pathFont) try: self.pathFont = self.pathFont.split(")") [1] except Exception: self.pathFont = self.pathFont #print(self.pathFont) ui.searchFont(self.pathFont) QtCore.QObject.connect(self.comboBoxPy, QtCore.SIGNAL("currentIndexChanged(int)"), self.on_fontComboBoxPython) def on_textEdit_Changed(self): #connection textEdit global ui # self.textEdit.setTextColor(QColor("red")) # self.textEdit.setTextColor(QColor("Base")) ui.on_CB_Word() def on_PB_Reverse(self): #connection Reverse global texte texte = self.textEdit.toPlainText() texte = texte[::-1] self.textEdit.setText(_fromUtf8(texte)) def on_CB_Word(self): global texte texte = "" texte = self.textEdit.toPlainText() try: selectedEdge = FreeCADGui.Selection.getSelectionEx()[0].SubObjects[0] except Exception: selectedEdge = "" if self.CB_Word.isChecked(): texte = texte.split(" ") mot = "word" else: mot = "characters" if (texte.count(" ") == 1) or (texte.count(" ") == 0): espace = "space" else: espace = "spaces" if str(selectedEdge) != "": self.groupBox_01.setTitle("Text to be displayed ( "+str(len(texte))+ " " + mot + " ) ( " + str(texte.count(" ")) + " " + espace + " ) ( Lenght " + str(round(selectedEdge.Length,3)) + " mm )") else: self.groupBox_01.setTitle("Text to be displayed ( "+str(len(texte))+ " " + mot + " ) ( " + str(texte.count(" ")) + " " + espace + " )") def on_CH_Pivot_Character(self): #connection checkBox global PivotCharachter if self.CH_Pivot_Character.isChecked(): self.DS_Pivot_Char.setEnabled(True) else: PivotCharachter = 0.0 self.DS_Pivot_Char.setEnabled(False) self.DS_Pivot_Char.setValue(PivotCharachter) # App.Console.PrintMessage("PivotCharachter check" + "\n") def on_DS_Pivot_Char(self, value): #connection doubleSpinBox global PivotCharachter PivotCharachter = value App.Console.PrintMessage("PivotCharachter " + str(PivotCharachter)+"\n") def on_PU_Reset_Placement(self): # Reset_Placement global PlacementX global PlacementY global PlacementZ global coor_X global coor_Y global coor_Z coor_X = coor_Y = coor_Z = 0.0 PlacementX = PlacementY = PlacementZ = 0.0 self.CH_Sp_Placement.setChecked(False) self.DS_PlacementX.setValue(PlacementX) self.DS_PlacementX.setEnabled(False) self.DS_PlacementY.setValue(PlacementY) self.DS_PlacementY.setEnabled(False) self.DS_PlacementZ.setValue(PlacementZ) self.DS_PlacementZ.setEnabled(False) # App.Console.PrintMessage(str("on_PU_Reset_Placement ")+"\n") def on_PU_Reset_Inclination(self): # Reset_Inclination global inclinaisonX global inclinaisonY global inclinaisonZ inclinaisonX = inclinaisonY = inclinaisonZ = 0.0 self.CH_Sp_Inclination.setChecked(False) self.DS_InclinaisonX.setValue(inclinaisonX) self.DS_InclinaisonX.setEnabled(False) self.DS_InclinaisonY.setValue(inclinaisonY) self.DS_InclinaisonY.setEnabled(False) self.DS_InclinaisonZ.setValue(inclinaisonZ) self.DS_InclinaisonZ.setEnabled(False) # App.Console.PrintMessage(str("on_PU_Reset_Inclination ")+"\n") def on_RA_Choice_Outdoor(self): # global ui global exterieur global epaisseur self.groupBox_05.setVisible(False) #clock self.groupBox_055.setVisible(True) #Path self.groupBox_04.setVisible(False) self.groupBox_05.setVisible(False) epaisseur = 0.0 self.DS_Extrude.setValue(epaisseur) self.CH_Extrude.setChecked(False) self.DS_Extrude.setEnabled(False) exterieur = 1 self.S_Begin_Angle.setEnabled(True) self.S_End_Angle.setEnabled(True) self.DS_Correction_Radius.setEnabled(True) self.DS_Correction_Angle.setEnabled(True) self.PU_Flat.setEnabled(True) self.groupBox_04.setEnabled(False) self.groupBox_05.setEnabled(False) ui.on_PU_Reset_Placement() ui.on_PU_Reset_Inclination() # App.Console.PrintMessage(str("on_RA_Choice_Outdoor ")+" "+str(exterieur)+"\n") def on_RA_Choice_Indoor(self): # global ui global exterieur global epaisseur self.groupBox_04.setVisible(False) self.groupBox_05.setVisible(False) epaisseur = 0.0 self.DS_Extrude.setValue(epaisseur) self.CH_Extrude.setChecked(False) self.DS_Extrude.setEnabled(False) exterieur = 0 self.S_Begin_Angle.setEnabled(True) self.S_End_Angle.setEnabled(True) self.DS_Correction_Radius.setEnabled(True) self.DS_Correction_Angle.setEnabled(True) self.PU_Flat.setEnabled(True) self.groupBox_04.setEnabled(False) self.groupBox_05.setEnabled(False) self.groupBox_055.setVisible(True) #Path ui.on_PU_Reset_Placement() ui.on_PU_Reset_Inclination() # App.Console.PrintMessage(str("on_RA_Choice_Indoor ")+" "+str(exterieur)+"\n") def on_RA_Choice_Helix(self): # global ui global exterieur global cercleClock global nombreFaces global debout global epaisseur self.groupBox_04.setVisible(True) self.groupBox_05.setVisible(False) epaisseur = 0.0 self.DS_Extrude.setValue(epaisseur) self.CH_Extrude.setChecked(False) self.DS_Extrude.setEnabled(False) exterieur = 2 cercleClock = 0 nombreFaces = 0 debout = 1 self.RA_Choice_Outdoor.setText(_fromUtf8("Outdoor")) self.RA_Choice_Indoor.setText(_fromUtf8("Indoor")) self.PU_Flat.setText(_fromUtf8("Mode Stand")) self.S_Begin_Angle.setEnabled(True) self.S_End_Angle.setEnabled(True) self.DS_Correction_Radius.setEnabled(True) self.DS_Correction_Angle.setEnabled(True) self.PU_Flat.setEnabled(False)## self.groupBox_04.setEnabled(True) self.groupBox_05.setEnabled(False) self.groupBox_055.setVisible(False) #Path ui.on_PU_Reset_Placement() ui.on_PU_Reset_Inclination() def on_RA_Choice_Clock(self): global ui global exterieur global debout global correctionRayon global correctionAngle global epaisseur global PivotCharachter self.groupBox_04.setVisible(False) self.groupBox_05.setVisible(True) epaisseur = 0.0 self.DS_Extrude.setValue(epaisseur) self.CH_Extrude.setChecked(False) self.DS_Extrude.setEnabled(False) exterieur = 3 debout = 0 self.PU_Flat.setEnabled(False) self.S_Begin_Angle.setEnabled(False) self.S_End_Angle.setEnabled(False) # correctionRayon = 0 self.DS_Correction_Radius.setEnabled(False) self.DS_Correction_Radius.setValue(0.0) # correctionAngle = 10.0 self.DS_Correction_Angle.setEnabled(False) self.DS_Correction_Angle.setValue(0.0) PivotCharachter = 0.0 self.DS_Pivot_Char.setEnabled(False) self.DS_Pivot_Char.setValue(PivotCharachter) self.CH_Pivot_Character.setChecked(False) self.groupBox_04.setEnabled(False) self.groupBox_05.setEnabled(True) self.groupBox_055.setVisible(False) #path ui.on_PU_Reset_Placement() ui.on_PU_Reset_Inclination() # App.Console.PrintMessage(str("on_RA_Choice_Clock ")+str(exterieur)+"\n") def on_PU_Flat(self): # Flat or Stand global debout if debout == 1: debout = 0 