blender/release/scripts/console.py

809 lines
26 KiB
Python

#!BPY
"""
Name: 'Interactive Console'
Blender: 237
Group: 'System'
Tooltip: 'Interactive Python Console'
"""
__author__ = "Campbell Barton AKA Ideasman"
__url__ = ["Author's homepage, http://members.iinet.net.au/~cpbarton/ideasman/", "blender", "elysiun", "Official Python site, http://www.python.org"]
__bpydoc__ = """\
This is an interactive console, similar to Python's own command line interpreter. Since it is embedded in Blender, it has access to all Blender Python modules.
Those completely new to Python are recommended to check the link button above
that points to its official homepage, with news, downloads and documentation.
Usage:<br>
Type your code and hit "Enter" to get it executed.<br>
- Right mouse click: Console Menu (Save output, etc);<br>
- Mousewheel: Scroll text
- Arrow keys: command history and cursor;<br>
- Shift + Backspace: Backspace whole word;<br>
- Shift + Arrow keys: jump words;<br>
- Ctrl + (+/- or mousewheel): Zoom text size;<br>
- Ctrl + Tab: auto compleate based on variable names and modules loaded -- multiple choices popup a menu;<br>
- Ctrl + Enter: multiline functions -- delays executing code until only Enter is pressed.
"""
__author__ = "Campbell Barton AKA Ideasman"
__url__ = ["http://members.iinet.net.au/~cpbarton/ideasman/", "blender", "elysiun"]
import Blender
from Blender import *
import sys as python_sys
import StringIO
import types
# Constants
__DELIMETERS__ = '. ,=+-*/%<>&~][{}():\t'
__VARIABLE_DELIMETERS__ = ' ,=+-*/%<>&~{}():\t'
__LINE_HISTORY__ = 500
global __FONT_SIZE__
__FONT_SIZES__ = ( ('tiny', 10), ('small', 12), ('normal', 14), ('large', 16) )
__FONT_SIZE__ = 2 # index for the list above, normal default.
global __CONSOLE_LINE_OFFSET__
__CONSOLE_LINE_OFFSET__ = 0
'''
# Generic Blender functions
def getActScriptWinRect():
area = Window.GetAreaSize()
area = (area[0]-1, area[1]-1)
for scrInfo in Window.GetScreenInfo(Window.Types['SCRIPT'], 'win', ''):
if scrInfo['vertices'][2]-scrInfo['vertices'][0] == area[0]:
if scrInfo['vertices'][3]-scrInfo['vertices'][1] == area[1]:
return scrInfo['vertices']
return None
'''
# menuText, # per group
def PupMenuLess(menu, groupSize=35):
more = [' more...']
less = [' less...']
menuList= menu.split('|')
# No Less Needed, just call.
if len(menuList) < groupSize:
return Draw.PupMenu(menu)
title = menuList[0].split('%t')[0]
# Split the list into groups
menuGroups = [[]]
for li in menuList[1:]:
if len(menuGroups[-1]) < groupSize:
menuGroups[-1].append(li)
else:
menuGroups.append([li])
# Stores teh current menu group we are looking at
groupIdx = 0
while 1:
# Give us a title with the menu number
numTitle = [ ' '.join([title, str(groupIdx + 1), 'of', str(len(menuGroups)), '%t'])]
if groupIdx == 0:
menuString = '|'.join(numTitle + menuGroups[groupIdx] + more)
elif groupIdx == len(menuGroups)-1:
menuString = '|'.join(numTitle + less + menuGroups[groupIdx])
else: # In the middle somewhere so Show a more and less
menuString = '|'.join(numTitle + less + menuGroups[groupIdx] + more)
result = Draw.PupMenu(menuString)
# User Exit
if result == -1:
return -1
if groupIdx == 0: # First menu
if result-1 < groupSize:
return result
else: # must be more
groupIdx +=1
elif groupIdx == len(menuGroups): # Last Menu
if result == 1: # Must be less
groupIdx -= 1
else: # Must be a choice
return result + (groupIdx*groupSize)
else:
if result == 1: # Must be less
groupIdx -= 1
elif result-2 == groupSize:
groupIdx +=1
else:
return result - 1 + (groupIdx*groupSize)
def unzip(list):
"""
unzip: inverse of zip - converts a list of tuples into a tuple of lists
e.g.
