コード例 #1
0
    def setup_hotKey(self):
        self.validate_hotkeySet()

        _press = ''
        if self._valid_cmdPress:
            #_press = mc.nameCommand( self._valid_cmdPress + 'COMMAND', annotation=self._valid_cmdPress, command=self._valid_cmdPress)
            _press = self._valid_cmdPress

        _release = ''
        if self._valid_cmdRelease:
            #_release = mc.nameCommand( self._valid_cmdRelease + 'COMMAND', annotation=self._valid_cmdRelease, command=self._valid_cmdRelease)
            _release = self._valid_cmdRelease

        _d = {
            'keyShortcut': self._d_fromUI.get('hotkey', self._d_kws['hotkey']),
            'name': _press,
            'releaseName': _release,
            'altModifier': False,
            'ctrlModifier': False,
            'shiftModifier': False
        }
        _l_order = ['keyShortcut']
        _modifer = self.validateModifier()

        if _modifer and _modifer + 'Modifier' in _d.keys():
            _d[_modifer + 'Modifier'] = True

        if mayaVersion < 2016:
            _d.pop('shiftModifier')
            if _modifer == 'shift':
                log.error(
                    "The shiftModifer was added in Maya 2016. Cannot setup.")
                return
        cgmGeneral.log_info_dict(_d, 'hotkey args')

        _k = _d.get('keyShortcut')

        log.info(_k)
        log.info(_d)
        mc.hotkey(_k, **_d)  #...run it
        mc.savePrefs(
            hk=True)  #...have to save prefs after setup or it won't keep
コード例 #2
0
ファイル: HotkeyFactory.py プロジェクト: GuidoPollini/MuTools
    def setup_hotKey(self):
        self.validate_hotkeySet()
   
        _press = ''
        if self._valid_cmdPress:
            #_press = mc.nameCommand( self._valid_cmdPress + 'COMMAND', annotation=self._valid_cmdPress, command=self._valid_cmdPress) 
            _press = self._valid_cmdPress
            
        _release = ''
        if self._valid_cmdRelease:
            #_release = mc.nameCommand( self._valid_cmdRelease + 'COMMAND', annotation=self._valid_cmdRelease, command=self._valid_cmdRelease) 
            _release = self._valid_cmdRelease
        
        _d = {'keyShortcut':self._d_fromUI.get('hotkey', self._d_kws['hotkey']),
              'name':_press,
              'releaseName':_release,
              'altModifier':False,
              'ctrlModifier':False,
              'shiftModifier':False}       
        _l_order = ['keyShortcut']
        _modifer = self.validateModifier()
        
        if _modifer and _modifer+'Modifier' in _d.keys():
            _d[_modifer+'Modifier'] = True
            
        if mayaVersion < 2016:
            _d.pop('shiftModifier')
            if _modifer == 'shift':
                log.error("The shiftModifer was added in Maya 2016. Cannot setup.")
                return
        cgmGeneral.log_info_dict(_d,'hotkey args')

        _k = _d.get('keyShortcut')

        log.info(_k)
        log.info(_d)
        mc.hotkey(_k,**_d)#...run it                                        
        mc.savePrefs(hk = True)#...have to save prefs after setup or it won't keep        
コード例 #3
0
ファイル: snap_calls.py プロジェクト: sgodanas/cgm_tools
def raySnap_start(targets=[], create=None, drag=False, snap=True, aim=False):

    _str_func = 'raySnap_start'
    _toSnap = False
    _toAim = False
    if not targets:
        targets = mc.ls(sl=True)

    if snap:
        if not create or create == 'duplicate':
            #targets = mc.ls(sl=True)#...to use g to do again?...
            _toSnap = targets

            log.debug("|{0}| | targets: {1}".format(_str_func, _toSnap))
            if not _toSnap:
                if create == 'duplicate':
                    log.error(
                        "|{0}| >> Must have targets to duplicate!".format(
                            _str_func))
                return

