diff options
author | Remigiusz Fiedler <migius@gmx.net> | 2008-01-18 20:03:43 +0300 |
---|---|---|
committer | Remigiusz Fiedler <migius@gmx.net> | 2008-01-18 20:03:43 +0300 |
commit | 3df9587b40b109b97fd674cc03ab6d1801ae3e24 (patch) | |
tree | 33f3a7d85c2c391992bd6e17e14548d022362350 | |
parent | 09c2fd6f11eb00809678e869aec32f305e03ef02 (diff) |
update with many improvements:
v1.0.12: 2008.01.17 by migius
a8 lately used INI-dir/filename persistently stored in Registry
a8 lately used DXF-dir/filename persistently stored in Registry
a7 fix missing layersmap{} for dxf-files without "section:layer"
a6 added support for XREF external referenced BLOCKs
a6 check for bug in AutoCAD2002:DXFr12export: ELLIPSE->POLYLINE_ARC fault angles
a6 support VIEWs and VPORTs as cameras: ortho and perspective mode
a6 save resources through ignoring unused BLOCKs (not-inserted or on frozen/blocked layers)
a6 added try_finally: f.close() for all IO-files
a6 added handling for TypeError raise
a5 bugfix f_getOCS for (0,0,z!=1.0) (ellipse in Kai's dxf)
a4 added to analyzeTool: report about VIEWs, VPORTs, unused/xref BLOCKs
a4 bugfix: individual support for 2D/3DPOLYLINE/POLYMESH
a4 added to UI: (*wip)BLOCK-(F): name filtering for BLOCKs
a4 added to UI: BLOCK-(n): filter anoname/hatch BLOCKs *X...
a2 g_scale_as is no more GUI_A-variable
a2 bugfix "material": negative sign color_index
a2 added support for BLOCKs defined with origin !=(0,0,0)
a1 added 'global.reLocation-vector' option
v1.0.11: 2007.11.24 by migius
c8 added 'curve_resolution_U' option
c8 added context_sensitivity for some UI-buttons
c8 bugfix ELLIPSE rotation, added closed_variant and caps
c7 rebuild UI: new layout, grouping and meta-buttons
c6 rewritten support for ELLIPSE mesh & curve representation
c6 restore selector-buttons for DXF-drawTypes: LINE & Co
c6 change header of INI/INF-files: # at begin
c6 apply scale(1,1,1) after glob.Scale for all mesh objects, not for curve objects.
c5 fixing 'material_on' option
-rw-r--r-- | release/scripts/import_dxf.py | 2072 |
1 files changed, 1559 insertions, 513 deletions
diff --git a/release/scripts/import_dxf.py b/release/scripts/import_dxf.py index 2a1081420e4..16f21f71fff 100644 --- a/release/scripts/import_dxf.py +++ b/release/scripts/import_dxf.py @@ -7,72 +7,98 @@ Group: 'Import' Tooltip: 'Import for DXF geometry data (Drawing eXchange Format).' """ __author__ = 'Kitsu(Ed Blake) & migius(Remigiusz Fiedler)' -__version__ = '1.0.11 - 2007.11.17 by migius' +__version__ = '1.0.12 - 2008.01.17 by migius' __url__ = ["http://blenderartists.org/forum/showthread.php?t=84319", "http://wiki.blender.org/index.php/Scripts/Manual/Import/DXF-3D"] __email__ = ["Kitsune_e(at)yahoo.com", "migius(at)4d-vectors.de"] __bpydoc__ = """\ -This script imports DXF objects (2d/3d) into Blender. +This script imports objects from DXF (2d/3d) into Blender. -This script imports 2d and 3d Geometery from DXFr12 format files. -This version is focused on import of 3d-objects. +This script imports 2d and 3d geometery from DXFr12 format files. +Enhanced features are: +- configurable object filtering and geometry manipulation, +- configurable material pre-processing, +- DXF-data analyze and raporting. -Supported DXF Objects: +Supported DXF r12 objects: LINE, POINT, SOLID, TRACE, TEXT, INSERT (=block), -MINSERT (=arrays of blocks), +MINSERT (=array of blocks), CIRCLE, ARC, 3DFACE, 2d-POLYLINE (=plane, incl. arc, variable-width, curve, spline), -3d-POLYLINE (=non-plane polylines), +3d-POLYLINE (=non-plane), 3d-POLYMESH, -3d-POLYFACE +3d-POLYFACE, +VIEW, VPORT +XREF (External Reference). + +Supported DXF>r12 objects: +ELLIPSE, +(wip v1.0.12 partly supported) LWPOLYLINE (LightWeight), +(wip v1.0.12) MLINE, +(wip v1.0.12) MTEXT + +Unsupported Objects: +DXF r12: DIMENSION. +DXF>r12: SPLINE, GROUP, RAY/XLINE, LEADER, 3DSOLID, BODY, REGION, dynamic BLOCK -under construction, partly supported DXF>r12 Objects: -LWPOLYLINE (LightWeight), MLINE, MTEXT, ELLIPSE +Supported Geometry: 2d and 3d DXF-objects. +Curves imported as curves or meshes optionally. -Unsupported DXF Objects: -DXF r12: DIMENSION, XREF (External Reference), -DXF>r12: SPLINE, GROUP, RAY/XLINE, LEADER, 3DSOLID, BODY, REGION, dynamic BLOCK +Supported layout modes: +"model space" is default, +"paper space" as option (= "layout views") + +Scene definitions produced with AVE_RENDER: +scene: selection of lights assigned to the camera, +lights: DIRECT, OVERHEAD, SH_SPOT, +(wip v1.0.13 import of AVE_RENDER material definitions) + +Hierarchy: +Entire DXF BLOCK hierarchy is preserved after import into Blender +(BLOCKs as groups on layer19, INSERTs as dupliGroups on target layer). -Supported Properties: -Hierarchy: Entire DXF BLOCKs hierarchy is preserved after import into Blender -visibility, frozen, -COLOR, LAYER, -thickness, width, -(todo: grouped, XDATA) -It is recommended to use DXF-object properties for coding Blender materials. +Supported properties: +visibility status, +frozen status, +thickness, +width, +color, +layer, +(wip v1.0.12: XDATA, grouped status) +It is recommended to use DXF-object properties for assign Blender materials. Notes: - Recommend that you run 'RemoveDoubles' on each imported mesh after using this script - Blocks are created on layer 19 then referenced at each insert point. -- Big DXF-files (over 1500 objects) decrease import performance. The problem is not the inefficiency of python-scripting but Blenders performance in creating new objects in his database - probably a database management problem. +- Big DXF-files (over 1500 objects) decrease import performance. +The problem is not the inefficiency of python-scripting but Blenders performance +in creating new objects in his database - probably a database management problem. TODO: - the new style object visibility - support for real 3d-solids (ACIS) -- (to see more, search for "-todo-" in script) +- (to see more, search for "--todo--" in script code) """ """ History: - v1.0 - 2007.11. by migius: "full 3d"-release + v1.0 - 2008.01. by migius planned tasks: -- command-line-mode/batch-mode -- in-place-editing for dupliGroups - -- filtering of unused/not-inserted BLOCKs - -- support for MLine - -- support for Ellipse - -- support for Mtext - -- blender_object.ID.properties[dxf_layer_name] + -- support for MLINE (is exported to r12 as BLOCK*Unnamed with LINEs) + -- support for MTEXT (is exported to r12 as TEXT???) + -- blender_object.properties['dxf_layer_name'] -- better support for long dxf-layer-names - -- Configuration files(.ini) should/can handle various material setups + -- add configuration file.ini handles multiple material setups -- added f_layerFilter -- to-check: obj/mat/group/_mapping-idea from ideasman42: -- curves: added "fill/non-fill" option for closed curves: CIRCLEs,ELLIPSEs,POLYLINEs @@ -80,10 +106,42 @@ History: -- "normalize Z" option to correct non-planar figures -- LINEs need "width" in 3d-space incl vGroups -- support width_force for LINEs/ELLIPSEs = "solidify" - -- bug: dxf-files without layer-section missing layersmap{} - -- color BYLAYER=256,BYBLOCK=0 - -- blocknames conventions length - v1.0.11: 2007.11.17 by migius + -- add better support for color_index BYLAYER=256, BYBLOCK=0 + -- bug: "oneMesh" produces sometimes errors + -- bug: Registry recall from hd_cache ?? only win32 bug?? + + v1.0.12: 2008.01.17 by migius + -- support DXF-definitions of scene, lights and cameras + -- support ortho mode for VIEWs and VPORTs as cameras + a8 lately used INI-dir/filename persistently stored in Registry + a8 lately used DXF-dir/filename persistently stored in Registry + a7 fix missing layersmap{} for dxf-files without "section:layer" + a6 added support for XREF external referenced BLOCKs + a6 check for bug in AutoCAD2002:DXFr12export: ELLIPSE->POLYLINE_ARC fault angles + a6 support VIEWs and VPORTs as cameras: ortho and perspective mode + a6 save resources through ignoring unused BLOCKs (not-inserted or on frozen/blocked layers) + a6 added try_finally: f.close() for all IO-files + a6 added handling for TypeError raise + a5 bugfix f_getOCS for (0,0,z!=1.0) (ellipse in Kai's dxf) + a4 added to analyzeTool: report about VIEWs, VPORTs, unused/xref BLOCKs + a4 bugfix: individual support for 2D/3DPOLYLINE/POLYMESH + a4 added to UI: (*wip)BLOCK-(F): name filtering for BLOCKs + a4 added to UI: BLOCK-(n): filter anoname/hatch BLOCKs *X... + a2 g_scale_as is no more GUI_A-variable + a2 bugfix "material": negative sign color_index + a2 added support for BLOCKs defined with origin !=(0,0,0) + a1 added 'global.reLocation-vector' option + + v1.0.11: 2007.11.24 by migius + c8 added 'curve_resolution_U' option + c8 added context_sensitivity for some UI-buttons + c8 bugfix ELLIPSE rotation, added closed_variant and caps + c7 rebuild UI: new layout, grouping and meta-buttons + c6 rewritten support for ELLIPSE mesh & curve representation + c6 restore selector-buttons for DXF-drawTypes: LINE & Co + c6 change header of INI/INF-files: # at begin + c6 apply scale(1,1,1) after glob.Scale for all mesh objects, not for curve objects. + c5 fixing 'material_on' option c4 added "analyze DXF-file" UI-option: print LAYER/BLOCK-dependences into a textfile c3 human-formating of data in INI-Files c2 added "caps" for closed Bezier-curves @@ -101,17 +159,19 @@ History: b2 fixing material assignment by LAYER+COLOR b1 fixing Bezier curves representation of POLYLINEs-arc-segments b0 added global_scale_presets: "yard/feet/inch to meter" + v1.0.10: 2007.10.18 by migius a6 bugfix CircleDrawCaps for OSX a5 added two "curve_res" UI-buttons for Bezier curves representation a5 improved Bezier curves representation of circles/arcs: correct handlers - a4 first try to fix malformed endpoints of Blender curves of imported ARCs and POLYLINE-arc segments. - a3 bugfix: open POLYLINEs with end_point.loc==start_point.loc + a4 try to fix malformed endpoints of Blender curves of ARC/POLYLINE-arc segments. + a3 bugfix: open-POLYLINEs with end_point.loc==start_point.loc a2 bugfix: f_transform for OCS=(0,0,-1) oriented objects - a1 added "fill_on" option to draw top and bottom sides of CIRCLEs and ELLIPSEs + a1 added "fill_on=caps" option to draw top and bottom sides of CIRCLEs and ELLIPSEs a1 rewrite f_CIRCLE.Draw: from Mesh.Primitive to Mesh - a1 bugfix "newScene"-mode: Cylinders/Arcs were drawn at <0,0,0>location - beta09: 2007.09.02 by migius + a1 bugfix "newScene"-mode: all Cylinders/Arcs were drawn at <0,0,0>location + + v1.0.beta09: 2007.09.02 by migius g5 redesign UI: grouping of buttons g3 update multi-import-mode: <*.