a,b = unzip(zip(a,b))
* note: all tuples in list have to have the same length, if not,
this function will fail
"""
if len(list) == 0: return ()
l = []
for t in range(len(list[0])):
l.append(map( lambda x,t=t: x[t], list ))
return tuple(l)
# Use newstyle classes, Im not bothering with inheretence
# but slots are faster.
class cmdLine(object):
__slots__ = [\
'cmd', # is the command string, or any other message
'type',# type: 0:user input 1:program feedback 2:error message. 3:option feedback
'exe' # 0- not yet executed 1:executed
]
def __init__(self, cmd, type, exe):
self.cmd = cmd
self.type = type
self.exe = exe
# Include external file with internal namespace
def include(filename):
file = open(filename, 'r')
filedata = file.read()
file.close()
return compile(filedata, filename, 'exec')
# Writes command line data to a blender text file.
def writeCmdData(cmdLineList, type):
if type == 3:
typeList = [0,1,2, 3, None] # all
else:
typeList = [type] # so we can use athe lists 'in' methiod
newText = Text.New('command_output.py', 1)
for myCmd in cmdLineList:
if myCmd.type in typeList: # user input
newText.write('%s\n' % myCmd.cmd)
Draw.PupMenu('%s written' % newText.name)
def insertCmdData(cmdBuffer):
textNames = [tex.name for tex in Text.Get()]
if textNames:
choice = Draw.PupMenu('|'.join(textNames))
if choice != -1:
text = Text.Get()[choice-1]
# Add the text!
for l in text.asLines():
cmdBuffer.append(cmdLine('%s ' % l, 0, 0))
Draw.Redraw()
COLLECTED_VAR_NAMES = {} # a list of keys, each key has a list of absolute paths
# Pain and simple recursice dir(), accepts a string
def rdir(dirString, depth=0):
# MAX DEPTH SET HERE
if depth > 4:
print 'maxdepoth reached.'
return
global COLLECTED_VAR_NAMES
dirStringSplit = dirString.split('.')
exec('dirList = dir(%s)' % dirString)
for dirItem in dirList:
if dirItem.startswith('_'):
continue
dirData = None
try:
# Rare cases this can mess up, material.shader was a problem.
exec('dirData = %s.%s' % (dirString, dirItem))
#print dirData
except:
# Dont bother with this data.
continue
if type(dirItem) != type('str'):
print dirItem, type(dirItem)
if dirItem not in COLLECTED_VAR_NAMES.keys():
COLLECTED_VAR_NAMES[dirItem] = []
# Add the string
splitD = dirString.split('"')[-2]
if splitD not in COLLECTED_VAR_NAMES[dirItem]:
COLLECTED_VAR_NAMES[dirItem].append(splitD)
# Stops recursice stuff, overlooping
#print type(dirItem)
#if type(dirData) == types.ClassType or \
# type(dirData) == types.ModuleType:
if type(dirData) != types.StringType and\
type(dirData) != types.DictType and\
type(dirData) != types.DictionaryType and\
type(dirData) != types.FloatType and\
type(dirData) != types.IntType and\
type(dirData) != types.NoneType and\
type(dirData) != types.StringTypes and\
type(dirData) != types.TypeType and\
type(dirData) != types.TupleType and\
type(dirData) != types.BuiltinFunctionType:
# print type(dirData), dirItem
# Dont loop up dirs for strings ints etc.
if dirItem not in dirStringSplit:
rdir( '%s.%s' % (dirString, dirItem), depth+1)
'''