    if aim:
        _toAim = targets

    var_rayCastMode = cgmMeta.cgmOptionVar('cgmVar_rayCastMode',
                                           defaultValue=0)
    var_rayCastOffsetMode = cgmMeta.cgmOptionVar('cgmVar_rayCastOffsetMode',
                                                 defaultValue=0)
    var_rayCastOffsetDist = cgmMeta.cgmOptionVar('cgmVar_rayCastOffsetDist',
                                                 defaultValue=1.0)
    var_rayCastTargetsBuffer = cgmMeta.cgmOptionVar(
        'cgmVar_rayCastTargetsBuffer', defaultValue=[''])
    var_rayCastOrientMode = cgmMeta.cgmOptionVar('cgmVar_rayCastOrientMode',
                                                 defaultValue=0)
    var_objDefaultAimAxis = cgmMeta.cgmOptionVar('cgmVar_objDefaultAimAxis',
                                                 defaultValue=2)
    var_objDefaultUpAxis = cgmMeta.cgmOptionVar('cgmVar_objDefaultUpAxis',
                                                defaultValue=1)
    var_objDefaultOutAxis = cgmMeta.cgmOptionVar('cgmVar_objDefaultOutAxis',
                                                 defaultValue=0)
    var_rayCastDragInterval = cgmMeta.cgmOptionVar(
        'cgmVar_rayCastDragInterval', defaultValue=.2)
    var_aimMode = cgmMeta.cgmOptionVar('cgmVar_aimMode', defaultValue='world')

    _rayCastMode = var_rayCastMode.value
    _rayCastOffsetMode = var_rayCastOffsetMode.value
    _rayCastTargetsBuffer = var_rayCastTargetsBuffer.value
    _rayCastOrientMode = var_rayCastOrientMode.value
    _objDefaultAimAxis = var_objDefaultAimAxis.value
    _objDefaultUpAxis = var_objDefaultUpAxis.value
    _objDefaultOutAxis = var_objDefaultOutAxis.value
    _rayCastDragInterval = var_rayCastDragInterval.value

    log.debug("|{0}| >> Mode: {1}".format(_str_func, _rayCastMode))
    log.debug("|{0}| >> offsetMode: {1}".format(_str_func, _rayCastOffsetMode))

    kws = {
        'mode': 'surface',
        'mesh': None,
        'closestOnly': True,
        'create': 'locator',
        'dragStore': False,
        'orientMode': None,
        'objAimAxis': SHARED._l_axis_by_string[_objDefaultAimAxis],
        'objUpAxis': SHARED._l_axis_by_string[_objDefaultUpAxis],
        'objOutAxis': SHARED._l_axis_by_string[_objDefaultOutAxis],
        'aimMode': var_aimMode.value,
        'timeDelay': .1,
        'offsetMode': None,
        'dragInterval': _rayCastDragInterval,
        'offsetDistance': var_rayCastOffsetDist.value
    }  #var_rayCastOffsetDist.value

    if _rayCastTargetsBuffer:
        log.debug("|{0}| >> Casting at buffer {1}".format(
            _str_func, _rayCastMode))
        kws['mesh'] = _rayCastTargetsBuffer

    if _toSnap:
        kws['toSnap'] = _toSnap
    elif create:
        kws['create'] = create

    if _toAim:
        kws['toAim'] = _toAim

    if _rayCastOrientMode == 1:
        kws['orientMode'] = 'normal'

    if create == 'duplicate':
        kws['toDuplicate'] = _toSnap
        if _toSnap:
            kws['toSnap'] = False
        else:
            log.error("|{0}| >> Must have target with duplicate mode!".format(
                _str_func))
            cgmGEN.log_info_dict(kws, "RayCast args")
            return

    if drag:
        kws['dragStore'] = drag

    if _rayCastMode == 1:
        kws['mode'] = 'midPoint'
    elif _rayCastMode == 2:
        kws['mode'] = 'far'
    elif _rayCastMode == 3:
        kws['mode'] = 'surface'
        kws['closestOnly'] = False
    elif _rayCastMode == 4:
        kws['mode'] = 'planeX'
    elif _rayCastMode == 5:
        kws['mode'] = 'planeY'
    elif _rayCastMode == 6:
        kws['mode'] = 'planeZ'
    elif _rayCastMode != 0:
        log.warning("|{0}| >> Unknown rayCast mode: {1}!".format(
            _str_func, _rayCastMode))

    if _rayCastOffsetMode == 1:
        kws['offsetMode'] = 'distance'
    elif _rayCastOffsetMode == 2:
        kws['offsetMode'] = 'snapCast'
    elif _rayCastOffsetMode != 0:
        log.warning("|{0}| >> Unknown rayCast offset mode: {1}!".format(
            _str_func, _rayCastOffsetMode))
    cgmGEN.log_info_dict(kws, "RayCast args")

    cgmDrag.clickMesh(**kws)
    return
コード例 #4
0
    def getAndMove(loc, targets=None, mode=None, forceBBCenter=False):

        log.debug("|{0}| >> mode: {1} | targets: {2}".format(
            _str_func, mode, targets))
        if not targets:
            raise ValueError, "Must have targets"