*> button g- added multi-import-mode: (path/*) for importing many dxf-files at once @@ -124,7 +184,7 @@ History: f- added import POLYLINE-arc-segments into Blender-BezierCurves f- added import POLYLINE-Bezier-curves into Blender-Curves d5 rewrite: Optimization Levels, added 'directDrawing' - d4 added: f_set_thick(cntrolled by ini-parameters) + d4 added: f_set_thick(controlled by ini-parameters) d4 bugfix: face-normals in objects with minus thickness d4 added: placeholder'Empty'-size in f_Insert.draw d3 rewrite f_Text.Draw: added support for all Text's parameters @@ -139,23 +199,24 @@ History: a- added support for 2d-POLYLINE: splines, fitted curves, fitted surfaces a- redesign f_Drawer for block_definitions a- rewrite import into Blender-Curve-Object - beta08: 2007.07.27 by migius + + v1.0.beta08 - 2007.07.27 by migius: "full 3d"-release l- bugfix: solid_vgroups, clean:scene.objects.new() l- redesign UI to standard Draw.Register+FileSelector, advanced_config_option k- bugfix UI:fileSelect() for MacOSX os.listdir() k- added reset/save/load for config-data k- redesign keywords/drawTypes/Draw.Create_Buttons - j- new interface using UIBlock() with own FileSelector, cause Window.FileSelector() too buggy + j- new UI using UIBlock() with own FileSelector, cause problem Window.FileSelector() i- rewritten Class:Settings for better config-parameter management h- bugfix: face-normals in objects with minus thickness - h- added Vertex-Groups in polylines and solids generated Meshes, for easier material assignment + h- added Vertex-Groups in POLYLINE and SOLID meshes, for easy material assignment h- beautify code, whitespace->tabs h- added settings.thic_force switch for forcing thickness - h- added one Object/Mesh for all simple-entities from the same Layer, - sorted in Vertex-Groups(color_name) (fewer objects = better import performance) + h- added "one Mesh" option for all entities from the same Layer, sorted in<br> + Vertex-Groups(color_name) (fewer objects = better import performance) g- rewrote: insert-point-handle-object is a small tetrahedron e- bugfix: closed-polymesh3d - - rewrote: startUI, type_map.keys, f_drawer, for all class_f_draw(added "settings" as attribut) + - rewrote: UI, type_map.keys, f_drawer, all class_f_draw(added "settings" as attribut) - added 2d/3d-support for Polyline_Width incl. angle intersection beta07: 2007.06.19 by migius - added 3d-support for LWPolylines @@ -167,7 +228,7 @@ History: - added 2d/3d-support for 3d-PolyLine, PolyMesh and PolyFace - added Global-Scale for size control of imported scenes beta04: 2007.06.12 by migius - - rewrote the f_calcBulge for correct import the arc-segments of Polylines + - rewrote the f_drawBulge for correct import the arc-segments of Polylines beta03: 2007.06.10 by migius - rewrote interface beta02: 2007.06.09 by migius @@ -180,13 +241,16 @@ History: - added 2d+3d-support for Solids and Traces v0.9 - 2007.01 by kitsu: (for 2.43) + - first draft of true POLYLINE import - v0.8 - 2006.12 by kitsu: + - first draft of object space coordinates OCS import - v0.5b - 2006.10 by kitsu: (for 2.42a) - - + - dxfReader.py + - color_map.py """ @@ -240,7 +304,7 @@ except ImportError: pass print '\n\n\n\n' -print 'Import DXF to Blender *** start ***' #--------------------- +print 'DXF-Importer *** start ***' #--------------------- SCENE = None WORLDX = Mathutils.Vector((1,0,0)) @@ -248,10 +312,13 @@ WORLDY = Mathutils.Vector((1,1,0)) WORLDZ = Mathutils.Vector((0,0,1)) G_SCALE = 1.0 #(0.0001-1000) global scaling factor for all dxf data +G_ORIGIN_X = 0.0 #global translation-vector (x,y,z) in DXF units +G_ORIGIN_Y = 0.0 +G_ORIGIN_Z = 0.0 MIN_DIST = 0.001 #cut-off value for sort out short-distance polyline-"duoble_vertex" ARC_RESOLUTION = 64 #(4-500) arc/circle resolution - number of segments ARC_RADIUS = 1.0 #(0.01-100) arc/circle radius for number of segments algorithm -CURV_RESOLUTION = 12 #(3-50) Bezier curves resolution +CURV_RESOLUTION = 12 #(1-128) Bezier curves U-resolution CURVARC_RESOLUTION = 4 #(3-32) resolution of circle represented as Bezier curve THIN_RESOLUTION = 8 #(4-64) thin_cylinder arc_resolution - number of segments MIN_THICK = MIN_DIST * 10.0 #minimal thickness by forced thickness @@ -266,8 +333,8 @@ FILENAME_MAX = 180 #max length of path+file_name string (FILE_MAXDIR + FILE_MAX MAX_NAMELENGTH = 17 #max_effective_obnamelength in blender =21=17+(.001) INIFILE_DEFAULT_NAME = 'importDXF' INIFILE_EXTENSION = '.ini' -INIFILE_HEADER = 'ImportDXF.py ver.1.0 config data' -INFFILE_HEADER = 'ImportDXF.py ver.1.0 analyze of DXF-data' +INIFILE_HEADER = '#ImportDXF.py ver.1.0 config data' +INFFILE_HEADER = '#ImportDXF.py ver.1.0 analyze of DXF-data' AUTO = BezTriple.HandleTypes.AUTO FREE = BezTriple.HandleTypes.FREE @@ -344,6 +411,174 @@ AT_LEAST = 1 #taller characters will override EXACT = 2 #taller characters will not override +class View: #----------------------------------------------------------------- + """Class for objects representing dxf VIEWs. + """ + def __init__(self, obj, active=None): + """Expects an object of type VIEW as input. + """ + if not obj.type == 'view': + raise TypeError, "Wrong type %s for VIEW object!" %obj.type + + self.type = obj.type + self.name = obj.get_type(2)[0] + self.data = obj.data[:] + + + self.centerX = getit(obj.data, 10, 0.0) #view center pointX (in DCS) + self.centerY = getit(obj.data, 20, 0.0) #view center pointY (in DCS) + self.height = obj.get_type(40)[0] #view height (in DCS) + self.width = obj.get_type(41)[0] #view width (in DCS) + + self.dir = [0,0,0] + self.dir[0] = getit(obj.data, 11, 0.0) #view directionX from target (in WCS) + self.dir[1] = getit(obj.data, 21, 0.0) # + self.dir[2] = getit(obj.data, 31, 0.0) # + + self.target = [0,0,0] + self.target[0] = getit(obj.data, 12, 0.0) #target pointX(in WCS) + self.target[1] = getit(obj.data, 22, 0.0) # + self.target[2] = getit(obj.data, 32, 0.0) # + + self.length = obj.get_type(42)[0] #Lens length + self.clip_front = getit(obj.data, 43) #Front clipping plane (offset from target point) + self.clip_back = getit(obj.data, 44) #Back clipping plane (offset from target point) + self.twist = obj.get_type(50)[0] #view twist angle in degrees + + self.flags = getit(obj, 70, 0) + self.paperspace = self.flags & 1 # + + self.mode = obj.get_type(71)[0] #view mode (VIEWMODE system variable) + + def __repr__(self): + return "%s: name - %s, focus length - %s" %(self.__class__.__name__, self.name, self.length) + + + def draw(self, settings): + """for VIEW: generate Blender_camera. + """ + obname = 'vw_%s' %self.name # create camera object name + #obname = 'ca_%s' %self.name # create camera object name + obname = obname[:MAX_NAMELENGTH] + + if self.target == [0,0,0] and Mathutils.Vector(self.dir).length == 1.0: + cam= Camera.New('ortho', obname) + ob= SCENE.objects.new(cam) + cam.type = 'ortho' + cam.scale = 1.0 # for ortho cameras + else: + cam= Camera.New('persp', obname) + ob= SCENE.objects.new(cam) + cam.type = 'persp' + cam.angle = 60.0 # for persp cameras + if self.length: + #cam.angle = 2 * atan(17.5/self.length) * 180/pi + cam.lens = self.length #for persp cameras + # hack to update Camera>Lens setting (inaccurate as a focal length) + #curLens = cam.lens; cam.lens = curLens + # AutoCAD gets clip distance from target: + dist = Mathutils.Vector(self.dir).length + cam.clipEnd = dist - self.clip_back + cam.clipStart = dist - self.clip_front + + cam.drawLimits = 1 + cam.drawSize = 10 + + v = Mathutils.Vector(self.dir) +# print 'deb:view cam:', cam #------------ +# print 'deb:view self.target:', self.target #------------ +# print 'deb:view self.dir:', self.dir #------------ +# print 'deb:view self.twist:', self.twist #------------ +# print 'deb:view self.clip_front=%s, self.clip_back=%s, dist=%s' %(self.clip_front, self.clip_back, dist) #------------ + transform(v.normalize(), -self.twist, ob) + ob.loc = Mathutils.Vector(self.target) + Mathutils.Vector(self.dir) + return ob + + +class Vport: #----------------------------------------------------------------- + """Class for objects representing dxf VPORTs. + """ + def __init__(self, obj, active=None): + """Expects an object of type VPORT as input. + """ + if not obj.type == 'vport': + raise TypeError, "Wrong type %s for VPORT object!" %obj.type + + self.type = obj.type + self.name = obj.get_type(2)[0] + self.data = obj.data[:] + #print 'deb:vport name, data:', self.name #------- + #print 'deb:vport data:', self.data #------- + + self.height = obj.get_type(40)[0] #vport height (in DCS) + self.centerX = getit(obj.data, 12, 0.0) #vport center pointX (in DCS) + self.centerY = getit(obj.data, 22, 0.0) #vport center pointY (in DCS) + self.width = self.height * obj.get_type(41)[0] #vport aspect ratio - width (in DCS) + + self.dir = [0,0,0] + self.dir[0] = getit(obj.data, 16, 0.0) #vport directionX from target (in WCS) + self.dir[1] = getit(obj.data, 26, 0.0) # + self.dir[2] = getit(obj.data, 36, 0.0) # + + self.target = [0,0,0] + self.target[0] = getit(obj.data, 17, 0.0) #target pointX(in WCS) + self.target[1] = getit(obj.data, 27, 0.0) # + self.target[2] = getit(obj.data, 37, 0.0) # + + self.length = obj.get_type(42)[0] #Lens length + self.clip_front = getit(obj.data, 43) #Front clipping plane (offset from target point) + self.clip_back = getit(obj.data, 44) #Back clipping plane (offset from target point) + self.twist = obj.get_type(51)[0] #view twist angle + + self.flags = getit(obj, 70, 0) + self.paperspace = self.flags & 1 # + + self.mode = obj.get_type(71)[0] #view mode (VIEWMODE system variable) + + def __repr__(self): + return "%s: name - %s, focus length - %s" %(self.__class__.__name__, self.name, self.length) + + def draw(self, settings): + """for VPORT: generate Blender_camera. + """ + obname = 'vp_%s' %self.name # create camera object name + #obname = 'ca_%s' %self.name # create camera object name + obname = obname[:MAX_NAMELENGTH] + + if self.target == [0,0,0] and Mathutils.Vector(self.dir).length == 1.0: + cam= Camera.New('ortho', obname) + ob= SCENE.objects.new(cam) + cam.type = 'ortho' + cam.scale = 1.0 # for ortho cameras + else: + cam= Camera.New('persp', obname) + ob= SCENE.objects.new(cam) + cam.type = 'persp' + cam.angle = 60.0 # for persp cameras + if self.length: + #cam.angle = 2 * atan(17.5/self.length) * 180/pi + cam.lens = self.length #for persp cameras + # hack to update Camera>Lens setting (inaccurate as a focal length) + #curLens = cam.lens; cam.lens = curLens + # AutoCAD gets clip distance from target: + dist = Mathutils.Vector(self.dir).length + cam.clipEnd = dist - self.clip_back + cam.clipStart = dist - self.clip_front + + cam.drawLimits = 1 + cam.drawSize = 10 + + v = Mathutils.Vector(self.dir) +# print 'deb:view cam:', cam #------------ +# print 'deb:view self.target:', self.target #------------ +# print 'deb:view self.dir:', self.dir #------------ +# print 'deb:view self.twist:', self.twist #------------ +# print 'deb:view self.clip_front=%s, self.clip_back=%s, dist=%s' %(self.clip_front, self.clip_back, dist) #------------ + transform(v.normalize(), -self.twist, ob) + ob.loc = Mathutils.Vector(self.target) + Mathutils.Vector(self.dir) + return ob + + class Layer: #----------------------------------------------------------------- """Class for objects representing dxf LAYERs. @@ -426,6 +661,7 @@ class Solid: #----------------------------------------------------------------- obj.type = 'solid' if not obj.type == 'solid': raise TypeError, "Wrong type \'%s\' for solid/trace object!" %obj.type + self.type = obj.type self.data = obj.data[:] @@ -597,10 +833,10 @@ class Line: #----------------------------------------------------------------- if settings.var['lines_as'] == 4: # as thin_box thic = settings.var['thick_min'] width = settings.var['width_min'] - if settings.var['lines_as'] == 3: # as thin cylinder + elif settings.var['lines_as'] == 3: # as thin cylinder cyl_rad = 0.5 * settings.var['width_min'] - if settings.var['curves_on']: # LINE curve representation------------------------- + if settings.var['lines_as'] == 5: # LINE curve representation------------------------- obname = 'li_%s' %self.layer # create object name from layer name obname = obname[:MAX_NAMELENGTH] @@ -610,6 +846,7 @@ class Line: #----------------------------------------------------------------- for point in curve: point.handleTypes = [VECT, VECT] curve.flagU = 0 # 0 sets the curve not cyclic=open + c.setResolu(settings.var['curve_res']) c.update() #important for handles calculation ob = SCENE.objects.new(c) # create a new curve_object @@ -733,13 +970,13 @@ class Point: #----------------------------------------------------------------- thic = settings.var['thick_min'] if thic < settings.var['dist_min']: thic = settings.var['dist_min'] - if points_as in [1,3,4]: - if points_as == 1: # as 'empty' + if True: #--todo-- points_as in [1,3,4,5]: + if True: # points_as in [1,5]: # as 'empty' c = 'Empty' - if points_as == 3: # as 'thin sphere' + elif points_as == 3: # as 'thin sphere' res = settings.var['thin_res'] c = Mesh.Primitives.UVsphere(res,res,thic) - if points_as == 4: # as 'thin box' + elif points_as == 4: # as 'thin box' c = Mesh.Primitives.Cube(thic) ob = SCENE.objects.new(c, obname) # create a new object transform(self.extrusion, 0, ob) @@ -767,7 +1004,6 @@ class Point: #----------------------------------------------------------------- - class LWpolyline: #----------------------------------------------------------------- """Class for objects representing dxf LWPOLYLINEs. """ @@ -974,14 +1210,21 @@ class Polyline: #-------------------------------------------------------------- """for POLYLINE: generate Blender_geometry. """ ob = [] - if self.plface: #---- 3dPolyFace - mesh with free topology + #---- 3dPolyFace - mesh with free topology + if self.plface and settings.drawTypes['plmesh']: ob = self.drawPlFace(settings) - elif self.plmesh: #---- 3dPolyMesh - mesh with ortogonal topology + #---- 3dPolyMesh - mesh with ortogonal topology + elif self.plmesh and settings.drawTypes['plmesh']: ob = self.drawPlMesh(settings) #---- 2dPolyline - plane polyline with arc/wide/thic segments + elif (self.poly2d and settings.drawTypes['polyline']): + if settings.var['plines_as'] == 5: # and self.spline: + ob = self.drawPolyCurve(settings) + else: + ob = self.drawPoly2d(settings) #---- 3dPolyline - non-plane polyline (thin segments = without arc/wide/thic) - elif self.poly2d or self.poly3d: - if settings.var['curves_on']: # and self.spline: + elif (self.poly3d and settings.drawTypes['pline3']): + if settings.var['plines3_as'] == 5: # and self.spline: ob = self.drawPolyCurve(settings) else: ob = self.drawPoly2d(settings) @@ -992,7 +1235,7 @@ class Polyline: #-------------------------------------------------------------- def drawPlFace(self, settings): #---- 3dPolyFace - mesh with free topology """Generate the geometery of polyface. """ - #print 'deb:polyface.draw.START:----------------' #------------------------ + #print 'deb:drawPlFace.START:----------------' #------------------------ points = [] faces = [] #print 'deb:len of pointsList ====== ', len(self.points) #------------------------ @@ -1003,22 +1246,24 @@ class Polyline: #-------------------------------------------------------------- points.append(point.loc) - #print 'deb:len of points_list:\n', len(points) #----------------------- - #print 'deb:points_list:\n', points #----------------------- - #print 'deb:faces_list:\n', faces #----------------------- + #print 'deb:drawPlFace: len of points_list:\n', len(points) #----------------------- + #print 'deb:drawPlFace: len of faces_list:\n', len(faces) #----------------------- + #print 'deb:drawPlFace: points_list:\n', points #----------------------- + #print 'deb:drawPlFace: faces_list:\n', faces #----------------------- obname = 'pf_%s' %self.layer # create object name from layer name obname = obname[:MAX_NAMELENGTH] me = Mesh.New(obname) # create a new mesh ob = SCENE.objects.new(me) # create a new mesh_object me.verts.extend(points) # add vertices to mesh me.faces.extend(faces) # add faces to the mesh + #print 'deb:drawPlFace: len of me.faces:\n', len(me.faces) #----------------------- if settings.var['meshSmooth_on']: # ---------------------- - for i in xrange(len(faces)): + for i in xrange(len(me.faces)): me.faces[i].smooth = True #me.Mode(AUTOSMOOTH) transform(self.extrusion, 0, ob) - #print 'deb:polyface.draw.END:----------------' #------------------------ + #print 'deb:drawPlFace.END:----------------' #------------------------ return ob @@ -1288,6 +1533,7 @@ class Polyline: #-------------------------------------------------------------- else: pline.setFlag(pline.getFlag() & ~6) # dont set top and button caps + pline.setResolu(settings.var['curve_res']) pline.update() ob = SCENE.objects.new(pline) # create a new curve_object @@ -1816,7 +2062,8 @@ class Vertex(object): #-------------------------------------------------------- v4 = getit(data, 74, None) # polyface:Face.vertex 4. self.face = [abs(v1)-1,abs(v2)-1,abs(v3)-1] if v4 != None: - self.face.append(abs(v4)-1) + if abs(v4) != abs(v1): + self.face.append(abs(v4)-1) else: #--parameter for polyline2d self.swidth = getit(data, 40, None) # start width self.ewidth = getit(data, 41, None) # end width @@ -2167,18 +2414,15 @@ class Circle: #---------------------------------------------------------------- radius = self.radius thic = set_thick(self.thic, settings) - if settings.var['curves_on']: - if False: # universal version - arc_res = 4 # ONLY 4 works well for point.handleTypes = [AUTO, AUTO] - start, end = 0.0, 360.0 - verts = calcArc(None, radius, start, end, arc_res, True) - c = Curve.New(obname) # create new curve data - curve = c.appendNurb(BezTriple.New(verts[0])) - for p in verts[1:-1]: - curve.append(BezTriple.New(p)) - for point in curve: - point.handleTypes = [AUTO, AUTO] - elif True: # universal version + width = 0.0 + if settings.var['lines_as'] == 4: # as thin_box + thic = settings.var['thick_min'] + width = settings.var['width_min'] + if settings.var['lines_as'] == 3: # as thin cylinder + cyl_rad = 0.5 * settings.var['width_min'] + + if settings.var['lines_as'] == 5: # draw CIRCLE as curve ------------- + if True: # universal version arc_res = settings.var['curve_arc'] #arc_res = 3 start, end = 0.0, 360.0 @@ -2214,9 +2458,10 @@ class Circle: #---------------------------------------------------------------- else: c.setFlag(c.getFlag() & ~6) # dont set top and button caps + c.setResolu(settings.var['curve_res']) c.update() - #remi --todo-----to check--------------------------- + #--todo-----to check--------------------------- ob = SCENE.objects.new(c) # create a new curve_object ob.loc = tuple(self.loc) if thic != 0.0: #hack: Blender<2.45 curve-extrusion @@ -2254,7 +2499,8 @@ class Circle: #---------------------------------------------------------------- start, end = 0.0 , 360.0 verts = calcArc(None, radius, start, end, arc_res, False) verts = verts[:-1] #list without last point/edge (cause by circle it is equal to the first point) - #print 'deb:circleDraw:edges:', edges #--------------- + #print 'deb:circleDraw: verts:', verts #--------------- + if thic != 0: len1 = len(verts) thic_verts = [] @@ -2395,7 +2641,7 @@ class Arc: #----------------------------------------------------------------- if settings.var['lines_as'] == 3: # as thin cylinder cyl_rad = 0.5 * settings.var['width_min'] - if settings.var['curves_on']: # draw ARC as curve ------------- + if settings.var['lines_as'] == 5: # draw ARC as curve ------------- arc_res = settings.var['curve_arc'] triples = True VectorTriples = calcArc(None, radius, start, end, arc_res, triples) @@ -2406,6 +2652,8 @@ class Arc: #----------------------------------------------------------------- for point in curve: point.handleTypes = [FREE, FREE] curve.flagU = 0 # 0 sets the curve not cyclic=open + arc.setResolu(settings.var['curve_res']) + arc.update() #important for handles calculation ob = SCENE.objects.new(arc) # create a new curve_object @@ -2420,8 +2668,8 @@ class Arc: #----------------------------------------------------------------- return ob else: # draw ARC as mesh -------------------- - arc = Mesh.New(obname) # create a new mesh - ob = SCENE.objects.new(arc) # create a new arc_object + me = Mesh.New(obname) # create a new mesh + ob = SCENE.objects.new(me) # create a new mesh_object # set a number of segments in entire circle arc_res = settings.var['arc_res'] * sqrt(radius) / sqrt(settings.var['arc_rad']) @@ -2430,34 +2678,19 @@ class Arc: #----------------------------------------------------------------- len1 = len(verts) #print 'deb:len1:', len1 #----------------------- if width != 0: - if False: - radius_out = radius + (0.5 * width) - radius_in = radius - (0.5 * width) - if radius_in <= 0.0: - radius_in = settings.var['dist_min'] - #radius_in = 0.0 - verts_in = [] - verts_out = [] - for point in verts: - pointVec = Mathutils.Vector(point) - pointVec = pointVec.normalize() - verts_in.append(list(radius_in * pointVec)) #vertex inside - verts_out.append(list(radius_out * pointVec)) #vertex outside - verts = verts_in + verts_out - else: - radius_out = radius + (0.5 * width) - radius_in = radius - (0.5 * width) - if radius_in <= 0.0: - radius_in = settings.var['dist_min'] - #radius_in = 0.0 - verts_in = [] - verts_out = [] - for point in verts: - pointVec = Mathutils.Vector(point) - pointVec = pointVec.normalize() - verts_in.append(list(radius_in * pointVec)) #vertex inside - verts_out.append(list(radius_out * pointVec)) #vertex outside - verts = verts_in + verts_out + radius_out = radius + (0.5 * width) + radius_in = radius - (0.5 * width) + if radius_in <= 0.0: + radius_in = settings.var['dist_min'] + #radius_in = 0.0 + verts_in = [] + verts_out = [] + for point in verts: + pointVec = Mathutils.Vector(point) + pointVec = pointVec.normalize() + verts_in.append(list(radius_in * pointVec)) #vertex inside + verts_out.append(list(radius_out * pointVec)) #vertex outside + verts = verts_in + verts_out #print 'deb:verts:', verts #--------------------- if thic != 0: @@ -2476,13 +2709,13 @@ class Arc: #----------------------------------------------------------------- f_end = [[len1+len1-1, 0+len1-1, len1+len1+len1-1, len1+len1+len1+len1-1]] faces = f_left + f_right + f_bottom + f_top + f_start + f_end - arc.verts.extend(verts) # add vertices to mesh - arc.faces.extend(faces) # add faces to the mesh + me.verts.extend(verts) # add vertices to mesh + me.faces.extend(faces) # add faces to the mesh if settings.var['meshSmooth_on']: # left and right side become smooth ---------------------- smooth_len = len(f_left) + len(f_right) for i in xrange(smooth_len): - arc.faces[i].smooth = True + me.faces[i].smooth = True # each MeshSide becomes vertexGroup for easier material assignment --------------------- if settings.var['vGroup_on']: # each MeshSide becomes vertexGroup for easier material assignment --------------------- @@ -2492,18 +2725,18 @@ class Arc: #----------------------------------------------------------------- for v in f_right: vg_right.extend(v) for v in f_top: vg_top.extend(v) for v in f_bottom: vg_bottom.extend(v) - arc.addVertGroup('side.left') ; arc.assignVertsToGroup('side.left', list(set(vg_left)), 1.0, replace) - arc.addVertGroup('side.right') ; arc.assignVertsToGroup('side.right', list(set(vg_right)), 1.0, replace) - arc.addVertGroup('side.top') ; arc.assignVertsToGroup('side.top', list(set(vg_top)), 1.0, replace) - arc.addVertGroup('side.bottom'); arc.assignVertsToGroup('side.bottom',list(set(vg_bottom)), 1.0, replace) - arc.addVertGroup('side.start'); arc.assignVertsToGroup('side.start', f_start[0], 1.0, replace) - arc.addVertGroup('side.end') ; arc.assignVertsToGroup('side.end', f_end[0], 1.0, replace) + me.addVertGroup('side.left') ; me.assignVertsToGroup('side.left', list(set(vg_left)), 1.0, replace) + me.addVertGroup('side.right') ; me.assignVertsToGroup('side.right', list(set(vg_right)), 1.0, replace) + me.addVertGroup('side.top') ; me.assignVertsToGroup('side.top', list(set(vg_top)), 1.0, replace) + me.addVertGroup('side.bottom'); me.assignVertsToGroup('side.bottom',list(set(vg_bottom)), 1.0, replace) + me.addVertGroup('side.start'); me.assignVertsToGroup('side.start', f_start[0], 1.0, replace) + me.addVertGroup('side.end') ; me.assignVertsToGroup('side.end', f_end[0], 1.0, replace) else: # if thick=0 - draw only flat ring faces = [[num, len1+num, len1+num+1, num+1] for num in xrange(len1 - 1)] - arc.verts.extend(verts) # add vertices to mesh - arc.faces.extend(faces) # add faces to the mesh + me.verts.extend(verts) # add vertices to mesh + me.faces.extend(faces) # add faces to the mesh elif thic != 0: thic_verts = [] @@ -2518,20 +2751,20 @@ class Arc: #----------------------------------------------------------------- #print 'deb:verts:', verts #--------------------- faces = [[num, num+1, num+len1+1, num+len1] for num in xrange(len1 - 1)] - arc.verts.extend(verts) # add vertices to mesh - arc.faces.extend(faces) # add faces to the mesh + me.verts.extend(verts) # add vertices to mesh + me.faces.extend(faces) # add faces to the mesh if settings.var['meshSmooth_on']: # left and right side become smooth ---------------------- for i