self.RA_Choice_Outdoor.setText(_fromUtf8("Indoor")) self.RA_Choice_Indoor.setText(_fromUtf8("Outdoor")) self.PU_Flat.setText(_fromUtf8("Mode Flat")) self.PU_Flat.setToolTip(_fromUtf8("Click for create the text Stand")) self.PU_Flat.setIcon(QtGui.QIcon(QtGui.QPixmap(flatIcon))) # icone dans une variable else: debout = 1 self.RA_Choice_Outdoor.setText(_fromUtf8("Outdoor")) self.RA_Choice_Indoor.setText(_fromUtf8("Indoor")) self.PU_Flat.setText(_fromUtf8("Mode Stand")) self.PU_Flat.setToolTip(_fromUtf8("Click for create the text Flat")) self.PU_Flat.setIcon(QtGui.QIcon(QtGui.QPixmap(standIcon))) # icone dans une variable # App.Console.PrintMessage(str("on_PU_Flat ")+str(debout)+"\n") def on_DS_Radius_Circle(self,value): global rayon global cercleClock rayon = value cercleClock = rayon # App.Console.PrintMessage("on_DS_Radius_Circle Radius"+str(rayon)+"\n") def on_DS_Size_Character(self,value): global SizeCaractere SizeCaractere = value # App.Console.PrintMessage("on_DS_Size_Character Size"+str(SizeCaractere)+"\n") def on_S_Begin_Angle(self,value): # global debut debut = value # App.Console.PrintMessage(str("on_S_Begin_Angle ")+str(debut)+"\n") def on_S_End_Angle(self,value): # global rotation rotation = value # App.Console.PrintMessage(str("on_S_End_Angle ")+str(rotation)+"\n") def on_DS_PlacementX(self,value): # global PlacementX PlacementX = value # App.Console.PrintMessage(str("on_DS_PlacementX ")+str(PlacementX)+"\n") def on_DS_PlacementY(self,value): # global PlacementY PlacementY = value # App.Console.PrintMessage(str("on_DS_PlacementY ")+str(PlacementY)+"\n") def on_DS_PlacementZ(self,value): # global PlacementZ PlacementZ = value # App.Console.PrintMessage(str("on_DS_PlacementZ ")+str(PlacementZ)+"\n") def on_CH_Sp_Placement(self): # Placement or not Placement global ui if self.CH_Sp_Placement.isChecked(): self.DS_PlacementX.setEnabled(True) self.DS_PlacementY.setEnabled(True) self.DS_PlacementZ.setEnabled(True) # App.Console.PrintMessage(str("on_CH_Sp_Placement ")+str("True")+"\n") else: ui.on_PU_Reset_Placement() if self.RA_Choice_Clock.isChecked(): self.DS_PlacementX.setEnabled(False) self.DS_PlacementY.setEnabled(False) # App.Console.PrintMessage(str("on_CH_Sp_Placement ")+str("False")+"\n") def on_DS_Correction_Angle(self,value): # global correctionAngle correctionAngle = value # App.Console.PrintMessage(str("on_DS_Correction_Angle ")+str(correctionAngle)+"\n") def on_DS_Correction_Radius(self,value): # global correctionRayon correctionRayon = value # App.Console.PrintMessage(str("on_DS_Correction_Radius ")+str(correctionRayon)+"\n") def on_DS_Extrude(self,value): # global epaisseur global epaisSupp epaisseur = value if epaisseur > epaisSupp: self.DS_Extrude_Support.setStyleSheet("background-color: QPalette.Base") # origin system self.DS_Extrude.setStyleSheet("background-color: QPalette.Base") # origin system self.CH_Extrude.setStyleSheet("background-color: QPalette.Base") # origin system else: if epaisSupp >= epaisseur: self.DS_Extrude.setStyleSheet("background-color: rgb(224, 0, 0)") self.DS_Extrude_Support.setStyleSheet("background-color: rgb(224, 0, 0)") # App.Console.PrintMessage("on_DS_Extrude "+str(epaisseur)+"\n") def on_CH_Extrude(self): # global epaisseur global epaisSupp if self.CH_Extrude.isChecked(): self.DS_Extrude.setEnabled(True) epaisseur = 1.0 else: self.DS_Extrude.setEnabled(False) epaisseur = 0.0 if (epaisSupp != 0) and (epaisSupp >= epaisseur): self.DS_Extrude.setStyleSheet("background-color: rgb(255, 165, 0)") self.DS_Extrude_Support.setStyleSheet("background-color: rgb(255, 165, 0)") self.CH_Extrude.setStyleSheet("background-color: rgb(255, 165, 0)") else: self.DS_Extrude.setStyleSheet("background-color: QPalette.Base") # origin system self.CH_Extrude.setStyleSheet("background-color: QPalette.Base") # origin system self.DS_Extrude.setValue(epaisseur) # App.Console.PrintMessage(str("on_CH_Extrude ")+" "+str(epaisseur)+"\n") def on_DS_InclinaisonX(self,value): # global inclinaisonX inclinaisonX = value # App.Console.PrintMessage(str("on_DS_InclinaisonX ")+str(inclinaisonX)+"\n") def on_DS_InclinaisonY(self,value): # global inclinaisonY inclinaisonY = value # App.Console.PrintMessage(str("on_DS_InclinaisonY ")+str(inclinaisonY)+"\n") def on_DS_InclinaisonZ(self,value): # global inclinaisonZ inclinaisonZ = value # App.Console.PrintMessage(str("on_DS_InclinaisonZ ")+str(inclinaisonZ)+"\n") def on_CH_Sp_Inclination(self): # global ui if self.CH_Sp_Inclination.isChecked(): self.DS_InclinaisonX.setEnabled(True) self.DS_InclinaisonY.setEnabled(True) self.DS_InclinaisonZ.setEnabled(True) else: ui.on_PU_Reset_Inclination() # App.Console.PrintMessage(str("on_CH_Sp_Inclination ")+str(self.CH_Sp_Inclination.isChecked())+"\n") def on_DS_Step_Of_The_Helix(self,value): # global pasHelix global baseHelix global endHelix pasHelix = value if pasHelix == 0: baseHelix = endHelix = 0.0 self.DS_Base_Helix.setValue(baseHelix) self.DS_Base_Helix.setEnabled(True) self.DS_End_Helix.setValue(endHelix) self.DS_End_Helix.setEnabled(True) else: baseHelix = endHelix = 0.0 self.DS_Base_Helix.setValue(baseHelix) self.DS_Base_Helix.setEnabled(False) self.DS_End_Helix.setValue(endHelix) self.DS_End_Helix.setEnabled(False) # App.Console.PrintMessage(str("on_DS_Step_Of_The_Helix ")+str(SizeCaractere)+"\n") def on_DS_Number_Char_Per_Turn(self,value):# global nombreCarParTour nombreCarParTour = value # App.Console.PrintMessage(str("on_DS_Number_Char_Per_Turn ")+str(nombreCarParTour)+"\n") def on_DS_Base_Helix(self,value): # global baseHelix baseHelix = value # App.Console.PrintMessage(str("on_DS_Base_Helix ")+str(baseHelix)+"\n") def on_DS_End_Helix(self,value): # global endHelix endHelix = value # App.Console.PrintMessage(str("on_DS_End_Helix ")+str(endHelix)+"\n") def on_DS_Radius_Support(self,value): # Clock global cercleClock cercleClock = value # App.Console.PrintMessage(str("on_DS_Radius_Support ")+str(cercleClock)+"\n") def on_S_Number_Faces_Support(self,value): # number Faces of support 0=none 1=circle 2=rectangle 3=triangle 4,5 ... polygon global nombreFaces # Clock nombreFaces = value self.DS_Extrude_Support.setEnabled(True) if nombreFaces == 0: self.label_5.setText(_fromUtf8("Support number face")) self.DS_Extrude_Support.setEnabled(False) elif nombreFaces == 1: self.label_5.setText(_fromUtf8("Support Circle")) elif nombreFaces == 2: self.label_5.setText(_fromUtf8("Support Rectangle")) elif nombreFaces == 3: self.label_5.setText(_fromUtf8("Support Triangle")) elif nombreFaces == 4: self.label_5.setText(_fromUtf8("Support Square")) else : self.label_5.setText(_fromUtf8("Support Polygone")) # App.Console.PrintMessage(str("on_S_Number_Faces_Support ")+str(nombreFaces)+"\n") def on_DS_Extrude_Support(self,value): # Clock global epaisSupp global epaisseur epaisSupp = value if epaisSupp >= epaisseur: if self.CH_Extrude.isChecked(): self.DS_Extrude.setStyleSheet("background-color: rgb(224, 0, 0)") self.DS_Extrude_Support.setStyleSheet("background-color: rgb(224, 0, 0)") self.CH_Extrude.setStyleSheet("background-color: QPalette.Base") # origin system else: self.DS_Extrude.setStyleSheet("background-color: rgb(255, 165, 0)") self.DS_Extrude_Support.setStyleSheet("background-color: rgb(255, 165, 0)") self.CH_Extrude.setStyleSheet("background-color: rgb(255, 165, 0)") else: self.DS_Extrude.setStyleSheet("background-color: QPalette.Base") # origin system self.DS_Extrude_Support.setStyleSheet("background-color: QPalette.Base") # origin system self.CH_Extrude.setStyleSheet("background-color: QPalette.Base") # origin system if epaisSupp == 0: self.DS_Extrude.setStyleSheet("background-color: QPalette.Base") # origin system self.DS_Extrude_Support.setStyleSheet("background-color: QPalette.Base") # origin system self.CH_Extrude.setStyleSheet("background-color: QPalette.Base") # origin system self.DS_PlacementZ.setEnabled(True) # App.Console.PrintMessage(str("on_DS_Extrude_Support ")+str(epaisSupp)+"\n") def on_PU_Roman(self): # Roman or Arabic Clock global romain if romain == 1: romain = 0 self.PU_Roman.setText(_fromUtf8("Mode Arabic")) self.PU_Roman.setToolTip(_fromUtf8("Click for activate the mode Roman")) self.PU_Roman.setIcon(QtGui.QIcon(QtGui.QPixmap(arabicIcon))) # icone dans une variable else: romain = 1 self.PU_Roman.setText(_fromUtf8("Mode Roman")) self.PU_Roman.setToolTip(_fromUtf8("Click for activate the mode Arabic")) self.PU_Roman.setIcon(QtGui.QIcon(QtGui.QPixmap(romanIcon))) # icone dans une variable # App.Console.PrintMessage(str("romain ")+str(romain)+"\n") def on_PU_Redress(self): # Redress or circumferencial Clock global redressement if redressement == 1: redressement = 0 self.PU_Redress.setText(_fromUtf8("Axial")) self.PU_Redress.setIcon(QtGui.QIcon(QtGui.QPixmap(axialIcon))) # icone dans une variable self.PU_Redress.setToolTip(_fromUtf8("Click for activate the mode Redress")) else: redressement = 1 self.PU_Redress.setText(_fromUtf8("Redress")) self.PU_Redress.setIcon(QtGui.QIcon(QtGui.QPixmap(redressIcon))) # icone dans une variable self.PU_Redress.setToolTip(_fromUtf8("Click for activate the mode Axial")) # App.Console.PrintMessage(str("redressement ")+str(redressement)+"\n") def on_PU_Reset(self): # global ui global points global coor_X global coor_Y global coor_Z global vec global PolicePath global rayon global texte global debut global rotation global SizeCaractere global precision global correctionAngle global correctionRayon global debout global exterieur global baseHelix global endHelix global pasHelix global nombreCarParTour global PivotCharachter global PlacementX global PlacementY global PlacementZ global inclinaisonX global inclinaisonY global inclinaisonZ global cercleClock global nombreFaces global romain global redressement global comP global nameL global epaisseur global epaisSupp global compount1 texte = "" self.CB_Word.setChecked(False) exterieur = 1 self.RA_Choice_Outdoor.setText(_fromUtf8("Outdoor")) self.RA_Choice_Indoor.setText(_fromUtf8("Indoor")) self.RA_Choice_Outdoor.setChecked(True) debout = 1 self.PU_Flat.setText(_fromUtf8("Mode Stand")) self.PU_Flat.setToolTip(_fromUtf8("Click for create the text Flat")) self.PU_Flat.setIcon(QtGui.QIcon(QtGui.QPixmap(standIcon))) # icone dans une variable SizeCaractere = 2.0 self.DS_Size_Character.setValue(SizeCaractere) rayon = 10.0 self.DS_Radius_Circle.setValue(rayon) debut = 0 self.S_Begin_Angle.setValue(debut) self.S_Begin_Angle.setEnabled(True) rotation = 360 self.S_End_Angle.setValue(rotation) self.S_End_Angle.setEnabled(True) correctionAngle = 10.0 self.DS_Correction_Angle.setValue(correctionAngle) self.DS_Correction_Radius.setEnabled(True) correctionRayon = 0.15 self.DS_Correction_Radius.setValue(correctionRayon) self.DS_Correction_Angle.setEnabled(True) PivotCharachter = 0.0 self.DS_Pivot_Char.setEnabled(False) self.DS_Pivot_Char.setValue(PivotCharachter) self.CH_Pivot_Character.setChecked(False) epaisseur = 0.0 self.DS_Extrude.setValue(epaisseur) self.DS_Extrude.setEnabled(False) self.DS_Extrude.setStyleSheet("background-color: QPalette.Base") # origin system self.CH_Extrude.setChecked(False) self.CH_Extrude.setStyleSheet("background-color: QPalette.Base") # origin system ui.on_PU_Reset_Placement() ui.on_PU_Reset_Inclination() self.groupBox_04.setEnabled(False) baseHelix = 0.0 self.DS_Base_Helix.setValue(baseHelix) self.DS_Base_Helix.setEnabled(False) endHelix = 0.0 self.DS_End_Helix.setValue(endHelix) self.DS_Base_Helix.setEnabled(False) pasHelix = 2.0 self.DS_Step_Of_The_Helix.setValue(pasHelix) nombreCarParTour = 10 self.DS_Number_Char_Per_Turn.setValue(nombreCarParTour) self.groupBox_05.setEnabled(False) cercleClock = rayon self.DS_Radius_Support.setValue(cercleClock) nombreFaces = 0 self.S_Number_Faces_Support.setValue(nombreFaces) self.label_5.setText(_fromUtf8("Support number face")) epaisSupp = 0.0 self.DS_Extrude_Support.setEnabled(False) self.DS_Extrude_Support.setValue(epaisSupp) self.DS_Extrude_Support.setStyleSheet("background-color: QPalette.Base") # origin system romain = 0 self.PU_Roman.setText(_fromUtf8("Mode Arabic")) self.PU_Roman.setIcon(QtGui.QIcon(QtGui.QPixmap(arabicIcon))) # icone dans une variable self.PU_Roman.setToolTip(_fromUtf8("Click for activate the mode Roman")) redressement = 0 self.PU_Redress.setText(_fromUtf8("Axial")) self.PU_Redress.setIcon(QtGui.QIcon(QtGui.QPixmap(axialIcon))) # icone dans une variable self.PU_Redress.setToolTip(_fromUtf8("Click for activate the mode Redress")) compount1 = 0 texte = self.textEdit.toPlainText() self.groupBox_01.setTitle("Text to be displayed ( "+str(len(texte))+" characters )") # App.Console.PrintMessage(str("on_PU_Reset ")+str()+"\n") def on_PU_Benchmarks(self): # Benchmarks try: global compount1 global ui compount1 = 1 ui.on_PU_Execute() except: sayexc("Error") # App.Console.PrintMessage(str("Benchmarks")+"\n") def on_PU_Execute(self): # Execute global ui global