elif depth == 0: # Add local variables
# print type(dirData), dirItem
# Dont loop up dirs for strings ints etc.
if dirItem not in dirStringSplit:
rdir( '%s.%s' % (dirString, dirItem), depth+1)
'''
def recursive_dir():
global COLLECTED_VAR_NAMES
for name in __CONSOLE_VAR_DICT__.keys():
if not name.startswith('_'): # Dont pick names like __name__
rdir('__CONSOLE_VAR_DICT__["%s"]' % name)
#print COLLECTED_VAR_NAMES
COLLECTED_VAR_NAMES[name] = ['']
return COLLECTED_VAR_NAMES
# Runs the code line(s) the user has entered and handle errors
# As well as feeding back the output into the blender window.
def runUserCode(__USER_CODE_STRING__):
global __CONSOLE_VAR_DICT__ # We manipulate the variables here. loading and saving from localspace to this global var.
# Open A File like object to write all output to, that would useually be printed.
python_sys.stdout.flush() # Get rid of whatever came before
__FILE_LIKE_STRING__ = StringIO.StringIO() # make a new file like string, this saves up from making a file.
__STD_OUTPUT__ = python_sys.stdout # we need to store the normal output.
python_sys.stdout=__FILE_LIKE_STRING__ # Now anything printed will be written to the file like string.
# Try and run the user entered line(s)
try:
# Load all variabls from global dict to local space.
for __TMP_VAR_NAME__, __TMP_VAR__ in __CONSOLE_VAR_DICT__.items():
exec('%s%s' % (__TMP_VAR_NAME__,'=__TMP_VAR__'))
del __TMP_VAR_NAME__
del __TMP_VAR__
# Now all the vars are loaded, execute the code. # Newline thanks to phillip,
exec(compile(__USER_CODE_STRING__, 'blender_cmd.py', 'single')) #exec(compile(__USER_CODE_STRING__, 'blender_cmd.py', 'exec'))
# Flush global dict, allow the user to remove items.
__CONSOLE_VAR_DICT__ = {}
# Write local veriables to global __CONSOLE_VAR_DICT__
for __TMP_VAR_NAME__ in dir():
if __TMP_VAR_NAME__ != '__FILE_LIKE_STRING__' and\
__TMP_VAR_NAME__ != '__STD_OUTPUT__' and\
__TMP_VAR_NAME__ != '__TMP_VAR_NAME__' and\
__TMP_VAR_NAME__ != '__USER_CODE_STRING__':
# Execute the local > global coversion.
exec('%s%s' % ('__CONSOLE_VAR_DICT__[__TMP_VAR_NAME__]=', __TMP_VAR_NAME__))
del __TMP_VAR_NAME__
except: # Prints the REAL exception.
error = '%s: %s' % (python_sys.exc_type, python_sys.exc_value)
for errorLine in error.split('\n'):
cmdBuffer.append(cmdLine(errorLine, 2, None)) # new line to type into
python_sys.stdout = __STD_OUTPUT__ # Go back to output to the normal blender console
# Copy all new output to cmdBuffer
__FILE_LIKE_STRING__.seek(0) # the readline function requires that we go back to the start of the file.
for line in __FILE_LIKE_STRING__.readlines():
cmdBuffer.append(cmdLine(line, 1, None))
cmdBuffer.append(cmdLine(' ', 0, 0)) # new line to type into
python_sys.stdout=__STD_OUTPUT__
__FILE_LIKE_STRING__.close()
#------------------------------------------------------------------------------#
# event handling code #
#------------------------------------------------------------------------------#
def handle_event(evt, val):
# Insert Char into the cammand line
def insCh(ch): # Instert a char
global cmdBuffer
global cursor
# Later account for a cursor variable
cmdBuffer[-1].cmd = ('%s%s%s' % ( cmdBuffer[-1].cmd[:cursor], ch, cmdBuffer[-1].cmd[cursor:]))
#------------------------------------------------------------------------------#
# Define Complex Key Actions #
#------------------------------------------------------------------------------#
def actionEnterKey():
global histIndex, cursor, cmdBuffer
def getIndent(string):
# Gather white space to add in the previous line
# Ignore the last char since its padding.
whiteSpace = ''
#for i in range(len(cmdBuffer[-1].cmd)):
for i in range(len(string)-1):
if cmdBuffer[-1].cmd[i] == ' ' or cmdBuffer[-1].cmd[i] == '\t':
whiteSpace += string[i]
else:
break
return whiteSpace
# Are we in the moddle of a multiline part or not?
# try be smart about it
if cmdBuffer[-1].cmd.split('#')[0].rstrip().endswith(':'):
# : indicates an indent is needed
cmdBuffer.append(cmdLine('\t%s ' % getIndent(cmdBuffer[-1].cmd), 0, 0))
print ': indicates an indent is needed'
elif cmdBuffer[-1].cmd[0] in [' ', '\t'] and len(cmdBuffer[-1].cmd) > 1 and cmdBuffer[-1].cmd.split():
# white space at the start means he havnt finished the multiline.
cmdBuffer.append(cmdLine('%s ' % getIndent(cmdBuffer[-1].cmd), 0, 0))
print 'white space at the start means he havnt finished the multiline.'
elif Window.GetKeyQualifiers() & Window.Qual.CTRL:
# Crtl forces multiline
cmdBuffer.append(cmdLine('%s ' % getIndent(cmdBuffer[-1].cmd), 0, 0))
print 'Crtl forces multiline'
else: # Execute multiline code block
# Multiline code will still run with 1 line,
multiLineCode = ['if 1:'] # End of the multiline first.
# Seek the start of the file multiline
i = 1
while cmdBuffer[-i].exe == 0:
i+=1
while i > 1:
i-=1
if cmdBuffer[-i].cmd == ' ':# Tag as an output type so its not used in the key history
cmdBuffer[-i].type = 1
else: # Tab added at the start for added if 1: statement
multiLineCode.append('\t%s' % cmdBuffer[-i].cmd )
# Mark as executed
cmdBuffer[-i].exe = 1
multiLineCode.append('\tpass') # reverse will make this the start.
# Dubug, print the code that is executed.
#for m in multiLineCode: print m
runUserCode('\n'.join(multiLineCode))
# Clear the output based on __LINE_HISTORY__
if len(cmdBuffer) > __LINE_HISTORY__:
cmdBuffer = cmdBuffer[-__LINE_HISTORY__:]
histIndex = cursor = -1 # Reset cursor and history
def actionUpKey():
global histIndex, cmdBuffer
if abs(histIndex)+1 >= len(cmdBuffer):
histIndex = -1
histIndex -= 1
while cmdBuffer[histIndex].type != 0 and abs(histIndex) < len(cmdBuffer):
histIndex -= 1
if cmdBuffer[histIndex].type == 0: # we found one
cmdBuffer[-1].cmd = cmdBuffer[histIndex].cmd
def actionDownKey():
global histIndex, cmdBuffer
if histIndex >= -2:
histIndex = -len(cmdBuffer)
histIndex += 1
while cmdBuffer[histIndex].type != 0 and histIndex != -2:
histIndex += 1
if cmdBuffer[histIndex].type == 0: # we found one
cmdBuffer[-1].cmd = cmdBuffer[histIndex].cmd
def actionRightMouse():
global __FONT_SIZE__
choice = Draw.PupMenu('Console Menu%t|Write Input Data (white)|Write Output Data (blue)|Write Error Data (red)|Write All Text|%l|Insert Blender text|%l|Font Size|%l|Quit')
if choice == 1:
writeCmdData(cmdBuffer, 0) # type 0 user
elif choice == 2:
writeCmdData(cmdBuffer, 1) # type 1 user output
elif choice == 3:
writeCmdData(cmdBuffer, 2) # type 2 errors
elif choice == 4:
writeCmdData(cmdBuffer, 3) # All
elif choice == 6:
insertCmdData(cmdBuffer) # Insert text from Blender and run it.