in xrange(len(faces)): - arc.faces[i].smooth = True + me.faces[i].smooth = True else: edges = [[num, num+1] for num in xrange(len(verts)-1)] - arc.verts.extend(verts) # add vertices to mesh - arc.edges.extend(edges) # add edges to the mesh + me.verts.extend(verts) # add vertices to mesh + me.edges.extend(edges) # add edges to the mesh - #arc.update() - #ob = SCENE.objects.new(arc) # create a new arc_object - #ob.link(arc) + #me.update() + #ob = SCENE.objects.new(me) # create a new arc_object + #ob.link(me) ob.loc = tuple(center) #ob.loc = Mathutils.Vector(ob.loc) transform(self.extrusion, 0, ob) @@ -2582,30 +2815,44 @@ class Block: #----------------------------------------------------------------- """ if not obj.type == 'block': raise TypeError, "Wrong type %s for block object!" %obj.type + self.type = obj.type - self.data = obj.data[:] self.name = obj.name + self.data = obj.data[:] # required data - self.flags = obj.get_type(70)[0] - self.entities = dxfObject('block_contents') #creates empty entities_container for this block - self.entities.data = objectify([ent for ent in obj.data if type(ent) != list]) + self.flags = getit(obj, 70, 0) + self.anonim = self.flags & 1 #anonymous block generated by hatching, associative dimensioning, other + self.atrib = self.flags & 2 # has attribute definitions + self.xref = self.flags & 4 # is an external reference (xref) + self.xref_lay = self.flags & 8 # is an xref overlay + self.dep_ext = self.flags & 16 # is externally dependent + self.dep_res = self.flags & 32 # resolved external reference + self.xref_ext = self.flags & 64 # is a referenced external reference xref + #--todo--- if self.flag > 4: self.xref = True # optional data (with defaults) - self.path = getit(obj, 1, '') + self.path = getit(obj, 1, '') # Xref path name self.discription = getit(obj, 4, '') + self.entities = dxfObject('block_contents') #creates empty entities_container for this block + self.entities.data = objectify([ent for ent in obj.data if type(ent) != list]) + self.layer = getit(obj.data, 8, None) self.loc = self.get_loc(obj.data) + #print 'deb:Block %s data:\n%s' %(self.name, self.data) #------------ + #print 'deb:Block %s self.entities.data:\n%s' %(self.name, self.entities.data) #------------ + + def get_loc(self, data): """Gets the insert point of the block. """ loc = [0, 0, 0] - loc[0] = getit(data, 10, None) # 10 = x - loc[1] = getit(data, 20, None) # 20 = y - loc[2] = getit(data, 30, 0.0) # 30 = z + loc[0] = getit(data, 10, 0.0) # 10 = x + loc[1] = getit(data, 20, 0.0) # 20 = y + loc[2] = getit(data, 30, 0.0) # 30 = z return loc @@ -2626,9 +2873,10 @@ class Insert: #---------------------------------------------------------------- raise TypeError, "Wrong type %s for insert object!" %obj.type self.type = obj.type self.data = obj.data[:] + #print 'deb:Insert_init_ self.data:\n', self.data #----------- # required data - self.blockname = obj.get_type(2)[0] + self.name = obj.get_type(2)[0] # optional data (with defaults) self.rotation = getit(obj, 50, 0) @@ -2641,6 +2889,8 @@ class Insert: #---------------------------------------------------------------- self.rows, self.columns = self.get_array(obj.data) self.extrusion = get_extrusion(obj.data) + #self.flags = getit(obj.data, 66, 0) # + #self.attrib = self.flags & 1 def get_loc(self, data): @@ -2653,7 +2903,6 @@ class Insert: #---------------------------------------------------------------- return loc - def get_scale(self, data): """Gets the x/y/z scale factors of the insert. """ @@ -2664,7 +2913,6 @@ class Insert: #---------------------------------------------------------------- return scale - def get_array(self, data): """Returns the pair (row number, row spacing), (column number, column spacing). """ @@ -2675,9 +2923,38 @@ class Insert: #---------------------------------------------------------------- return (rows, rspace), (columns, cspace) + def get_target(self, data): + """Gets the origin location of the insert. + """ + loc = [0, 0, 0] + loc[0] = getit(data, 1011, 0.0) + loc[1] = getit(data, 1021, 0.0) + loc[2] = getit(data, 1031, 0.0) + return loc + + + def get_color(self, data): + """Gets the origin location of the insert. + """ + loc = [0, 0, 0] + loc[0] = getit(data, 1010, 0.0) + loc[1] = getit(data, 1020, 0.0) + loc[2] = getit(data, 1030, 0.0) + return loc + + + def get_ave_render(self, data): + """Gets the origin location of the insert. + """ + loc = [0, 0, 0] + loc[0] = getit(data, 1010, 0.0) + loc[1] = getit(data, 1020, 0.0) + loc[2] = getit(data, 1030, 0.0) + return loc + def __repr__(self): - return "%s: layer - %s, blockname - %s" %(self.__class__.__name__, self.layer, self.blockname) + return "%s: layer - %s, name - %s" %(self.__class__.__name__, self.layer, self.name) def draw(self, settings, deltaloc): @@ -2692,11 +2969,89 @@ class Insert: #---------------------------------------------------------------- insert object gives the location/scale/rotation of the block instances. """ - obname = settings.blocknamesmap[self.blockname] - obname = 'in_%s' %obname # create object name from block name - #obname = obname[:MAX_NAMELENGTH] - - if settings.drawTypes['insert']: #if insert_drawType activated + name = self.name.lower() + if name == 'ave_render': + if settings.var['lights_on']: #if lights support activated + a_data = get_ave_data(self.data) + # AVE_RENDER objects: + # 7:'Pref', 0:'Full Opt', 0:'Quick Opt', 1:'Scanl Opt', 2:'Raytr Opt', 0:'RFile Opt' + # 0:'Fog Opt', 0:'BG Opt', 0:'SCENE1','','','','','','','','','', + # '','','','','','','','','','','','', + + if a_data.key == 'SCENE': # define set of lights as blender group + scene_lights = 1 + elif False: # define set of lights as blender group + scene_lights = 1 + return + elif name == 'ave_global': + if settings.var['lights_on']: #if lights support activated + return + elif name == 'sh_spot': + if settings.var['lights_on']: #if lights support activated + obname = settings.blocknamesmap[self.name] + obname = 'sp_%s' %obname # create object name from block name + #obname = obname[:MAX_NAMELENGTH] + # blender: 'Lamp', 'Sun', 'Spot', 'Hemi', 'Area', or 'Photon' + li = Lamp.New('Spot', obname) + ob = SCENE.objects.new(li) + intensity = 2.0 #--todo-- ----------- + li.setEnergy(intensity) + target = self.get_target(self.data) + color = self.get_color(self.data) + li.R = color[0] + li.G = color[1] + li.B = color[2] + + ob.loc = tuple(self.loc) + transform(self.extrusion, 0, ob) + return ob + + elif name == 'overhead': + if settings.var['lights_on']: #if lights support activated + obname = settings.blocknamesmap[self.name] + obname = 'la_%s' %obname # create object name from block name + #obname = obname[:MAX_NAMELENGTH] + # blender: 'Lamp', 'Sun', 'Spot', 'Hemi', 'Area', or 'Photon' + li = Lamp.New('Lamp', obname) + ob = SCENE.objects.new(li) + intensity = 2.0 #--todo-- ----------- + li.setEnergy(intensity) + target = self.get_target(self.data) + color = self.get_color(self.data) + li.R = color[0] + li.G = color[1] + li.B = color[2] + + ob.loc = tuple(self.loc) + transform(self.extrusion, 0, ob) + return ob + + elif name == 'direct': + if settings.var['lights_on']: #if lights support activated + obname = settings.blocknamesmap[self.name] + obname = 'su_%s' %obname # create object name from block name + #obname = obname[:MAX_NAMELENGTH] + # blender: 'Lamp', 'Sun', 'Spot', 'Hemi', 'Area', or 'Photon' + li = Lamp.New('Sun', obname) + ob = SCENE.objects.new(li) + intensity = 2.0 #--todo-- ----------- + li.setEnergy(intensity) + color = self.get_color(self.data) + li.R = color[0] + li.G = color[1] + li.B = color[2] + + ob.loc = tuple(self.loc) + transform(self.extrusion, 0, ob) + return ob + + elif settings.drawTypes['insert']: #if insert_drawType activated + print 'deb:draw. settings.blocknamesmap:', settings.blocknamesmap #-------------------- + obname = settings.blocknamesmap[self.name] + obname = 'in_%s' %obname # create object name from block name + #obname = obname[:MAX_NAMELENGTH] + + # if material BYBLOCK def needed: use as placeholder a mesh-vertex instead of empty ob = SCENE.objects.new('Empty', obname) # create a new empty_object empty_size = 1.0 * settings.var['g_scale'] if empty_size < 0.01: empty_size = 0.01 #Blender limits (0.01-10.0) @@ -2704,19 +3059,22 @@ class Insert: #---------------------------------------------------------------- ob.drawSize = empty_size # get our block_def-group - block = settings.blocks(self.blockname) + block = settings.blocks(self.name) ob.DupGroup = block ob.enableDupGroup = True - #print 'deb:draw.block.deltaloc:', deltaloc #-------------------- - ob.loc = tuple(self.loc) - if deltaloc: - deltaloc = rotXY_Vec(self.rotation, deltaloc) - #print 'deb:draw.block.loc:', deltaloc #-------------------- - ob.loc = [ob.loc[0]+deltaloc[0], ob.loc[1]+deltaloc[1], ob.loc[2]+deltaloc[2]] - transform(self.extrusion, self.rotation, ob) - ob.size = tuple(self.scale) - return ob + if block.name.startswith('xr_'): + ob.name = 'xb_' + ob.name[3:] + + #print 'deb:draw.block.deltaloc:', deltaloc #-------------------- + ob.loc = tuple(self.loc) + if deltaloc: + deltaloc = rotXY_Vec(self.rotation, deltaloc) + #print 'deb:draw.block.loc:', deltaloc #-------------------- + ob.loc = [ob.loc[0]+deltaloc[0], ob.loc[1]+deltaloc[1], ob.loc[2]+deltaloc[2]] + transform(self.extrusion, self.rotation, ob) + ob.size = tuple(self.scale) + return ob @@ -2734,8 +3092,8 @@ class Ellipse: #--------------------------------------------------------------- self.data = obj.data[:] # required data - self.ratio = obj.get_type(40)[0] - self.start_angle = obj.get_type(41)[0] + self.ratio = obj.get_type(40)[0] # Ratio of minor axis to major axis + self.start_angle = obj.get_type(41)[0] # in radians self.end_angle = obj.get_type(42)[0] # optional data (with defaults) @@ -2747,7 +3105,6 @@ class Ellipse: #--------------------------------------------------------------- self.loc = self.get_loc(obj.data) self.major = self.get_major(obj.data) self.extrusion = get_extrusion(obj.data) - self.radius = sqrt(self.major[0]**2 + self.major[0]**2 + self.major[0]**2) def get_loc(self, data): @@ -2781,31 +3138,176 @@ class Ellipse: #--------------------------------------------------------------- def draw(self, settings): """for ELLIPSE: generate Blender_geometry. """ - # Generate the geometery + obname = 'el_%s' %self.layer # create object name from layer name + obname = obname[:MAX_NAMELENGTH] + center = self.loc + if True: + start = degrees(self.start_angle) + end = degrees(self.end_angle) + if abs(end - 360.0) < 0.00001: end = 360.0 + ellipse_closed = False + if end - start == 360.0: ellipse_closed = True + + else: # bug in AutoCAD_2002 dxf-exporter into r12 for ELLIPSE->POLYLINE_ARC + #print 'deb:calcEllipse---------:\n start=%s\n end=%s' %(self.start_angle, self.end_angle) #--------- + if self.start_angle > pi+pi: self.start_angle %= pi+pi + if self.end_angle > pi+pi: self.end_angle %= pi+pi + if abs(self.end_angle - pi - pi) < 0.00001: self.end_angle = pi + pi + ellipse_closed = False + if abs(self.end_angle - self.start_angle) == pi + pi: ellipse_closed = True + test = self.start_angle % pi + if test < 0.001 or pi - test < 0.001: start = self.start_angle + else: + start = atan(tan(self.start_angle) * self.ratio) + if start < 0.0: start += pi + if self.start_angle > pi: start += pi + test = self.end_angle % pi + if test < 0.001 or pi - test < 0.001: end = self.end_angle + else: + end = atan(tan(self.end_angle) * self.ratio) + if end < 0.0: end += pi + if self.end_angle > pi: end += pi + start = degrees(start) + end = degrees(end) + + # rotation = Angle between major and WORLDX + # doesnt work, couse produces always positive value: rotation = Mathutils.AngleBetweenVecs(major, WORLDX) + if self.major[0] == 0: + rotation = 90.0 + if self.major[1] < 0: rotation += 180 + else: + rotation = degrees(atan(self.major[1] / self.major[0])) + if self.major[0] < 0: + rotation += 180.0 + + major = Mathutils.Vector(self.major) + #radius = sqrt(self.major[0]**2 + self.major[1]**2 + self.major[2]**2) + radius = major.length + #print 'deb:calcEllipse:\n center, radius, start, end:\n', center, radius, start, end #--------- + thic = set_thick(self.thic, settings) + width = 0.0 + if settings.var['lines_as'] == 4: # as thin_box + thic = settings.var['thick_min'] + width = settings.var['width_min'] + if settings.var['lines_as'] == 3: # as thin cylinder + cyl_rad = 0.5 * settings.var['width_min'] - if settings.var['curves_on']: - ob = drawCurveArc(self) - else: - obname = 'el_%s' %self.layer # create object name from layer name - obname = obname[:MAX_NAMELENGTH] - me = Mesh.New(obname) # create a new mesh - ob = SCENE.objects.new(me) # create a new mesh_object + if settings.var['lines_as'] == 5: # draw ELLIPSE as curve ------------- + arc_res = settings.var['curve_arc'] + triples = True + VectorTriples = calcArc(None, radius, start, end, arc_res, triples) + arc = Curve.New(obname) # create new curve data + curve = arc.appendNurb(BezTriple.New(VectorTriples[0])) + if ellipse_closed: + for p in VectorTriples[1:-1]: + curve.append(BezTriple.New(p)) + for point in curve: + point.handleTypes = [FREE, FREE] + curve.flagU = 1 # 0 sets the curve not cyclic=open + if settings.var['fill_on']: + arc.setFlag(6) # 2+4 set top and button caps + else: + arc.setFlag(arc.getFlag() & ~6) # dont set top and button caps + else: + for p in VectorTriples[1:]: + curve.append(BezTriple.New(p)) + for point in curve: + point.handleTypes = [FREE, FREE] + curve.flagU = 0 # 0 sets the curve not cyclic=open - major = Mathutils.Vector(self.major) - #remi--todo----AngleBetweenVecs makes abs(value)!