PolicePath global switchResetFALSE global points global coor_X global coor_Y global coor_Z global PlacementX global PlacementY global PlacementZ global inclinaisonX global inclinaisonY global inclinaisonZ global vec global rayon global texte global debut global rotation global SizeCaractere global PivotCharachter global ii global precision global correctionAngle global correctionRayon global debout global exterieur global baseHelix global endHelix global pasHelix global nombreCarParTour global cercleClock global nombreFaces global romain global redressement global comP global nameL global epaisseur global epaisSupp global compount1 points = [] comP = [] nameL = [] del points[:] del comP[:] del nameL[:] doc = FreeCAD.ActiveDocument if doc == None: doc = FreeCAD.newDocument() # texte = self.textEdit.toPlainText() # # if (self.CB_Word.isChecked()): # texte = texte.split(" ") # self.groupBox_01.setTitle("Text to be displayed ( "+str(len(texte))+" characters )") #### Path # create text on wire, arc, circle edge... # try: ssel = FreeCADGui.Selection.getSelectionEx() selectedEdge = lineSelected = FreeCADGui.Selection.getSelectionEx()[0].SubObjects[0] # select one element except Exception: selectedEdge = None None passNoOk = 0 if (hasattr(selectedEdge,'Surface')) or (hasattr(selectedEdge,'Point')): passNoOk = 1 if (len(ssel) != 0) and (passNoOk == 0): if self.CB_Word.isChecked(): textLabel = texte[0] else: textLabel = texte[0:10] FcString = doc.addObject("App::DocumentObjectGroup","FcStringP_" + textLabel) if self.CB_01_Points.isChecked(): FcStringPoints = doc.addObject("App::DocumentObjectGroup","FcStringPoints_" + textLabel) try: numberOfPoints = len(texte) # Decomposition number (or precision you can change) points = selectedEdge.discretize(numberOfPoints) # discretize the element pasTab = 0 for position in range(len(texte)): # list and display the coordinates ss=Draft.makeShapeString(String=texte[position],FontFile=PolicePath,Size=SizeCaractere,Tracking=0) XLongueur = ss.Shape.BoundBox.XLength # Length x boundBox rectangle YLongueur = ss.Shape.BoundBox.YLength # Length y boundBox rectangle ZLongueur = ss.Shape.BoundBox.ZLength # Length z boundBox rectangle XXLongueur = 0.0 YYLongueur = 0.0 ZZLongueur = 0.0 if self.RB_Position_01.isChecked(): None elif self.RB_Position_02.isChecked(): XXLongueur = -XLongueur/2.0; YYLongueur = -YLongueur/2.0; #ZZLongueur = -ZLongueur/2.0 elif self.RB_Position_03.isChecked(): XXLongueur = 0; YYLongueur = -YLongueur; #ZZLongueur = -ZLongueur pl = FreeCAD.Placement() # placement object if self.RB_Path_01.isChecked(): # pl.Base=FreeCAD.Vector(points[position][0] - (XXLongueur), points[position][1] - (YYLongueur), points[position][2]) pl.Base=FreeCAD.Vector(points[position][0] + (XXLongueur), points[position][1] + (YYLongueur), points[position][2]) pl.Rotation = App.Rotation(inclinaisonX, inclinaisonY, inclinaisonZ) pl = pl.multiply(App.Placement(App.Vector(PlacementX, PlacementY, PlacementZ), App.Rotation(0, 0, 0), App.Vector(0,0,0))) else: ##Extract macro_Perpendicular_To_Wire if pasTab == 0: pointsDirection = [] pointsDirection = lineSelected.discretize(Number = ((len(texte)-1) * 10)) # discretize the path line first selection pasTab = 1 try: v=pointsDirection[position*10].sub(pointsDirection[(position*10) + 1]) # avec vecteurs 1 et 2 (direction debut ligne) except Exception: v=pointsDirection[-2].sub(pointsDirection[-1]) # avec vecteurs 1 et 2 (direction debut ligne) r=App.Rotation(App.Vector(1,0,0),v) pl.Rotation.Q = r.Q pl = pl.multiply(App.Placement(App.Vector(0,0,0), App.Rotation(inclinaisonX, inclinaisonY, inclinaisonZ), App.Vector(0,0,0))) try: pl.Base = pointsDirection[position*10] except Exception: pl.Base = pointsDirection[-1] pl = pl.multiply(App.Placement(App.Vector(XXLongueur + PlacementX, YYLongueur + PlacementY, ZZLongueur + PlacementZ), App.Rotation(correctionAngle, 0, 0), App.Vector(0,0,0))) #### if self.CB_03_BBox.isChecked(): ss.ViewObject.BoundingBox = True #### ss.Label = texte[position] Draft.autogroup(ss) # ss.Label = texte[position] FcString.addObject(ss) # contener character # FcString = doc.addObject("App::DocumentObjectGroup","FcString") #### if epaisseur > 0: # extrusion characrters CharExtrude = Draft.extrude(ss,Base.Vector(0,0,epaisseur)) CharExtrude.Placement=pl CharExtrude.Label = texte[position] App.ActiveDocument.getObject(CharExtrude.Name).recompute() try: CharExtrude.ViewObject.DisplayMode = u"Flat Lines" except Exception: None #### if self.CB_03_BBox.isChecked(): CharExtrude.ViewObject.BoundingBox = True #### comP.append(CharExtrude.Shape) # nameL.append(CharExtrude.Name) FcString.addObject(CharExtrude) # contener extrude else: # ss.Placement = pl ss.Support=None try: ss.ViewObject.DisplayMode = u"Flat Lines" except Exception: None comP.append(ss.Shape) # nameL.append(ss.Name) #### if self.CB_01_Points.isChecked(): pointRepere = Draft.makePoint(pl.Base) pointRepere.ViewObject.PointColor = (1.0,0.,0.0) pointRepere.Label = texte[position] App.ActiveDocument.getObject(pointRepere.Name).recompute() FcStringPoints.addObject(pointRepere) #### if self.CB_04_Progression.isChecked(): FreeCADGui.updateGui() # rafraichi l'ecran #### except Exception: App.Console.PrintError(str("Discretize Error or selection error")+"\n") #### Path fin else: if ((exterieur == 0) and (debout == 0)): vecligne=[FreeCAD.Vector(PlacementX,PlacementY,PlacementZ),FreeCAD.Vector(rayon + correctionRayon,0.0,0.0)] # else: if exterieur == 3: vecligne=[FreeCAD.Vector(PlacementX,PlacementY,PlacementZ),FreeCAD.Vector(rayon - (SizeCaractere/2),0.0,0.0)] # elif debout == 0: vecligne=[FreeCAD.Vector(PlacementX,PlacementY,PlacementZ),FreeCAD.Vector(rayon + correctionRayon - SizeCaractere,0.0,0.0)] # else: vecligne=[FreeCAD.Vector(PlacementX,PlacementY,PlacementZ),FreeCAD.Vector(rayon + correctionRayon,0.0,0.0)] # ligne = Draft.makeWire(vecligne,closed=False,face=False,support=None) # creation de la ligne de base lineName = ligne.Name # if (self.CB_Word.isChecked()): # texte = texte.split(" ") ii = -1 ii2 = -1 nombre = len(texte) - 1 # moins 1 pour aller de 0 degres a 0 degres dans la boucle pour compatible avec Path #nombre = len(texte) # si pas - 1 ex: pour 36 lettres va de 0 degres a 350 degres coor_Z = PlacementZ if (exterieur == 0) or (debout == 0): texte = texte[::-1] if (exterieur == 0) and (debout == 0): texte = texte[::-1] if exterieur == 2: # helix if nombreCarParTour == 0: nombreCarParTour = 1 App.Console.PrintError("Insufficient number"+"\n") pas = 0.0 nombre = nombreCarParTour if pasHelix != 0: pas = pasHelix / (nombreCarParTour) else: pas = ((((endHelix - SizeCaractere)-baseHelix)/(len(texte) / nombreCarParTour))/(nombreCarParTour)) # pas of helix coor_Z += baseHelix else: nombreCarParTour = 1 if exterieur == 3: # Clock FcString = doc.addObject("App::DocumentObjectGroup","FcClock") if self.CB_01_Points.isChecked(): FcStringPoints = doc.addObject("App::DocumentObjectGroup","FcStringPoints_Clock") nombre = 12 if romain == 0: texte = ["1","2","3","4","5","6","7","8","9","10","11","12"] else: texte = ["I","II","III","IIII","V","VI","VII","VIII","IX","X","XI","XII"] texte = texte[::-1] else: if self.CB_Word.isChecked(): textLabel = texte[0] else: textLabel = texte[0:10] FcString = doc.addObject("App::DocumentObjectGroup","FcString_" + textLabel) if self.CB_01_Points.isChecked(): FcStringPoints = doc.addObject("App::DocumentObjectGroup","FcStringPoints_" + textLabel) ####Boucle principale############################################################################ boucler = int(len(texte) / nombreCarParTour) # if (len(texte) % nombreCarParTour) != 0: # calcul number spires Helix # boucler += 1 for hel in range(boucler): ii = -1 ####Boucle de travail################################################# #for angleTr in range(debut,rotation,((rotation-debut)/nombre)): # old for angleTrFloat in range((debut*10000),(rotation*10000),int((round(((float(rotation)-float(debut))/float(nombre)),4)*10000)) ): # pour 4 decimales angleTr = (float(angleTrFloat)/10000) ii += 1 ii2 += 1 ligne.Placement = App.Placement(App.Vector(PlacementX,PlacementY,PlacementZ), App.Rotation(App.Vector(0,0,1),angleTr), App.Vector(0,0,0)) a = ligne.End # fin de ligne coor_X = (a[0]) coor_Y = (a[1]) if (ii < nombre) and (ii2 < len(texte)): if exterieur == 3: # clock ligne.Placement = App.Placement(App.Vector(PlacementX,PlacementY,PlacementZ), App.Rotation(App.Vector(0,0,1),angleTr+90), App.Vector(0,0,0)) try: a = ligne.Shape.Edges[0].Vertexes[1] # fin de ligne except Exception: a = ligne.End # 0.19 fin de ligne try: coor_X = (a.Point.x) coor_Y = (a.Point.y) except Exception: coor_X = (a.x) # 0.19 fin de ligne coor_Y = (a.y) ss=Draft.makeShapeString(String=texte[ii2],FontFile=PolicePath,Size=SizeCaractere,Tracking=0) ss.Label = texte[ii2] FcString.addObject(ss) # contener character centreX = (ss.Shape.BoundBox.Center[0]) centreY = (ss.Shape.BoundBox.Center[1]) centreZ = (ss.Shape.BoundBox.Center[2]) lengthX = (ss.Shape.BoundBox.XLength) lengthY = (ss.Shape.BoundBox.YLength) lengthZ = (ss.Shape.BoundBox.ZLength) plm="" plm=FreeCAD.Placement() plm.Base=FreeCAD.Vector(coor_X,coor_Y,coor_Z) if debout == 1: # debout if exterieur == 0: # circumferential internal plm = App.Placement(App.Vector(coor_X,coor_Y,coor_Z), App.Rotation(angleTr-90-correctionAngle+inclinaisonX,inclinaisonY+PivotCharachter,90+inclinaisonZ), App.Vector(0,0,0)) # pitch,roll...1 elif exterieur == 1: # circumferential external plm = App.Placement(App.Vector(coor_X,coor_Y,coor_Z), App.Rotation(angleTr+90+correctionAngle+inclinaisonX,inclinaisonY+PivotCharachter,90+inclinaisonZ), App.Vector(0,0,0)) # pitch,roll...1 elif exterieur == 2: # circumferential helix plm = App.Placement(App.Vector(coor_X,coor_Y,coor_Z), App.Rotation(angleTr+90+correctionAngle+inclinaisonX,inclinaisonY+PivotCharachter,90+inclinaisonZ), App.Vector(0,0,0)) # pitch,roll...1 coor_Z = coor_Z + pas else: # a plat if exterieur == 1: # exterieur (superieur) plm = App.Placement(App.Vector(coor_X,coor_Y,coor_Z), App.Rotation(angleTr-90-correctionAngle+inclinaisonX+PivotCharachter,inclinaisonY,inclinaisonZ), App.Vector(0,0,0)) # pitch,roll...1 elif exterieur == 3: # circumferential plat (clock) if redressement == 1: plm = App.Placement(App.Vector(coor_X-centreX,coor_Y-centreY,coor_Z), App.Rotation(inclinaisonX+PivotCharachter,inclinaisonY,inclinaisonZ), App.Vector(0,0,0)) # pitch,roll...1 else: plm = App.Placement(App.Vector(coor_X-centreX,coor_Y-centreY,coor_Z), App.Rotation(angleTr+inclinaisonX+PivotCharachter,inclinaisonY,inclinaisonZ), App.Vector(centreX,centreY,centreZ)) # pitch,roll...1 else: # interieur (inferieur) plm = App.Placement(App.Vector(-coor_X,-coor_Y,-coor_Z), App.Rotation(angleTr+90+correctionAngle+inclinaisonX+PivotCharachter,180+inclinaisonY,180+inclinaisonZ), App.Vector(0,0,0)) # pitch,roll...1 if epaisseur > 0: # extrusion characrters CharExtrude = Draft.extrude(ss,Base.Vector(0,0,epaisseur)) CharExtrude.Label = texte[ii2] CharExtrude.Placement=plm try: CharExtrude.ViewObject.DisplayMode = u"Flat Lines" except Exception: None if self.CB_03_BBox.isChecked(): CharExtrude.ViewObject.BoundingBox = True App.ActiveDocument.getObject(CharExtrude.Name).recompute() comP.append(CharExtrude.Shape) # nameL.append(CharExtrude.Name) FcString.addObject(CharExtrude) # contener extrude else: # ss.Placement=plm ss.Support=None try: ss.ViewObject.DisplayMode = u"Flat Lines" except Exception: None if self.CB_03_BBox.isChecked(): ss.ViewObject.BoundingBox = True comP.append(ss.Shape) # nameL.append(ss.Name) # points += [FreeCAD.Vector(coor_X,coor_Y,coor_Z)] # coordinates makeBSpline #### if self.CB_01_Points.isChecked(): pointRepere = Draft.makePoint(plm.Base) pointRepere.ViewObject.PointColor = (1.0,0.,0.0) pointRepere.Label = texte[ii2] App.ActiveDocument.getObject(pointRepere.Name).recompute() FcStringPoints.addObject(pointRepere) #### if self.CB_04_Progression.isChecked(): FreeCADGui.updateGui() # rafraichi l'ecran #### #BSpline = Draft.makeBSpline(points,closed=False) # makeBSpline repere App.ActiveDocument.removeObject(lineName) # remove ligne de base directrice if (self.CB_02_Circle.isChecked()) and (passNoOk == 0): pll = FreeCAD.Placement() pll = App.Placement(App.Vector(PlacementX,PlacementY,PlacementZ), App.Rotation(App.Vector(0,0,1),0), App.Vector(0,0,0)) circle = Draft.makeCircle(radius=rayon, placement=pll, face=False, support=None) circle.Label = textLabel circle.ViewObject.LineColor = (1.0,0.,0.0) Draft.autogroup(circle) if compount1 == 1: # create compount comp = Part.makeCompound(comP) Part.show(comp) ####Boucle de travail fin######################################################################## ####Extrude support clock############################################# if nombreFaces > 0: # support clock pl = FreeCAD.Placement() if nombreFaces == 1: # circle pl.Base = FreeCAD.Vector(0.0,0.0,0.0) supp = Draft.makeCircle(cercleClock,placement=pl,face=True,support=None) if nombreFaces == 2: # rectangle cercleClock = cercleClock * 2 pl.Base = FreeCAD.Vector(-cercleClock, (-cercleClock / 2), 0.0) supp = Draft.makeRectangle((cercleClock * 2), cercleClock, placement=pl, face = True) if nombreFaces > 2: # polygone with number faces if nombreFaces == 4: rotateSupport = 45 else: rotateSupport = 90 pl = App.Placement(App.Vector(0.0,0.0,0.0), App.Rotation(rotateSupport,0,0), App.Vector(0,0,0)) supp = Draft.makePolygon(nombreFaces,cercleClock,inscribed = False,placement = pl,face = True,support=None) supp.MakeFace = True App.activeDocument().recompute() FcString.addObject(supp) # contener support if epaisSupp != 0: # extrude support clock suppExtrude = Draft.extrude(supp,Base.Vector(0,0,epaisSupp)) App.ActiveDocument.getObject(suppExtrude.Name).recompute() try: suppExtrude.ViewObject.DisplayMode = u"Flat Lines" if self.CB_03_BBox.isChecked(): suppExtrude.ViewObject.BoundingBox = True except Exception: None FcString.addObject(suppExtrude) # contener support extrude App.activeDocument().recompute() ####Info################################################ App.Console.PrintMessage("______________" +"\n") App.Console.PrintMessage( PolicePath + "\n") App.Console.PrintMessage("Texte : " + str(texte)+"\n") App.Console.PrintMessage("Rayon : " + str(rayon)+"\n") App.Console.PrintMessage("SizeCaractere : " + str(SizeCaractere)+"\n") App.Console.PrintMessage("Rotation : " + str(debut) + "/" + str(rotation)+"\n") App.Console.PrintMessage("Debout : " + str(debout)+"\n") App.Console.PrintMessage("_______________" +"\n") ####Reset################################################ if switchResetFALSE == 0: # zero (False) by default = reset ui.on_PU_Reset() def on_PB_Help_clicked(self): WebGui.openBrowser("https://wiki.freecadweb.org/Macro_FCCircularText") App.Console.PrintMessage("https://wiki.freecadweb.org/Macro_FCCircularText" + "\n") # print("Help ") def on_PU_Exit(self): # Exit global ui global s global switchModeTextList global switchFontComBox global setSystemFonts global seTtextAlignement global setFontByDefault global switchVersionSearch FreeCADGui.Selection.removeObserver(s) # desinstalle la fonction residente ###### Write Configuration begin #### FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).SetBool("switchResetFALSE", switchResetFALSE) # True or False FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).SetString("setFontByDefault", setFontByDefault) # "Arial" FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).SetBool("switchModeTextList", switchModeTextList) # True or False FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).SetBool("switchFontComBox", switchFontComBox) # True or False FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).SetBool("setSystemFonts", setSystemFonts) # True or False FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).SetInt("seTtextAlignement", seTtextAlignement) # 0, 1, 2 FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).SetBool("setPathOrthogonal", ui.RB_Path_01.isChecked()) # True or False FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).SetBool("setPathTangent", ui.RB_Path_02.isChecked()) # True or False FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).SetBool("setPositionBase", ui.RB_Position_01.isChecked()) # True or False FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).SetBool("setPositionCenter", ui.RB_Position_02.isChecked())# True or False FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).SetBool("setPositionTop", ui.RB_Position_03.isChecked()) # True or False FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).SetBool("switchVersionSearch", switchVersionSearch) # True or False ###### Write Configuration end #### App.Console.PrintMessage("Fin FCCircularText"+"\n") self.window.hide() #### FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).SetString("Version",__Version__ + " (" + __Date__ + ")")# ###### Read Configuration begin #### seTtextAlignement = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).GetInt("seTtextAlignement") setSystemFonts = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).GetBool("setSystemFonts") switchFontComBox = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).GetBool("switchFontComBox") switchModeTextList = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).GetBool("switchModeTextList") setFontByDefault = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).GetString("setFontByDefault") switchResetFALSE = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).GetBool("switchResetFALSE") setPathOrthogonal = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).GetBool("setPathOrthogonal") setPathTangent = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).GetBool("setPathTangent") setPositionBase = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).GetBool("setPositionBase") setPositionCenter = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).GetBool("setPositionCenter") setPositionTop = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macros/FCMmacros/" + __Title__).GetBool("setPositionTop") if setFontByDefault == "": if platform.system() == "Windows" : PolicePath = "C:/Windows/Fonts/" setFontByDefault = "ARIAL" elif platform.system() == "Linux" : PolicePath = "/usr/share/fonts/" setFontByDefault = "UBUNTU-M" elif platform.system() == "Darwin": PolicePath = "/Library/Fonts/" setFontByDefault = "Arial" if platform.system() == "Linux" : PolicePath = "/usr/share/fonts/" ###### Read Configuration end #### ################################################################################################## class SelObserver: def addSelection(self, document, object, element, position): # Selection global ui global PlacementX global PlacementY global PlacementZ global correctionAngle try: selectedEdge = FreeCADGui.Selection.getSelectionEx()[0].SubObjects[0] # select one subElement if (hasattr(selectedEdge,'Surface')) or (hasattr(selectedEdge,'Point')): if (hasattr(selectedEdge,'Point')): PlacementX = position[0] PlacementY = position[1] PlacementZ = position[2] ui.CH_Sp_Placement.setChecked(True) ui.DS_PlacementX.setValue(PlacementX) ui.DS_PlacementY.setValue(PlacementY) ui.DS_PlacementZ.setValue(PlacementZ) ui.on_CH_Sp_Placement() else: ui.groupBox_03.setEnabled(False) ui.groupBox_03.setStyleSheet("background-color: #F8E0E0;") ui.DS_Radius_Circle.setEnabled(False) ui.DS_Radius_Circle.setStyleSheet("background-color: #F8E0E0;") ui.S_Begin_Angle.setEnabled(False) ui.S_Begin_Angle.setStyleSheet("background-color: #F8E0E0;") ui.S_End_Angle.setEnabled(False) ui.S_End_Angle.setStyleSheet("background-color: #F8E0E0;") ui.DS_Correction_Radius.setEnabled(False) ui.DS_Correction_Radius.setStyleSheet("background-color: #F8E0E0;") ui.CB_02_Circle.setChecked(False) ui.CB_02_Circle.setEnabled(False) ui.CB_02_Circle.setStyleSheet("background-color: #F8E0E0;") ui.groupBox_055.setEnabled(True) ui.groupBox_055.setStyleSheet("background-color: #E0F8E0;") # #D0F5A9 ui.groupBox_055.setTitle(_fromUtf8("Path ( " + str(round(selectedEdge.Length, 2)) + " mm )")) correctionAngle = 0.0 ui.DS_Correction_Angle.setValue(correctionAngle) except Exception: selectedEdge = None None ## def setPreselection(self,doc,obj,sub): # preselection ## print "setPreselection" ## def removeSelection(self,doc,obj,sub): # Effacer l'objet selectionne ## print "removeSelection" ## def setSelection(self,doc): # Selection dans ComboView ## print "SelObserver quit macro" def clearSelection(self,doc): # Si clic sur l'ecran, effacer la selection #ui.on_PU_Reset_Placement() ui.groupBox_03.setEnabled(True) ui.groupBox_03.setStyleSheet("Base") ui.DS_Radius_Circle.setEnabled(True) ui.DS_Radius_Circle.setStyleSheet("Base") ui.S_Begin_Angle.setEnabled(True) ui.S_Begin_Angle.setStyleSheet("Base") ui.S_End_Angle.setEnabled(True) ui.S_End_Angle.setStyleSheet("Base") ui.DS_Correction_Radius.setEnabled(True) ui.DS_Correction_Radius.setStyleSheet("Base") ui.CB_02_Circle.setEnabled(True) ui.CB_02_Circle.setStyleSheet("Base") ui.groupBox_055.setTitle(_fromUtf8("Path")) ui.groupBox_055.setStyleSheet("Base") ui.groupBox_055.setEnabled(False) s=SelObserver() FreeCADGui.Selection.addObserver(s) # installe la fonction en mode resident ################################################################################################### # deselecter tous les objets try: for obj in FreeCAD.ActiveDocument.Objects: # deslectionne tout FreeCADGui.Selection.removeSelection(obj) except Exception: None MainWindow = QtWidgets.QMainWindow() ui = Ui_MainWindow() ui.setupUi(MainWindow) MainWindow.show()
o tele carica lo script :
- on github Macro_FCCircularText.FCMacro ver 0.16d 2020/09/15
- o dal forum Extrude from curved surface of cylinder
Esempi
-
Testo verticale (in piedi), compreso tra 180 gradi (Begin angle) e 360 gradi (End angle), esterno alla curva.
-
Testo interno alla curva.
-
Testo interno e esterno alla curva.
-
Testo circolare orizzontale (coricato) su un oggetto piano.
-
Configuration Superior.(click to elarge)
-
Configuration Inferior.(click to elarge)
-
Testo estruso, esterno alla curva.
-
Testo estruso, interno alla curva.
-
Interno e sottratto.
-
esterno alla curva.
-
interno e sottratto.
-
Estrusione su un cono con Sp. Inclination di 45° sull'asse Z.
Esempi su ellisse
-
Crea l'ellisse di 100x50.
-
Estruderla di 50 mm.
-
Discretizzare il perimetro e creare punti con la macro Work Features.
Tab Point > Point 2/3 > Points=Cut (Wire) -
Creare il cerchio da 3 punti con la macro Work Features.
Tab Circle Circle=(3 Points)
-
Creare centro del cerchio con la macro Work Features.
Tab Point > Point 1/3 > Circle(s) center. -
Creare le linee di riferimento e configurare FCCircularText.
-
Crea il testo con Run Comp.
-
Eliminare il cerchio, i punti e le linee.
-
Ellisse.
Modalità rilievo:
-
Selezionare il rettangolo e l'ellisse poi creare un composto
Attivare il modulo Part, poi il menu Part > Crea composto. -
Estrudere il composto in Solido.
-
Selezionare Shape (il testo) e il Composto poi eseguire Cut.
-
Il testo viene intagliato nella forma dell'ellisse.
-
Selezionare Ellisse estruso e il Cut (testo) e poi fonderli.
Example section path
-
Text on BoundBox Base (normal)
-
Text on BoundBox Center character
-
Text on BoundBox Top character
-
Text on selected line:
1: Orthogonal
2: Tangent
Limitativo
Note (PS: è possibile che si verifichi un errore tra le versioni. Pubblica il problema sul forum e attendi la correzione aggiornata o il rollback a una versione precedente della macro. Grazie)
È possibile che due caratteri si sovrappongano, qui un piccolo rimedio con Macro_Rotate_To_Point
-
Character overlap issue and the workaround
(non totalmente sviluppato)
In projetto :
Scrivere un testo circolare posizionato su un oggetto selezionato
Currently:
- ver 0.17b 2020/09/28 : correction little bug (pl instead plm in path section) and arrange the window (dimension) Clock, Helix, Path
- ver 0.17 2020/09/26 : adding create circular text on wire (curve, arc, spline, line ...) selected, mode word
ver 16d 2020/09/15 : vedi MasterCATZ commented Sep 14, 2020 message
Elimina il FC 0.18 test sezione:
#### Test FreeCAD.Version simple ############################################################################################################
if int(FreeCAD.Version()[1]) < 18: # Version de FreeCAD
FreeCAD.Console.PrintMessage("This version " + __Title__ + " rmu work with the FreeCAD 0.18 or higher." + "\n\n")
FreeCAD.Console.PrintMessage("For the precedent version see the page " + "\n\n")
FreeCAD.Console.PrintMessage("https://gist.githubusercontent.com/mario52a/a25e802498bae6959335/raw/db47f78f2b20a35137ac213b8d1a62d30f525dcb/Macro_FCCircularText.FCMacro" + "\n\n")
#### Test FreeCAD.Version simple ############################################################################################################
- ver 0.16c 2020/07/24 : modify text proposed by Kunda1 Please review FCVerticalText Macro
- ver 0.16b 2020/07/24 : correct __title__ to __Title__ in 0.18 FC test (see Please review FCVerticalText Macro)
- ver 0.16 2020/06/07 : little bug in Linux with the path, impost PolicePath = "/usr/share/fonts/" (stay on path /xx/xx/xx/xx/xx/xx/ on entry)
- ver 0.15 2020/06/01 : For PySide2 Qt5 adding matplotlib fonts in comboView, config on parameter
- ver 0.14-4 2020/04/25 : corretto con "DisplayMode = u"Flat Lines" :
- ver 0.14-3 2020/04/25 : adatto per :
OS: Windows 10 (10.0)
Word size of OS: 64-bit
Word size of FreeCAD: 64-bit
Version: 0.19.20655 (Git)
Build type: Release
Branch: master
Hash: e8e67e8c5ebbc9f9ed9ea67aba5b891969595ece
Python version: 3.6.8
Qt version: 5.12.1
Coin version: 4.0.0a
OCC version: 7.3.0
- ver 0.14-2 2019/07/22 replace chr(176) (give error <FC 0.18) and replace with the wmayer code, see Fehler in Version 0.19 pre ??