elif choice == 8:
# Fontsize.
font_choice = Draw.PupMenu('Font Size%t|Large|Normal|Small|Tiny')
if font_choice != -1:
if font_choice == 1:
__FONT_SIZE__ = 3
elif font_choice == 2:
__FONT_SIZE__ = 2
elif font_choice == 3:
__FONT_SIZE__ = 1
elif font_choice == 4:
__FONT_SIZE__ = 0
Draw.Redraw()
elif choice == 10: # Exit
Draw.Exit()
# Auto compleating, quite complex- use recutsice dir for the moment.
def actionAutoCompleate(): # Ctrl + Tab
if not cmdBuffer[-1].cmd[:cursor].split():
return
RECURSIVE_DIR = recursive_dir()
# get last name of user input
editVar = cmdBuffer[-1].cmd[:cursor]
# Split off spaces operators etc from the staryt of the command so we can use the startswith function.
for splitChar in __VARIABLE_DELIMETERS__:
editVar = editVar[:-1].split(splitChar)[-1] + editVar[-1]
# Now we should have the var by its self
if editVar:
possibilities = []
for __TMP_VAR_NAME__ in RECURSIVE_DIR.keys():
#print '\t', __TMP_VAR_NAME__
if __TMP_VAR_NAME__ == editVar:
# print 'ADITVAR IS A VAR'
pass
'''
elif __TMP_VAR_NAME__.startswith( editVar ):
print __TMP_VAR_NAME__, 'aaa'
possibilities.append( __TMP_VAR_NAME__ )
'''
possibilities.append( __TMP_VAR_NAME__ )
if len(possibilities) == 1:
cmdBuffer[-1].cmd = ('%s%s%s' % (cmdBuffer[-1].cmd[:cursor - len(editVar)], possibilities[0], cmdBuffer[-1].cmd[cursor:]))
elif possibilities: # If its not just []
# -1 with insert is the second last.
# Text choice
#cmdBuffer.insert(-1, cmdLine('options: %s' % ' '.join(possibilities), 3, None))
menuList = [] # A lits of tuples- ABSOLUTE, RELATIVE
for __TMP_VAR_NAME__ in possibilities:
for usage in RECURSIVE_DIR[__TMP_VAR_NAME__]:
# Account for non absolute (variables for eg.)
if usage: # not ''
absName = '%s.%s' % (usage, __TMP_VAR_NAME__)
if absName.find('.'+editVar) != -1 or\
absName.startswith(editVar) or\
__TMP_VAR_NAME__.startswith(editVar):
#print editVar, 'found in', absName
menuList.append( # Used for names and can be entered when pressing shift.
(absName, # Absolute name
__TMP_VAR_NAME__) # Relative name, non shift
)
#else:
# if absName.find(editVar) != -1:
# menuList.append((__TMP_VAR_NAME__, __TMP_VAR_NAME__)) # Used for names and can be entered when pressing shift.
# No items to display? no menu
if not menuList:
return
menuList.sort()
choice = PupMenuLess( # Menu for the user to choose the autocompleate
'Choices (Shift for Whole name, Ctrl for Docs)%t|' + # Title Text
'|'.join(['%s, %s' % m for m in menuList])) # Use Absolute names m[0]
if choice != -1:
if Window.GetKeyQualifiers() & Window.Qual.CTRL: # Help
cmdBuffer[-1].cmd = ('help(%s%s) ' % (cmdBuffer[-1].cmd[:cursor - len(editVar)], menuList[choice-1][0]))
elif Window.GetKeyQualifiers() & Window.Qual.SHIFT: # Put in the long name
cmdBuffer[-1].cmd = ('%s%s%s' % (cmdBuffer[-1].cmd[:cursor - len(editVar)], menuList[choice-1][0], cmdBuffer[-1].cmd[cursor:]))
else: # Only paste in the Short name
cmdBuffer[-1].cmd = ('%s%s%s' % (cmdBuffer[-1].cmd[:cursor - len(editVar)], menuList[choice-1][1], cmdBuffer[-1].cmd[cursor:]))
else:
# print 'NO EDITVAR'
return
# ------------------end------------------ #
# Quit from menu only
#if (evt == Draw.ESCKEY and not val):
# Draw.Exit()
if evt == Draw.MOUSEX: # AVOID TOO MANY REDRAWS.