----- - delta = Mathutils.AngleBetweenVecs(major, WORLDX) - radius = major.length - start = degrees(self.start_angle) - end = degrees(self.end_angle) + arc.setResolu(settings.var['curve_res']) + arc.update() #important for handles calculation + ob = SCENE.objects.new(arc) # create a new curve_object + ob.loc = tuple(self.loc) + if thic != 0.0: #hack: Blender<2.45 curve-extrusion + thic = thic * 0.5 + arc.setExt1(1.0) # curve-extrusion: Blender2.45 accepts only (0.0 - 5.0) + ob.LocZ = thic + self.loc[2] + transform(self.extrusion, rotation, ob) + ob.SizeY *= self.ratio + if thic != 0.0: + ob.SizeZ *= abs(thic) + return ob + + + else: # draw ELLIPSE as mesh -------------------------------------- + me = Mesh.New(obname) # create a new mesh + ob = SCENE.objects.new(me) # create a new mesh_object # set a number of segments in entire circle arc_res = settings.var['arc_res'] * sqrt(radius) / sqrt(settings.var['arc_rad']) + + verts = calcArc(None, radius, start, end, arc_res, False) #verts = [list(point) for point in verts] - if thic != 0: - len1 = len(verts) + if False: #--todo--: if ellipse_closed: + verts = verts[:-1] #list without last point/edge (cause closed curve) + len1 = len(verts) + #print 'deb:len1:', len1 #----------------------- + if width != 0: + radius_out = radius + (0.5 * width) + radius_in = radius - (0.5 * width) + if radius_in <= 0.0: + radius_in = settings.var['dist_min'] + #radius_in = 0.0 + verts_in = [] + verts_out = [] + for point in verts: + pointVec = Mathutils.Vector(point) + pointVec = pointVec.normalize() + verts_in.append(list(radius_in * pointVec)) #vertex inside + verts_out.append(list(radius_out * pointVec)) #vertex outside + verts = verts_in + verts_out + + #print 'deb:verts:', verts #--------------------- + if thic != 0: + thic_verts = [] + thic_verts.extend([[point[0], point[1], point[2]+thic] for point in verts]) + if thic < 0.0: + thic_verts.extend(verts) + verts = thic_verts + else: + verts.extend(thic_verts) + f_bottom = [[num, num+1, len1+num+1, len1+num] for num in xrange(len1-1)] + f_top = [[num, len1+num, len1+num+1, num+1] for num in xrange(len1+len1, len1+len1+len1-1)] + f_left = [[num, len1+len1+num, len1+len1+num+1, num+1] for num in xrange(len1-1)] + f_right = [[num, num+1, len1+len1+num+1, len1+len1+num] for num in xrange(len1, len1+len1-1)] + f_start = [[0, len1, len1+len1+len1, len1+len1]] + f_end = [[len1+len1-1, 0+len1-1, len1+len1+len1-1, len1+len1+len1+len1-1]] + faces = f_left + f_right + f_bottom + f_top + f_start + f_end + + me.verts.extend(verts) # add vertices to mesh + me.faces.extend(faces) # add faces to the mesh + + if settings.var['meshSmooth_on']: # left and right side become smooth ---------------------- + smooth_len = len(f_left) + len(f_right) + for i in xrange(smooth_len): + me.faces[i].smooth = True + + if settings.var['vGroup_on']: + # each MeshSide becomes vertexGroup for easier material assignment --------------------- + replace = Blender.Mesh.AssignModes.REPLACE #or .AssignModes.ADD + vg_left, vg_right, vg_top, vg_bottom = [], [], [], [] + for v in f_left: vg_left.extend(v) + for v in f_right: vg_right.extend(v) + for v in f_top: vg_top.extend(v) + for v in f_bottom: vg_bottom.extend(v) + me.addVertGroup('side.left') ; me.assignVertsToGroup('side.left', list(set(vg_left)), 1.0, replace) + me.addVertGroup('side.right') ; me.assignVertsToGroup('side.right', list(set(vg_right)), 1.0, replace) + me.addVertGroup('side.top') ; me.assignVertsToGroup('side.top', list(set(vg_top)), 1.0, replace) + me.addVertGroup('side.bottom'); me.assignVertsToGroup('side.bottom',list(set(vg_bottom)), 1.0, replace) + me.addVertGroup('side.start'); me.assignVertsToGroup('side.start', f_start[0], 1.0, replace) + me.addVertGroup('side.end') ; me.assignVertsToGroup('side.end', f_end[0], 1.0, replace) + + + else: # if thick=0 - draw only flat ring + faces = [[num, len1+num, len1+num+1, num+1] for num in xrange(len1 - 1)] + me.verts.extend(verts) # add vertices to mesh + me.faces.extend(faces) # add faces to the mesh + + elif thic != 0: thic_verts = [] thic_verts.extend([[point[0], point[1], point[2]+thic] for point in verts]) if thic < 0.0: @@ -2815,21 +3317,28 @@ class Ellipse: #--------------------------------------------------------------- verts.extend(thic_verts) faces = [] #print 'deb:len1:', len1 #----------------------- - #print 'deb:verts:', verts #---------------------- + #print 'deb:verts:', verts #--------------------- faces = [[num, num+1, num+len1+1, num+len1] for num in xrange(len1 - 1)] - me.verts.extend(verts) # add vertices to mesh - me.faces.extend(faces) # add faces to the mesh + me.verts.extend(verts) # add vertices to mesh + me.faces.extend(faces) # add faces to the mesh + if settings.var['meshSmooth_on']: # left and right side become smooth ---------------------- + for i in xrange(len(faces)): + me.faces[i].smooth = True + else: edges = [[num, num+1] for num in xrange(len(verts)-1)] - me.verts.extend(verts) # add vertices to mesh - me.edges.extend(edges) # add edges to the mesh - - ob.loc = tuple(center) - ob.SizeY = self.ratio - transform(self.extrusion, 0, ob) + me.verts.extend(verts) # add vertices to mesh + me.edges.extend(edges) # add edges to the mesh - return ob + #print 'deb:calcEllipse transform rotation: ', rotation #--------- + ob.loc = tuple(center) + #old ob.SizeY = self.ratio + transform(self.extrusion, rotation, ob) + #old transform(self.extrusion, 0, ob) + ob.SizeY *= self.ratio + + return ob @@ -2945,6 +3454,8 @@ class Face: #----------------------------------------------------------------- #--------------------------------------------------------------------------------------- # type to object maping (sorted-dictionary for f_obiectify ONLY!, format={'key':Class} ) type_map = { + 'vport':Vport, + 'view':View, 'layer':Layer, 'block_record':BlockRecord, 'block':Block, @@ -2992,14 +3503,14 @@ def objectify(data): #--------------------------------------------------------- if item.type == 'vertex': #print 'deb:objectify gosub Vertex--------' #------------- v = Vertex(item) - if pline.spline: # Bspline-curve + if pline.spline: # if Bspline-curve # then for Blender-mesh filter only additional_vertices # OR # then for Blender-curve filter only spline_control_vertices if (v.spline and not curves_on) or (curves_on and v.splin2): #correct for real NURBS-import #if (v.spline and not curves_on) or (curves_on and not v.splin2): #fake for Bezier-emulation of NURBS-import pline.points.append(v) - elif pline.curved: # Bezier-curve + elif pline.curved: # if Bezier-curve # then for Blender-mesh filter only curve_additional_vertices # OR # then for Blender-curve filter curve_control_vertices @@ -3015,12 +3526,27 @@ def objectify(data): #--------------------------------------------------------- index -= 1 #so go back one step break objects.append(pline) + elif type(item) != list and item.type in ['block', 'insert']: + if not settings.var['block_nn'] and item.name.startswith('*X'): + #print 'deb:objectify item.type:"%s", item.name:"%s"' %(item.type, item.name) #------------ + pass + elif settings.var['blockFilter_on'] and not settings.accepted_block(item.name): + pass + else: + try: + objects.append(type_map[item.type](item)) + except TypeError: + pass elif type(item) != list and item.type in known_types: # proccess the object and append the resulting object - objects.append(type_map[item.type](item)) + try: + objects.append(type_map[item.type](item)) + except TypeError: + pass else: - # we will just let the data pass un-harrased - objects.append(item) + #we will just let the data pass un-harrased + #objects.append(item) + pass index += 1 #print 'deb:objectify objects:\n', objects #------------ #print 'deb:objectify END %%%%%%%%' #------------ @@ -3052,24 +3578,28 @@ class MatColors: #------------------------------------------------------------- If a layer name is provided, the color of that layer is used. """ - if color == None: - color = 256 # color 256=BYLAYER + if color == None: color = 256 # color 256=BYLAYER if type(color) == str: # looking for color of LAYER named "color" #--todo---bug with ARC from ARC-T0.DXF layer="T-3DARC-1"----- #print 'deb:color is string:--------: ', color #try: - #color = self.layersmap[color].color + #color = layersmap[color].color #print 'deb:color=self.map[color].color:', color #------------------ #except KeyError: #layer = Layer(name=color, color=256, frozen=False) - #self.layersmap[color] = layer + #layersmap[color] = layer #color = 0 - color = layersmap[color].color + if layersmap: color = layersmap[color].color + if color == 256: # color 0 = BYLAYER + #--todo-- should looking for color of LAYER + #if layersmap: color = layersmap[color].color + color = 3 if color == 0: # color 0 = BYBLOCK #--todo-- should looking for color of paret-BLOCK - #color = layersmap[color].color - pass + #if layersmap: color = layersmap[color].color + color = 3 color = abs(color) # cause the value could be nagative = means the layer is turned off + if color not in self.colMaterials.keys(): self.add(color) return self.colMaterials[color] @@ -3116,7 +3646,8 @@ class MatLayers: #------------------------------------------------------------- layername_short = layername if layername in layernamesmap.keys(): layername_short = layernamesmap[layername] - colorlayername = str(color) + layername_short + colorlayername = layername_short + if color: colorlayername = str(color) + colorlayername if colorlayername not in self.layMaterials.keys(): self.add(layername, color, colorlayername) return self.layMaterials[colorlayername] @@ -3130,14 +3661,17 @@ class MatLayers: #------------------------------------------------------------- #print 'deb:MatLayers material: ', mat #---------- #global settings #print 'deb:MatLayers material_from: ', settings.var['material_from'] #---------- - if settings.var['material_from'] == 3: mat_color = color - elif layersmap: mat_color = layersmap[layername].color + if settings.var['material_from'] == 3 and color: + if color == 0 or color == 256: mat_color = 3 + else: mat_color = color + elif layersmap and layername: + mat_color = layersmap[layername].color else: mat_color = 3 #print 'deb:MatLayers color: ', color #----------- #print 'deb:MatLayers