carDegrees = b' \xc2\xb0'.decode("utf-8") #thanks wmayer https://forum.freecadweb.org/viewtopic.php?f=13&t=36380&p=308476#p308357 self.DS_InclinaisonX.setSuffix(carDegrees) self.DS_InclinaisonY.setSuffix(carDegrees) self.DS_InclinaisonZ.setSuffix(carDegrees)
- ver 0.14-1 2019/06/11 replace "°" to chr(176)
- ver 0.14 2019/04/27 compatibile con Python 3.6.6 and Qt 5.6.2 (cause: unicode() )
latest testing:
#OS: Windows 10
#Word size of OS: 64-bit
#Word size of FreeCAD: 64-bit
#Version: 0.19.16523 (Git)
#Build type: Release
#Branch: master
#Hash: 9b3ec233c8b21e0df66fada487cd10f471d60cac
#Python version: 3.6.6
#Qt version: 5.6.2
#Coin version: 4.0.0a
#OCC version: 7.3.0
- ver 0.13 30/01/2018 add feature Pivot for rotate the character on himself
ver 0.13 09/08/2016 replace the button "New font" to "fontComboBox" cause , with Windows 10 the window Font stay empty the files are hidden
- ver 0.12 03/07/2016 optimize the code for accept the decimal number in determination angle
replace the line
for angleTr in range(debut,rotation,((rotation-debut)/nombre)):
to
for angleTrFloat in range((debut*10000),(rotation*10000),int((round(((float(rotation)-float(debut))/float(nombre)),4)*10000)) ): # pour 4 decimales
angleTr = (float(angleTrFloat)/10000)
- ver 0.10 17/05/2015 adding lines 1365, 1366 only created more clock face ?? ()
supp.MakeFace = True
App.activeDocument().recompute()
- ver 0.9 11/05/2015 thank you NormandC for testing
replace
self.DS_InclinaisonX.setSuffix(" X°")
self.DS_InclinaisonY.setSuffix(" Y°")
self.DS_InclinaisonZ.setSuffix(" Z°")
to
self.DS_InclinaisonX.setSuffix(unicode(" X°"))
self.DS_InclinaisonY.setSuffix(unicode(" Y°"))
self.DS_InclinaisonZ.setSuffix(unicode(" Z°"))
- ver 0.8 10/05/2015 replace "String=texte[ii2]" to "String=unicode(texte[ii2])" line 1290. cause "TypeError: Property 'FontFile': type must be str or unicode, not QString"
# ver 0.8 10/05/2015 /_ # testing with OS :
##################################################################################################
# OS: Ubuntu 14.04.1 LTS # OS: Ubuntu 14.04.2 LTS
# Platform: 32-bit # Word size of OS: 32-bit
# Version: 0.14.2935 (Git) # Word size of FreeCAD: 32-bit
# Branch: master # Version: 0.16.4928 (Git)
# Hash: eab159b6ee675012bf79de838c206a311e911d85 # Branch: master
# Python version: 2.7.6 # Hash: d8f63bcfd10301f3d1e141cced4370f0782238d0
# Qt version: 4.8.6 # Python version: 2.7.6
# Coin version: 4.0.0a # Qt version: 4.8.6
# SoQt version: 1.6.0a # Coin version: 4.0.0a
# OCC version: 6.7.0 # OCC version: 6.8.0.oce-0.17
##################################################################################################
# OS: Windows Vista # OS: Windows Vista
# Word size of OS: 32-bit # Word size of OS: 32-bit
# Word size of FreeCAD: 32-bit # Word size of FreeCAD: 32-bit
# Version: 0.15.4527 (Git) # Version: 0.15.4671 (Git)
# Branch: master # Branch: releases/FreeCAD-0-15
# Hash: 0da2e4c45a9a259c26abd54c2a35393e1c15696f # Hash: 244b3aef360841646cbfe80a1b225c8b39c8380c
# Python version: 2.7.8 # Python version: 2.7.8
# Qt version: 4.8.6 # Qt version: 4.8.6
# Coin version: 4.0.0a # Coin version: 4.0.0a
# OCC version: 6.7.1 # OCC version: 6.8.0.oce-0.17
##################################################################################################
- ver 0.7 02/02/2015 suppression 2 str App.Console.PrintMessage(str(PolicePath)+"\n") to App.Console.PrintMessage((PolicePath)+"\n") that caused an error with the characters above 128 in the police path.
- ver 0.6 23/11/2014 corrected "texte = unicode(self.textEdit.toPlainText())" now accept "'éèà@..."
- ver 0.5 19/11/2014 Gui
- ver 0.4 10/10/2014 add variable "rotation" in the loop (for i in range(0,rotation,(rotation/nombre)): # 360 a parametrer)
- ver 0.4 27/08/2014 correction error of de radius (exterieur=0, debout=1)
- ver 0.3 26/08/2014 add creation text of flat curve
- ver 0.2 26/08/2014 add creation text of internal curve
- ver 0.1
(2537)
Link
I commenti nella pagina del forum: Extrude from curved surface of cylinder
- Drafting: Line, Polyline, Fillet, Arc, Arc by 3 points, Circle, Ellipse, Rectangle, Polygon, B-spline, Cubic Bézier curve, Bézier curve, Point, Facebinder, ShapeString, Hatch
- Annotation: Text, Dimension, Label, Annotation styles, Annotation scale
- Modification: Move, Rotate, Scale, Mirror, Offset, Trimex, Stretch, Clone, Array, Polar array, Circular array, Path array, Path link array, Point array, Point link array, Edit, Subelement highlight, Join, Split, Upgrade, Downgrade, Wire to B-spline, Draft to sketch, Set slope, Flip dimension, Shape 2D view
- Draft Tray: Select plane, Set style, Toggle construction mode, AutoGroup
- Snapping: Snap lock, Snap endpoint, Snap midpoint, Snap center, Snap angle, Snap intersection, Snap perpendicular, Snap extension, Snap parallel, Snap special, Snap near, Snap ortho, Snap grid, Snap working plane, Snap dimensions, Toggle grid
- Miscellaneous: Apply current style, Layer, Manage layers, Add a new named group, Move to group, Select group, Add to construction group, Toggle normal/wireframe display, Create working plane proxy, Heal, Show snap toolbar
- Additional: Constraining, Pattern, Preferences, Import Export Preferences, DXF/DWG, SVG, OCA, DAT
- Context menu:
- Layer container: Merge layer duplicates, Add new layer
- Layer: Activate this layer, Select layer contents
- Text: Open hyperlinks
- Wire: Flatten
- Working plane proxy: Write camera position, Write objects state
- Getting started
- Installation: Download, Windows, Linux, Mac, Additional components, Docker, AppImage, Ubuntu Snap
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