return
elif evt == Draw.MOUSEY:
return
global cursor
global histIndex
global __FONT_SIZE__
global __CONSOLE_LINE_OFFSET__
ascii = Blender.event
resetScroll = True
#------------------------------------------------------------------------------#
# key codes and key handling #
#------------------------------------------------------------------------------#
# UP DOWN ARROW KEYS, TO TRAVERSE HISTORY
if (evt == Draw.UPARROWKEY and val): actionUpKey()
elif (evt == Draw.DOWNARROWKEY and val): actionDownKey()
elif (evt == Draw.RIGHTARROWKEY and val):
if Window.GetKeyQualifiers() & Window.Qual.SHIFT:
wordJump = False
newCursor = cursor+1
while newCursor<0:
if cmdBuffer[-1].cmd[newCursor] not in __DELIMETERS__:
newCursor+=1
else:
wordJump = True
break
if wordJump: # Did we find a new cursor pos?
cursor = newCursor
else:
cursor = -1 # end of line
else:
cursor +=1
if cursor > -1:
cursor = -1
elif (evt == Draw.LEFTARROWKEY and val):
if Window.GetKeyQualifiers() & Window.Qual.SHIFT:
wordJump = False
newCursor = cursor-1
while abs(newCursor) < len(cmdBuffer[-1].cmd):
if cmdBuffer[-1].cmd[newCursor] not in __DELIMETERS__ or\
newCursor == cursor:
newCursor-=1
else:
wordJump = True
break
if wordJump: # Did we find a new cursor pos?
cursor = newCursor
else:
cursor = -len(cmdBuffer[-1].cmd) # Start of line
else:
if len(cmdBuffer[-1].cmd) > abs(cursor):
cursor -=1
elif (evt == Draw.HOMEKEY and val):
cursor = -len(cmdBuffer[-1].cmd)
elif (evt == Draw.ENDKEY and val):
cursor = -1
elif (evt == Draw.TABKEY and val):
if Window.GetKeyQualifiers() & Window.Qual.CTRL:
actionAutoCompleate()
else:
insCh('\t')
elif (evt == Draw.BACKSPACEKEY and val):
if Window.GetKeyQualifiers() & Window.Qual.SHIFT:
i = -1
for d in __DELIMETERS__:
i = max(i, cmdBuffer[-1].cmd[:cursor-1].rfind(d))
if i == -1:
i=0
cmdBuffer[-1].cmd = ('%s%s' % (cmdBuffer[-1].cmd[:i] , cmdBuffer[-1].cmd[cursor:]))
else:
# Normal backspace.
cmdBuffer[-1].cmd = ('%s%s' % (cmdBuffer[-1].cmd[:cursor-1] , cmdBuffer[-1].cmd[cursor:]))
elif (evt == Draw.DELKEY and val) and cursor < -1:
cmdBuffer[-1].cmd = cmdBuffer[-1].cmd[:cursor] + cmdBuffer[-1].cmd[cursor+1:]
cursor +=1
elif ((evt == Draw.RETKEY or evt == Draw.PADENTER) and val): actionEnterKey()
elif (evt == Draw.RIGHTMOUSE and not val): actionRightMouse(); return
elif (evt == Draw.PADPLUSKEY or evt == Draw.EQUALKEY or evt == Draw.WHEELUPMOUSE) and val and Window.GetKeyQualifiers() & Window.Qual.CTRL:
__FONT_SIZE__ += 1
__FONT_SIZE__ = min(len(__FONT_SIZES__)-1, __FONT_SIZE__)
elif (evt == Draw.PADMINUS or evt == Draw.MINUSKEY or evt == Draw.WHEELDOWNMOUSE) and val and Window.GetKeyQualifiers() & Window.Qual.CTRL:
__FONT_SIZE__ -=1
__FONT_SIZE__ = max(0, __FONT_SIZE__)
elif evt == Draw.WHEELUPMOUSE and val:
__CONSOLE_LINE_OFFSET__ += 1
__CONSOLE_LINE_OFFSET__ = min(len(cmdBuffer)-2, __CONSOLE_LINE_OFFSET__)
resetScroll = False
elif evt == Draw.WHEELDOWNMOUSE and val:
__CONSOLE_LINE_OFFSET__ -= 1
__CONSOLE_LINE_OFFSET__ = max(0, __CONSOLE_LINE_OFFSET__)
resetScroll = False
elif ascii:
insCh(chr(ascii))
else:
return # dont redraw.
# If the user types in anything then scroll to bottom.
if resetScroll:
__CONSOLE_LINE_OFFSET__ = 0
Draw.Redraw()
def draw_gui():
# Get the bounds from ObleGL directly
__CONSOLE_RECT__ = BGL.Buffer(BGL.GL_FLOAT, 4)
BGL.glGetFloatv(BGL.GL_SCISSOR_BOX, __CONSOLE_RECT__)
__CONSOLE_RECT__= __CONSOLE_RECT__.list
# Clear the screen
BGL.glClearColor(0.0, 0.0, 0.0, 1.0)
BGL.glClear(BGL.GL_COLOR_BUFFER_BIT) # use it to clear the color buffer
# Fixed margin. use a margin since 0 margin can be hard to seewhen close to a crt's edge.
margin = 4
# Draw cursor location colour
if __CONSOLE_LINE_OFFSET__ == 0:
cmd2curWidth = Draw.GetStringWidth(cmdBuffer[-1].cmd[:cursor], __FONT_SIZES__[__FONT_SIZE__][0])
BGL.glColor3f(0.8, 0.2, 0.2)
if cmd2curWidth == 0:
BGL.glRecti(margin,2,margin+2, __FONT_SIZES__[__FONT_SIZE__][1]+2)
else:
BGL.glRecti(margin + cmd2curWidth-2,2, margin+cmd2curWidth, __FONT_SIZES__[__FONT_SIZE__][1]+2)
BGL.glColor3f(1,1,1)
# Draw the set of cammands to the buffer
consoleLineIdx = __CONSOLE_LINE_OFFSET__ + 1
wrapLineIndex = 0
while consoleLineIdx < len(cmdBuffer) and __CONSOLE_RECT__[3] > (consoleLineIdx - __CONSOLE_LINE_OFFSET__) * __FONT_SIZES__[__FONT_SIZE__][1]:
if cmdBuffer[-consoleLineIdx].type == 0:
BGL.glColor3f(1, 1, 1)
elif cmdBuffer[-consoleLineIdx].type == 1:
BGL.glColor3f(.3, .3, 1)
elif cmdBuffer[-consoleLineIdx].type == 2:
BGL.glColor3f(1.0, 0, 0)
elif cmdBuffer[-consoleLineIdx].type == 3:
BGL.glColor3f(0, 0.8, 0)
else:
BGL.glColor3f(1, 1, 0)
if consoleLineIdx == 1: # NEVER WRAP THE USER INPUT
BGL.glRasterPos2i(margin, (__FONT_SIZES__[__FONT_SIZE__][1] * (consoleLineIdx-__CONSOLE_LINE_OFFSET__)) - 8)
# BUG, LARGE TEXT DOSENT DISPLAY
Draw.Text(cmdBuffer[-consoleLineIdx].cmd, __FONT_SIZES__[__FONT_SIZE__][0])
else: # WRAP?