mat_color: ', mat_color #----------- - mat.setRGBCol(color_map[mat_color]) - mat.mode |= Material.Modes.SHADELESS - mat.mode |= Material.Modes.WIRE + mat.setRGBCol(color_map[abs(mat_color)]) + #mat.mode |= Material.Modes.SHADELESS + #mat.mode |= Material.Modes.WIRE # try: mat.setMode('Shadeless', 'Wire') #work-around for 2.45rc-bug # except: pass self.layMaterials[colorlayername] = mat @@ -3160,7 +3694,7 @@ class Blocks: #---------------------------------------------------------------- """ self.blocksmap = blocksmap #a dictionary mapping block_name:block_data self.settings = settings - self.blocks = {} #container for blocks + self.blocks = {} #container for blender groups representing blocks def __call__(self, name=None): @@ -3179,13 +3713,32 @@ class Blocks: #---------------------------------------------------------------- def addBlock(self, name): """Create a new 'block group' for the block name. """ - - block_def = Group.New('bl_%s' %name) # Blender groupObject contains definition of BLOCK block = self.blocksmap[name] + prefix = 'bl' + if block.xref: prefix = 'xr' + blender_group = Group.New('%s_%s' %(prefix,name)) # Blender groupObject contains definition of BLOCK + block_def = [blender_group, block.loc] self.settings.write("\nDrawing block:\'%s\' ..." % name) - drawEntities(block.entities, self.settings, block_def) + + if block.xref: + obname = 'xr_%s' %name # create object name from xref block name + #obname = obname[:MAX_NAMELENGTH] + # if material BYBLOCK def needed: use as placeholder a mesh-vertex instead of empty + ob = SCENE.objects.new('Empty', obname) # create a new empty_object + empty_size = 1.0 * settings.var['g_scale'] + if empty_size < 0.01: empty_size = 0.01 #Blender limits (0.01-10.0) + elif empty_size > 10.0: empty_size = 10.0 + ob.drawSize = empty_size + ob.loc = tuple(block.loc) + ob.properties['xref_path'] = block.path + ob.layers = [19] + insertFlag=True; blockFlag=True + global oblist + oblist.append((ob, insertFlag, blockFlag)) + else: + drawEntities(block.entities, self.settings, block_def) self.settings.write("Drawing block:\'%s\' done!" %name) - self.blocks[name] = block_def + self.blocks[name] = blender_group @@ -3219,14 +3772,18 @@ class Settings: #-------------------------------------------------------------- '0' ] - self.var['blockFilter_on'] = False #deb:remi------------ - self.acceptedBlocks = ['BOX01', + #self.var['blockFilter_on'] = 0 #deb:remi------------ + self.acceptedBlocks = ['WALL_1871', 'BOX02' ] + self.unwantedBlocks = ['BOX05', + 'BOX04' + ] def update(self, keywords, drawTypes): """update all the important settings used by the draw functions. + mostly used after loading parameters from INI-file """ for k, v in keywords.iteritems(): @@ -3236,6 +3793,13 @@ class Settings: #-------------------------------------------------------------- self.drawTypes[t] = v #print 'deb:settings_update drawType %s= %s' %(t, self.drawTypes[t]) #-------------- + self.drawTypes['arc'] = self.drawTypes['line'] + self.drawTypes['circle'] = self.drawTypes['line'] + self.drawTypes['ellipse'] = self.drawTypes['line'] + self.drawTypes['trace'] = self.drawTypes['solid'] + self.drawTypes['insert'] = self.drawTypes['block'] + #self.drawTypes['vport'] = self.drawTypes['view'] + #print 'deb:self.drawTypes', self.drawTypes #--------------- @@ -3244,21 +3808,24 @@ class Settings: #-------------------------------------------------------------- """ #de: paßt die distance parameter an globalScale - if self.var['g_scale'] != 1: + if self.var['g_scale'] != 1.0: self.var['dist_min'] = self.var['dist_min'] / self.var['g_scale'] self.var['thick_min'] = self.var['thick_min'] / self.var['g_scale'] self.var['width_min'] = self.var['width_min'] / self.var['g_scale'] self.var['arc_rad'] = self.var['arc_rad'] / self.var['g_scale'] + self.g_origin = Mathutils.Vector(self.var['g_originX'], self.var['g_originY'], self.var['g_originZ']) + # First sort out all the section_items sections = dict([(item.name, item) for item in drawing.data]) # The section:header may be omited if 'header' in sections.keys(): - self.write("Found section:header!") + self.write("found section:header") else: self.write("File contains no section:header!") + if self.var['optimization'] == 0: self.var['one_mesh_on'] = 0 # The section:tables may be partialy or completely missing. self.layersTable = False self.colMaterials = MatColors({}) #A container for dxf-color based materials @@ -3267,44 +3834,101 @@ class Settings: #-------------------------------------------------------------- global layersmap, layernamesmap layersmap, layernamesmap = {}, {} if 'tables' in sections.keys(): - self.write("Found section:tables!") - # First sort out all the tables - tables = dict([(item.name, item) for item in sections["tables"].data]) - if 'layer' in tables.keys(): - self.write("Found table:layers!") - self.layersTable = True + self.write("found section:tables") + for table in drawing.tables.data: + if table.name == 'layer': + self.write("found table:layers") + layers = table + elif table.name == 'view': + print "found table:view" + views = table + elif table.name == 'vport': + print "found table:vport" + vports = table + if layers: #---------------------------------- # Read the layers table and get the layer colors - layersmap, layernamesmap = getLayersmap(drawing) + layersmap, layernamesmap = getLayersmap(layers) self.colMaterials = MatColors(layersmap) self.layMaterials = MatLayers(layersmap) else: self.write("File contains no table:layers!") + + + if views: #---------------------------------- + if self.var['views_on']: + global oblist + for item in views.data: + if type(item) != list and item.type == 'view': + #print 'deb:settings_valid views dir(item)=', dir(item) #------------- + #print 'deb:settings_valid views item=', item #------------- + ob = item.draw(self) + #viewsmap[item.name] = [item.length] + #--todo-- add to obj_list for global.Scaling + insertFlag, blockFlag = False, False + oblist.append((ob, insertFlag, blockFlag)) + + else: + self.write("File contains no table:views!") + + + if vports: #---------------------------------- + if self.var['views_on']: + global oblist + for item in vports.data: + if type(item) != list and item.type == 'vport': + #print 'deb:settings_valid views dir(item)=', dir(item) #------------- + #print 'deb:settings_valid views item=', item #------------- + ob = item.draw(self) + #viewsmap[item.name] = [item.length] + #--todo-- add to obj_list for global.Scaling + insertFlag, blockFlag = False, False + oblist.append((ob, insertFlag, blockFlag)) + else: + self.write("File contains no table:vports!") + + else: self.write("File contains no section:tables!") self.write("File contains no table:layers!") + # The section:blocks may be omited if 'blocks' in sections.keys(): - self.write("Found section:blocks!") + self.write("found section:blocks") # Read the block definitions and build our block object - if self.drawTypes['insert']: #if drawing of type 'Insert' activated - blocksmap, self.blocknamesmap, self.obj_number = getBlocksmap(drawing) #Build a dictionary of blockname:block_data pairs + if self.drawTypes['insert']: #if support for entity type 'Insert' is activated + #Build a dictionary of blockname:block_data pairs + blocksmap, self.obj_number = getBlocksmap(drawing, layersmap, self.var['layFrozen_on']) + self.blocknamesmap = getBlocknamesmap(blocksmap) self.blocks = Blocks(blocksmap, self) # initiates container for blocks_data - - #print 'deb: self.obj_number', self.obj_number #---------- + self.usedBlocks = blocksmap.keys() + #print 'deb:settings_valid self.usedBlocks', self.usedBlocks #---------- + else: + self.write("ignored, because support for BLOCKs is turn off!") + #print 'deb:settings_valid self.obj_number', self.obj_number #---------- else: self.write("File contains no section:blocks!") self.drawTypes['insert'] = False # The section:entities if 'entities' in sections.keys(): - self.write("Found section:entities!") + self.write("found section:entities") self.obj_number += len(drawing.entities.data) - #print 'deb: self.obj_number', self.obj_number #---------- + #print 'deb:settings_valid self.obj_number', self.obj_number #---------- self.obj_number = 1.0 / self.obj_number + def accepted_block(self, name): + if name not in self.usedBlocks: return False + if name in self.unwantedBlocks: return False + elif name in self.acceptedBlocks: return True + #elif (name.find('*X')+1): return False + #elif name.startswith('3'): return True + #elif name.endswith('H'): return False + return True + + def write(self, text, newline=True): """Wraps the built-in print command in a optimization check. """ @@ -3334,7 +3958,7 @@ class Settings: #-------------------------------------------------------------- """Given a layer name, and return its visible status. """ # if layer is off then color_index is negative - if layersmap[layername].color < 0: return True + if layersmap and layersmap[layername].color < 0: return True #print 'deb:layer_isOff: layer is ON' #--------------- return False @@ -3342,50 +3966,57 @@ class Settings: #-------------------------------------------------------------- def layer_isFrozen(self, layername): # no more used ------- """Given a layer name, and return its frozen status. """ - if layersmap[layername].frozen: return True + if layersmap and layersmap[layername].frozen: return True #print 'deb:layer_isFrozen: layer is not FROZEN' #--------------- return False def analyzeDXF(dxfFile): #--------------------------------------- - """list LAYER and BLOCK dependences into textfile + """list statistics about LAYER and BLOCK dependences into textfile.INF """ Window.WaitCursor(True) # Let the user know we are thinking - print 'start reading DXF file: %s.' % dxfFile + print 'reading DXF file: %s.' % dxfFile time1 = Blender.sys.time() #time marker1 drawing = readDXF(dxfFile, objectify) - print 'finished reading DXF file in %.4f sec.' % (Blender.sys.time()-time1) - Window.WaitCursor(False) + print 'finish reading in %.4f sec.' % (Blender.sys.time()-time1) # First sort out all the section_items sections = dict([(item.name, item) for item in drawing.data]) # The section:header may be omited - if 'header' in sections.keys(): print "Found section:header!" + if 'header' in sections.keys(): print "found section:header" else: print "File contains no section:header!" # The section:tables may be partialy or completely missing. layersTable = False global layersmap layersmap = {} + viewsmap = {} + vportsmap = {} + layersmap_str = '#File contains no table:layers!' + viewsmap_str = '#File contains no table:views!' + vportsmap_str = '#File contains no table:vports!' if 'tables' in sections.keys(): - print "Found section:tables!" + print "found section:tables" for table in drawing.tables.data: if table.name == 'layer': - print "Found table:layers!" + print "found table:layers" layers = table - break - if layers: - layersmap = {} + elif table.name == 'view': + print "found table:view" + views = table + elif table.name == 'vport': + print "found table:vport" + vports = table + if layers: #---------------------------------- for item in layers.data: if type(item) != list and item.type == 'layer': #print dir(item) layersmap[item.name] = [item.color, item.frozen] #print 'deb:analyzeDXF: layersmap=' , layersmap #------------- - layersmap_str = '#list of LAYERs: layername, layercolor, frozen\n' - + layersmap_str = '#list of LAYERs: name, color, frozen_status ---------------------------\n' key_list = layersmap.keys() key_list.sort() for key in key_list: @@ -3397,58 +4028,119 @@ def analyzeDXF(dxfFile): #--------------------------------------- #print 'deb:analyzeDXF: layersmap_str=\n' , layersmap_str #------------- else: print "File contains no table:layers!" + + if views: #---------------------------------- + for item in views.data: + if type(item) != list and item.type == 'view': + #print