        _kws = {'target': loc, 'move': True, 'rotate': True}

        if mode == 'fromTarget':
            _d = POS.get_info(targets[0])
            _kws['infoDict'] = _d

        elif mode == 'midPoint':
            if len(targets) == 1:
                _d = POS.get_info(targets[0], boundingBox=True)
                _kws['infoDict'] = _d

            elif not len(targets) >= 2:
                raise ValueError, "midPoint mode must have at least two targets"
            else:
                _d = get_midPointDict(targets, forceBBCenter)
                _kws['infoDict'] = _d

        elif mode == 'closestPoint':
            if not len(targets) >= 2:
                raise ValueError, "midPoint mode must have at least two targets"

            _d = {
                'position':
                DIST.get_by_dist(targets[0],
                                 targets[1:],
                                 resMode='pointOnSurface')
            }
            _kws['infoDict'] = _d
            _kws['rotate'] = False

        elif mode == 'closestTarget':
            if not len(targets) >= 3:
                raise ValueError, "midPoint mode must have at least three targets"

            _d = POS.get_info(
                DIST.get_by_dist(targets[0], targets[1:], resMode='object'))
            _d['rotateOrder'] = False
            _d['rotateAxis'] = False

            _kws['infoDict'] = _d

        elif mode == 'rayCast':
            _dbuffer = r9Meta.MetaClass(_loc).cgmLocDat
            _d = {}
            _p = POS.get_uv_position(_target[0], _dbuffer['uv'])
            if _dbuffer.get('offsetDist'):
                _v = POS.get_uv_normal(_target[0], _dbuffer['uv'])
                _dist = _dbuffer.get('offsetDist')
                _p = DIST.get_pos_by_vec_dist(_p, _v, _dist)
            _d['position'] = _p
            _kws['infoDict'] = _d
            _kws['rotate'] = False
        else:
            log.error("|{0}| >> unknown mode: {1}".format(_str_func, _mode))
            return False

        try:
            return position(**_kws)
        except Exception, err:
            log.error("|{0}| >> loc: {1}".format(_str_func, loc))
            cgmGeneral.log_info_dict(_kws['infoDict'],
                                     "{0} >> {1}".format(_str_func, mode))
            log.error("|{0}| >> err: {1}".format(_str_func, _err))
            return False
コード例 #5
0
                except Exception, e:
                    for arg in e.args:
                        log.error(arg)
                    raise RuntimeError, "Stop"
        _l_pyc = []

    if mode == 1:
        log.info(cgmGEN._str_subLine)
        log.info("|{0}| >> Found {1} pyc files under: {2}".format(
            _str_func, len(_l_pyc), path))
        for m in _l_pyc:
            print(m)
        return _l_pyc

    if _b_debug:
        cgmGEN.log_info_dict(_d_files, "Files")
        cgmGEN.log_info_dict(_d_names, "Imports")

    if _l_duplicates:
        log.debug(cgmGEN._str_subLine)
        log.error("|{0}| >> DUPLICATE MODULES....")
        for m in _l_duplicates:
            if _b_debug: print(m)
    log.debug("|{0}| >> Found {1} modules under: {2}".format(
        _str_func, len(_d_files.keys()), path))

    log.debug(cgmGEN._str_subLine)
    log.debug("|{0}| >> Ordered MODULES....".format(_str_func))
    for k in _l_ordered_list:
        if _b_debug: print(k)
コード例 #6
0
ファイル: puppet_utils.py プロジェクト: sgodanas/cgm_tools
                    if not cgmMeta.cgmAttr(mObj, 'mirrorSide').getDriver():
                        mObj.doStore('mirrorSide', _setMirrorSide)

                        #mObj.mirrorSide = _setMirrorSide
                        #log.info("{0} mirrorSide set to: {1}".format(mObj.p_nameShort,_setMirrorSide))
                    else:
                        pass
                        #log.info("{0} mirrorSide driven".format(mObj.p_nameShort))

                #append the control to our lists to process
                md_culling_controlLists[mObj.getEnumValueString(
                    'mirrorSide')].append(mObj)

            ml_processed.append(mi_module)  #...append

        cgmGEN.log_info_dict(md_culling_controlLists, "Culling lists")

        #...Map...
        _d_mapping = {
            'Centre': {
                'ml': md_culling_controlLists['Centre'],
                'startIdx': max(d_runningSideIdxes['Centre']) + 1
            },
            'Sides': {
                'Left': {
                    'ml': md_culling_controlLists['Left'],
                    'startIdx': max(d_runningSideIdxes['Left']) + 1
                },
                'Right': {
                    'ml': md_culling_controlLists['Right'],
                    'startIdx': max(d_runningSideIdxes['Right']) + 1