# LINE WRAP
if Draw.GetStringWidth(cmdBuffer[-consoleLineIdx].cmd, __FONT_SIZES__[__FONT_SIZE__][0]) > __CONSOLE_RECT__[2]:
wrapLineList = []
copyCmd = [cmdBuffer[-consoleLineIdx].cmd, '']
while copyCmd != ['','']:
while margin + Draw.GetStringWidth(copyCmd[0], __FONT_SIZES__[__FONT_SIZE__][0]) > __CONSOLE_RECT__[2]:
#print copyCmd
copyCmd[1] = '%s%s'% (copyCmd[0][-1], copyCmd[1]) # Add the char on the end
copyCmd[0] = copyCmd[0][:-1]# remove last chat
# Now we have copyCmd[0] at a good length we can print it.
if copyCmd[0] != '':
wrapLineList.append(copyCmd[0])
copyCmd[0]=''
copyCmd = [copyCmd[1], copyCmd[0]]
# Now we have a list of lines, draw them (OpenGLs reverse ordering requires this odd change)
wrapLineList.reverse()
for wline in wrapLineList:
BGL.glRasterPos2i(margin, (__FONT_SIZES__[__FONT_SIZE__][1]*((consoleLineIdx-__CONSOLE_LINE_OFFSET__) + wrapLineIndex)) - 8)
Draw.Text(wline, __FONT_SIZES__[__FONT_SIZE__][0])
wrapLineIndex += 1
wrapLineIndex-=1 # otherwise we get a silly extra line.
else: # no wrapping.
BGL.glRasterPos2i(margin, (__FONT_SIZES__[__FONT_SIZE__][1] * ((consoleLineIdx-__CONSOLE_LINE_OFFSET__)+wrapLineIndex)) - 8)
Draw.Text(cmdBuffer[-consoleLineIdx].cmd, __FONT_SIZES__[__FONT_SIZE__][0])
consoleLineIdx += 1
# This recieves the event index, call a function from here depending on the event.
def handle_button_event(evt):
pass
# Run the console
__CONSOLE_VAR_DICT__ = {} # Initialize var dict
# Print Startup lines, add __bpydoc__ to the console startup.
cmdBuffer = []
for l in __bpydoc__.split('<br>'):
cmdBuffer.append( cmdLine(l, 1, None) )
histIndex = cursor = -1 # How far back from the first letter are we? - in current CMD line, history if for moving up and down lines.
# Autoexec, startup code.
scriptDir = Get('scriptsdir')
if not scriptDir.endswith(Blender.sys.sep):
scriptDir += Blender.sys.sep
console_autoexec = '%s%s' % (scriptDir, 'console_autoexec.py')
if not sys.exists(console_autoexec):
# touch the file
cmdBuffer.append(cmdLine('...console_autoexec.py not found, making new in scripts dir', 1, None))
open(console_autoexec, 'w').close()
else:
cmdBuffer.append(cmdLine('...Using existing console_autoexec.py in scripts dir', 1, None))
#-Autoexec---------------------------------------------------------------------#
# Just use the function to jump into local naming mode.
# This is so we can loop through all of the autoexec functions / vars and add them to the __CONSOLE_VAR_DICT__
def include_console(includeFile):
global __CONSOLE_VAR_DICT__ # write autoexec vars to this.
# Execute an external py file as if local
exec(include(includeFile))
# Write local to global __CONSOLE_VAR_DICT__ for reuse,
for __TMP_VAR_NAME__ in dir() + dir(Blender):
# Execute the local > global coversion.
exec('%s%s' % ('__CONSOLE_VAR_DICT__[__TMP_VAR_NAME__]=', __TMP_VAR_NAME__))
include_console(console_autoexec) # pass the blender module
#-end autoexec-----------------------------------------------------------------#
# Append new line to write to
cmdBuffer.append(cmdLine(' ', 0, 0))
#------------------------------------------------------------------------------#
# register the event handling code, GUI #
#------------------------------------------------------------------------------#
def main():
Draw.Register(draw_gui, handle_event, handle_button_event)
main()