dir(item) + viewsmap[item.name] = [item.length] + #print 'deb:analyzeDXF: viewsmap=' , viewsmap #------------- + viewsmap_str = '#list of VIEWs: name, focus_length ------------------------------------\n' + key_list = viewsmap.keys() + key_list.sort() + for key in key_list: + #for view_name, view_data in viewsmap.iteritems(): + view_name, view_data = key, viewsmap[key] + view_str = '\'%s\': length=%s' %(view_name,view_data[0])#------------- + #if view_data[1]: view_str += ', something' + viewsmap_str += view_str + '\n' + #print 'deb:analyzeDXF: layersmap_str=\n' , layersmap_str #------------- + else: + print "File contains no table:views!" + + if vports: #---------------------------------- + for item in vports.data: + if type(item) != list and item.type == 'vport': + #print dir(item) + vportsmap[item.name] = [item.length] + #print 'deb:analyzeDXF: vportsmap=' , vportsmap #------------- + vportsmap_str = '#list of VPORTs: name, focus_length -----------------------------------\n' + key_list = vportsmap.keys() + key_list.sort() + for key in key_list: + #for vport_name, vport_data in vportsmap.iteritems(): + vport_name, vport_data = key, vportsmap[key] + vport_str = '\'%s\': length=%s' %(vport_name,vport_data[0])#------------- + #if vport_data[1]: vport_str += ', something' + vportsmap_str += vport_str + '\n' + #print 'deb:analyzeDXF: vportsmap_str=\n' , vportsmap_str #------------- + else: + print "File contains no table:vports!" + else: print "File contains no section:tables!" - print "File contains no table:layers!" + print "File contains no tables:layers,views,vports!" # The section:blocks may be omited if 'blocks' in sections.keys(): - print "Found section:blocks!" + print "found section:blocks" blocksmap = {} for item in drawing.blocks.data: #print 'deb:getBlocksmap item=' ,item #-------- #print 'deb:getBlocksmap item.entities=' ,item.entities #-------- #print 'deb:getBlocksmap item.entities.data=' ,item.entities.data #-------- if type(item) != list and item.type == 'block': - insertList = [] + xref = False + if item.xref: xref = True + childList = [] + used = False for item2 in item.entities.data: if type(item2) != list and item2.type == 'insert': - #print dir(item2) - item2str = [item2.blockname, item2.layer, item2.color_index, item2.scale, item2.space] - insertList.append(item2str) - try: - blocksmap[item.name] = insertList - except KeyError: - # annon block - print 'Cannot map "%s" - "%s" as Block!' %(item.name, item) + #print 'deb:getBlocksmap dir(item2)=', dir(item2) #---------- + item2str = [item2.name, item2.layer, item2.color_index, item2.scale, item2.space] + childList.append(item2str) + try: blocksmap[item.name] = [used, childList, xref] + except KeyError: print 'Cannot map "%s" - "%s" as Block!' %(item.name, item) #print 'deb:analyzeDXF: blocksmap=' , blocksmap #------------- - blocksmap_str = '#list of BLOCKs: child, layer, color, scale, space\n' + + for item2 in drawing.entities.data: + if type(item2) != list and item2.type == 'insert': + if not layersmap or (layersmap and not layersmap[item2.layer][1]): #if insert_layer is not frozen + blocksmap[item2.name][0] = True # marked as world used BLOCK + + key_list = blocksmap.keys() + key_list.reverse() + for key in key_list: + if blocksmap[key][0]: #if used + for child in blocksmap[key][1]: + if not layersmap or (layersmap and not layersmap[child[1]][1]): #if insert_layer is not frozen + blocksmap[child[0]][0] = True # marked as used BLOCK + + blocksmap_str = '#list of BLOCKs: name:(unused)(xref) -[child_name, layer, color, scale, space]-------\n' key_list = blocksmap.keys() key_list.sort() for key in key_list: #for block_name, block_data in blocksmap.iteritems(): block_name, block_data = key, blocksmap[key] - block_str = '\''+block_name + '\':\n' #------------- - blocksmap_str += block_str + block_str = '\'%s\': ' %(block_name) #------------- + used = '(unused)' + if block_data[0]: used = '' +# else: used = '(unused)' + xref = '' + if block_data[2]: xref = '(xref)' + blocksmap_str += block_str + used + xref +'\n' if block_data: - for block_item in block_data: + for block_item in block_data[1]: block_data_str = ' - %s\n' %block_item blocksmap_str += block_data_str #print 'deb:analyzeDXF: blocksmap_str=\n' , blocksmap_str #------------- else: + blocksmap_str = '#File contains no section:blocks!' print "File contains no section:blocks!" - output_str = '%s\n%s' %(layersmap_str, blocksmap_str) - infFile = dxfFile[:-4] + '_DXF.inf' # replace last char:'.dxf' with '.INF' + Window.WaitCursor(False) + output_str = '%s\n%s\n%s\n%s' %(viewsmap_str, vportsmap_str, layersmap_str, blocksmap_str) + infFile = dxfFile[:-4] + '_DXF.INF' # replace last char:'.dxf' with '_DXF.inf' try: f = file(infFile, 'w') - f.write(INFFILE_HEADER + '\n# this is a comment line\n') + f.write(INFFILE_HEADER + '\n# this is a comment line\n\n') f.write(output_str) f.close() - Draw.PupMenu('DXF importer: INF-file: Done!%t|see listing of DXF-model saved in:|' + '\'%s\'' %infFile) + Draw.PupMenu('DXF importer: report saved in INF-file:%t|' + '\'%s\'' %infFile) except: - Draw.PupMenu('DXF importer: INF-file: Error!%t|failure by writing to ' + '\'%s\'|no listings saved!' %infFile) - + Draw.PupMenu('DXF importer: ERROR by writing report in INF-file:%t|' + '\'%s\'' %infFile) + finally: + f.close() @@ -3467,17 +4159,9 @@ def main(dxfFile): #---------------#############################----------- cur_COUNTER = 0 try: - print "Getting settings..." - global GUI_A, GUI_B - if GUI_A['g_scale_on'].val: - if GUI_A['g_scale_as'].val == 6: #scale inches to meters - GUI_A['g_scale'].val = 0.02540 - elif GUI_A['g_scale_as'].val == 7: #scale feets to meters - GUI_A['g_scale'].val = 0.30480 - elif GUI_A['g_scale_as'].val == 8: #scale yards to meters - GUI_A['g_scale'].val = 0.91440 - else: GUI_A['g_scale'].val = 10.0 ** int(GUI_A['g_scale_as'].val) - else: + #print "Getting settings..." + global GUI_A, GUI_B, g_scale_as + if not GUI_A['g_scale_on'].val: GUI_A['g_scale'].val = 1.0 keywords = {} @@ -3505,45 +4189,51 @@ def main(dxfFile): #---------------#############################----------- #print 'deb: dxfFile file: ', dxfFile #---------------------- if dxfFile.lower().endswith('.dxf') and sys.exists(dxfFile): Window.WaitCursor(True) # Let the user know we are thinking - print 'start reading DXF file: %s.' % dxfFile + print 'reading file: %s.' % dxfFile time1 = Blender.sys.time() #time marker1 drawing = readDXF(dxfFile, objectify) - print 'finished reading DXF file in %.4f sec.' % (Blender.sys.time()-time1) + print 'reading finished in %.4f sec.' % (Blender.sys.time()-time1) Window.WaitCursor(False) else: - if UI_MODE: Draw.PupMenu('DXF importer: EXIT----------!%t| no valid DXF-file selected!') - print "DXF importer: error, no DXF-file selected. Abort!" + if UI_MODE: Draw.PupMenu('DXF importer: Alert!%t| no valid DXF-file selected!') + print "DXF importer: Alert! - no valid DXF-file selected." Window.WaitCursor(False) if editmode: Window.EditMode(1) # and put things back how we fond them return None - settings.validate(drawing) - - Window.WaitCursor(True) # Let the user know we are thinking - settings.write("\n\nDrawing entities...") - # Draw all the know entity types in the current scene global oblist oblist = [] # a list of all created AND linked objects for final f_globalScale time2 = Blender.sys.time() #time marker2 + Window.WaitCursor(True) # Let the user know we are thinking + settings.write("\n\nDrawing entities...") + + settings.validate(drawing) + + global activObjectLayer, activObjectName + activObjectLayer, activObjectName = None, None + drawEntities(drawing.entities, settings) #print 'deb:drawEntities after: oblist:', oblist #----------------------- if oblist: # and settings.var['g_scale'] != 1: globalScale(oblist, settings.var['g_scale']) - # Set the visable layers + # Set visibility for all layers on all View3d + #Window.ViewLayers([i+1 for i in range(18)]) # for 2.45 SCENE.setLayers([i+1 for i in range(18)]) SCENE.update(1) - #Blender.Redraw(-1) SCENE.objects.selected = [i[0] for i in oblist] #select only the imported objects #SCENE.objects.selected = SCENE.objects #select all objects in current scene Blender.Redraw() time_text = Blender.sys.time() - time2 Window.WaitCursor(False) - message = 'DXF Import to Blender: done in %.4f sec. --------------------' % time_text + if settings.var['paper_space_on']: space = 'from paper space' + else: space = 'from model space' + ob_len = len(oblist) + message = ' %s objects imported %s in %.4f sec. -----DONE-----' % (ob_len, space, time_text) settings.progress(1.0/settings.obj_number, 'DXF import done!') print message #settings.write(message) @@ -3561,16 +4251,15 @@ def getOCS(az): #-------------------------------------------------------------- """An implimentation of the Arbitrary Axis Algorithm. """ #decide if we need to transform our coords - if az[0] == 0 and az[1] == 0: - if az[2] == 1.0: + #if az[0] == 0 and az[1] == 0: + if abs(az[0]) < 0.00001 and abs(az[1]) < 0.00001: + if az[2] > 0.0: return False - elif az[2] == -1.0: + elif az[2] < 0.0: ax = Mathutils.Vector(-1.0, 0, 0) ay = Mathutils.Vector(0, 1.0, 0) az = Mathutils.Vector(0, 0, -1.0) return ax, ay, az - #elif abs(az[0]) < 0.0001 and abs(az[1]) < 0.0001: - # return False az = Mathutils.Vector(az) @@ -3625,14 +4314,9 @@ def rotXY_Vec(rotation, vec): #------------------------------------------------ -def getLayersmap(drawing): #------------------------------------------------------ - """Build two dictionaries: 1.layername:layer pairs and 2.layername:layername_short +def getLayersmap(layers): #------------------------------------------------------ + """Build two dictionaries: 1.layername:layer object, and 2.layername:layername_short """ - tables = drawing.tables - for table in tables.data: - if table.name == 'layer': - layers = table - break layersmap = {} layernamesmap = {} for item in layers.data: @@ -3645,40 +4329,78 @@ def getLayersmap(drawing): #--------------------------------------------------- suffix = str(i) layername_short = layername_short[:-2] + suffix layernamesmap[item.name] = layername_short - return layersmap, layernamesmap + #print 'deb:getLayersmap layersmap:\n', layersmap #------------ + #print 'deb:getLayersmap layernamesmap:\n', layernamesmap #------------ + return layersmap, layernamesmap -def getBlocksmap(drawing): #-------------------------------------------------------- - """Build a dictionary of blockname:block_data pairs and 2.blockname:blockname_short pairs + +def getBlocksmap(drawing, layersmap, layFrozen_on=False): #-------------------------------------------------------- + """Build a dictionary of blockname:block_data pairs """ - blocksmap = {} - blocksmap_short = {} - blocknamesmap = {} - obj_number = 0 + usedblocks = {} for item in drawing.blocks.data: - #print 'deb:getBlocksmap item=' ,item #-------- - #print 'deb:getBlocksmap item.entities=' ,item.entities #-------- - #print 'deb:getBlocksmap item.entities.data=' ,item.entities.data #-------- + #print 'deb:getBlocksmap item=%s\n i.entities=%s\n i.data=%s' %(item,item.entities,item.entities.data) if type(item) != list and item.type == 'block': + childList = [] + used = False + for item2 in item.entities.data: + if type(item2) != list and item2.type == 'insert': + #print 'deb:getBlocksmap dir(item2)=', dir(item2) #---------- + item2str = [item2.name, item2.layer] + childList.append(item2str) + try: usedblocks[item.name] = [used, childList] + except KeyError: print 'Cannot map "%s" - "%s" as Block!' %(item.name, item) + #print 'deb:getBlocksmap: usedblocks=' , usedblocks #------------- + print 'deb:getBlocksmap: layersmap=' , layersmap #------------- + + for item in drawing.entities.data: + if type(item) != list and item.type == 'insert': + if not layersmap or (not layersmap[item.layer].frozen or layFrozen_on): #if insert_layer is not frozen + try: usedblocks[item.name][0] = True + except: pass + + key_list = usedblocks.keys() + key_list.reverse() + for key in key_list: + if usedblocks[key][0]: #if parent used, then set used also all child blocks + for child in usedblocks[key][1]: + if not layersmap or (layersmap and not layersmap[child[1]].frozen): #if insert_layer is not frozen + usedblocks[child[0]][0] = True # marked as used BLOCK + + usedblocks = [i for i in usedblocks.keys() if usedblocks[i][0]] + #print 'deb:getBlocksmap: usedblocks=' , usedblocks #------------- + obj_number = 0 + blocksmap = {} + for item in drawing.blocks.data: + if type(item) != list and item.type == 'block' and item.name in usedblocks: + #if item.name.startswith('*X'): #--todo-- obj_number += len(item.entities.data) - try: - blocksmap[item.name] = item - except KeyError: - # annon block - print 'Cannot map "%s" - "%s" as Block!' %(item.name, item) - - blockname_short = item.name[:MAX_NAMELENGTH-1] - i = 0 #sufix for blockname cause Blender-objectnamelength-limit - while blockname_short in blocknamesmap.keys(): - i += 1 - suffix = str(i) - blockname_short = blockname_short[:-2] + suffix - blocknamesmap[item.name] = blockname_short + try: blocksmap[item.name] = item + except KeyError: print 'Cannot map "%s" - "%s" as Block!' %(item.name, item) + - return blocksmap, blocknamesmap, obj_number + #print 'deb:getBlocksmap: blocksmap:\n', blocksmap #------------ + return blocksmap, obj_number +def getBlocknamesmap(blocksmap): #-------------------------------------------------------- + """Build a dictionary of blockname:blockname_short pairs + """ + #print 'deb:getBlocknamesmap blocksmap:\n', blocksmap #------------ + blocknamesmap = {} + for n in blocksmap.keys(): + blockname_short = n[:MAX_NAMELENGTH-1] + i = 0 #sufix for blockname cause Blender-objectnamelength-limit + while blockname_short in blocknamesmap.keys(): + i += 1 + suffix = str(i) + blockname_short = blockname_short[:-2] + suffix + blocknamesmap[n] = blockname_short + #print 'deb:getBlocknamesmap blocknamesmap:\n', blocknamesmap #------------ + return blocknamesmap + def drawEntities(entities, settings, block_def=None): #---------------------------------------- """Draw every kind of thing in the entity list. @@ -3688,7 +4410,8 @@ def drawEntities(entities, settings, block_def=None): #------------------------ for _type in type_map.keys(): #print 'deb:drawEntities_type:', _type #------------------ # for each known type get a list of that type and call the associated draw function - drawer(_type, entities.get_type(_type), settings, block_def) + entities_type = entities.get_type(_type) + if entities_type: drawer(_type, entities_type, settings, block_def) def drawer(_type, entities, settings, block_def): #------------------------------------------ @@ -3756,14 +4479,21 @@ def drawer(_type, entities, settings, block_def): #---------------------------- if cur_temp == show_progress: settings.progress(cur_COUNTER, message) cur_temp = 0 - #print 'deb:drawer show_progress=',show_progress #----------------------- + #print 'deb:drawer show_progress=',show_progress #---------------- # get the layer group (just to make things a little cleaner) if settings.var['group_bylayer_on'] and not block_def: group = getGroup('l:%s' % layernamesmap[entity.layer]) - if _type == 'insert': #---- INSERT and MINSERT=array ------------------------ + if _type == 'insert': #---- INSERT and MINSERT=array -------------------- + if not settings.var['block_nn'] and entity.name.startswith('*X'): #---- support for noname BLOCKs + #print 'deb:drawer entity.name:', entity.name #------------ + continue + elif settings.var['blockFilter_on'] and not settings.accepted_block(entity.name): + continue + #print 'deb:insert entity.loc:', entity.loc #---------------- + insertFlag = True columns = entity.columns[0] coldist = entity.columns[1] rows = entity.rows[0] @@ -3776,22 +4506,35 @@ def drawer(_type, entities, settings, block_def): #---------------------------- deltaloc[1] = row * rowdist #print 'deb:insert col=%s, row=%s,deltaloc=%s' %(col, row, deltaloc) #------ ob = entity.draw(settings, deltaloc) #-----draw BLOCK---------- + if block_def: + blockFlag = True + bl_loc = block_def[1] + ob.loc = [ob.loc[0]-bl_loc[0],ob.loc[1]-bl_loc[1],ob.loc[2]-bl_loc[2]] + else: blockFlag = False setObjectProperties(ob, group, entity, settings, block_def) if ob: if settings.var['optimization'] <= settings.MIN: - if settings.var['g_scale'] != 1: globalScaleOne(ob, True, settings.var['g_scale']) + #if settings.var['g_origin_on'] and not block_def: ob.loc = Mathutils.Vector(ob.loc) + settings.g_origin + if settings.var['g_scale_on']: globalScaleOne(ob, insertFlag, blockFlag, settings.var['g_scale']) settings.redraw() - else: oblist.append((ob, True)) + else: oblist.append((ob, insertFlag, blockFlag)) else: #---draw entities except BLOCKs/INSERTs--------------------- + insertFlag = False alt_obname = activObjectName ob = entity.draw(settings) if ob and ob.name != alt_obname: + if block_def: + blockFlag = True + bl_loc = block_def[1] + ob.loc = [ob.loc[0]-bl_loc[0],ob.loc[1]-bl_loc[1],ob.loc[2]-bl_loc[2]] + else: blockFlag = False setObjectProperties(ob, group, entity, settings, block_def) if settings.var['optimization'] <= settings.MIN: - if settings.var['g_scale'] != 1: globalScaleOne(ob, False, settings.var['g_scale']) + #if settings.var['g_origin_on'] and not block_def: ob.loc = Mathutils.Vector(ob.loc) + settings.g_origin + if settings.var['g_scale_on']: globalScaleOne(ob, insertFlag, blockFlag, settings.var['g_scale']) settings.redraw() - else: oblist.append((ob, False)) + else: oblist.append((ob, insertFlag, blockFlag)) #print 'deb:Finished drawing:', entities[0].type #------------------------ message = "\nDrawing dxf\'%ss\' done!" % _type @@ -3806,20 +4549,31 @@ def globalScale(oblist, SCALE): #---------------------------------------------- """ #print 'deb:globalScale.oblist: ---------%\n', oblist #--------------------- for l in oblist: - ob, insertFlag = l[0], l[1] - globalScaleOne(ob, insertFlag, SCALE) + ob, insertFlag, blockFlag = l[0], l[1], l[2] + globalScaleOne(ob, insertFlag, blockFlag, SCALE) -def globalScaleOne(ob, insertFlag, SCALE): #--------------------------------------------------------- +def globalScaleOne(ob, insertFlag, blockFlag, SCALE): #--------------------------------------------------------- """Global_scale imported object. """ #print 'deb:globalScaleOne ob: ', ob #--------------------- + if settings.var['g_origin_on'] and not blockFlag: + ob.loc = Mathutils.Vector(ob.loc) + settings.g_origin + SCALE_MAT= Mathutils.Matrix([SCALE,0,0,0],[0,SCALE,0,0],[0,0,SCALE,0],[0,0,0,1]) - if insertFlag: # by BLOCKs/INSERTs only insert-point must be scaled------------ + if insertFlag: # by BLOCKs/INSERTs only insert-point coords must be scaled------------ ob.loc = Mathutils.Vector(ob.loc) * SCALE_MAT else: # entire scaling for all other imported objects ------------ - ob.setMatrix(ob.matrixWorld*SCALE_MAT) - + if ob.type == 'Mesh': + me = Mesh.Get(ob.name) + # set centers of all objects in (0,0,0) + #me.transform(ob.matrixWorld*SCALE_MAT) + #ob.loc = Mathutils.Vector([0,0,0]) + # preseve centers of all objects + me.transform(SCALE_MAT) + ob.loc = Mathutils.Vector(ob.loc) * SCALE_MAT + else: #--todo-- also for curves: neutral scale factor after import + ob.setMatrix(ob.matrixWorld*SCALE_MAT) def setObjectProperties(ob, group, entity, settings, block_def): #----------------------- @@ -3835,7 +4589,7 @@ def setObjectProperties(ob, group, entity, settings, block_def): #------------- setGroup(group, ob) # if object belongs to group if block_def: # if object belongs to BLOCK_def - Move it to layer nr19 - setGroup(block_def, ob) + setGroup(block_def[0], ob) #print 'deb:setObjectProperties \'%s\' set to block_def_group!' %ob.name #--------- ob.layers = [19] else: @@ -3843,7 +4597,7 @@ def setObjectProperties(ob, group, entity, settings, block_def): #------------- ob.layers = [settings.var['target_layer']] # Set material for any objects except empties - if ob.type != 'Empty': + if ob.type != 'Empty' and settings.var['material_on']: setMaterial_from(entity, ob, settings, block_def) # Set the visibility @@ -3884,17 +4638,18 @@ def setMaterial_from(entity, ob, settings, block_def): #----------------------- - controlled by settings.var['material_from'] """ if settings.var['material_from'] == 1: # 1= material from color - if entity.color_index == BYLAYER: + if entity.color_index == BYLAYER or entity.color_index == 256: mat = settings.colMaterials(entity.layer) - elif entity.color_index == BYBLOCK: + elif entity.color_index == BYBLOCK or entity.color_index == 0: #--todo-- looking for block.color_index #mat = settings.colMaterials(block.color_index) - mat = settings.colMaterials(entity.color_index) + #if block_def: mat = settings.colMaterials(block_def[2]) + mat = settings.colMaterials(3) else: mat = settings.colMaterials(entity.color_index) elif settings.var['material_from'] == 2: # 2= material from layer_name - mat = settings.layMaterials(layername=entity.layer) + mat = settings.layMaterials(layername = entity.layer) elif settings.var['material_from'] == 3: # 3= material from layer+color mat = settings.layMaterials(layername=entity.layer, color=entity.color_index) @@ -3910,10 +4665,11 @@ def setMaterial_from(entity, ob, settings, block_def): #----------------------- mat = Material.Get('dxf-neutral') except: mat = Material.New('dxf-neutral') - mat.mode |= Material.Modes.SHADELESS - mat.mode |= Material.Modes.WIRE -# try:mat.setMode('Shadeless', 'Wire') #work-around for 2.45rc1-bug -# except: pass + mat.setRGBCol(color_map[3]) + try:mat.setMode('Shadeless', 'Wire') #work-around for 2.45rc1-bug + except: + mat.mode |= Material.Modes.SHADELESS # + mat.mode |= Material.Modes.WIRE try: #print 'deb:material mat:', mat #----------- ob.setMaterials([mat]) #assigns Blender-material to object @@ -4205,15 +4961,19 @@ EVENT_START = 2 EVENT_REDRAW = 3 EVENT_LOAD_INI = 4 EVENT_SAVE_INI = 5 -EVENT_PRESET = 6 +EVENT_RESET = 6 EVENT_CHOOSE_INI = 7 EVENT_CHOOSE_DXF = 8 EVENT_HELP = 9 -EVENT_CONFIG = 10 +EVENT_PRESETCURV = 10 EVENT_PRESETS = 11 EVENT_DXF_DIR = 12 -EVENT_LIST = 13 +EVENT_DXF_NAME = 13 +EVENT_LIST = 14 +EVENT_ORIGIN = 15 +EVENT_SCALE = 16 EVENT_PRESET2D = 20 +EVENT_PRESET3D = 21 EVENT_EXIT = 100 GUI_EVENT = EVENT_NONE @@ -4222,22 +4982,40 @@ GUI_B = {} # GUI-buttons dictionary for drawingTypes # settings default, initialize ------------------------ -points_as_menu = "convert to: %t|empty %x1|mesh.vertex %x2|thin sphere %x3|thin box %x4" -lines_as_menu = "convert to: %t|*edge %x1|mesh %x2|*thin cylinder %x3|*thin box %x4" -mlines_as_menu = "convert to: %t|*edge %x1|*mesh %x2|*thin cylinder %x3|*thin box %x4" -plines_as_menu = "convert to: %t|*edge %x1|mesh %x2|*thin cylinder %x3|*thin box %x4" -plines3_as_menu = "convert to: %t|*edge %x1|mesh %x2|*thin cylinder %x3|*thin box %x4" -plmesh_as_menu = "convert to: %t|mesh %x1" -solids_as_menu = "convert to: %t|mesh %x1" -blocks_as_menu = "convert to: %t|dupl.group %x1|*real.group %x2|*exploded %x3" -texts_as_menu = "convert to: %t|text %x1|*mesh %x2" +points_as_menu = "convert to: %t|empty %x1|mesh.vertex %x2|thin sphere %x3|thin box %x4|*curve.vertex %x5" +lines_as_menu = "convert to: %t|*edge %x1|mesh %x2|*thin cylinder %x3|thin box %x4|curve %x5" +mlines_as_menu = "convert to: %t|*edge %x1|*mesh %x2|*thin cylinder %x3|*thin box %x|*curve %x5" +plines_as_menu = "convert to: %t|*edge %x1|mesh %x2|*thin cylinder %x3|*thin box %x4|curve %x5" +plines3_as_menu = "convert to: %t|*edge %x1|mesh %x2|*thin cylinder %x3|*thin box %x4|curve %x5" +plmesh_as_menu = "convert to: %t|*edge %x1|mesh %x2" +solids_as_menu = "convert to: %t|*edge %x1|mesh %x2" +blocks_as_menu = "convert to: %t|dupliGroup %x1|*real.Group %x2|*exploded %x3" +texts_as_menu = "convert to: %t|text %x1|*mesh %x2|*curve %x5" material_from_menu= "material from: %t|*LINESTYLE %x7|COLOR %x1|LAYER %x2|*LAYER+COLOR %x3|*BLOCK %x4|*XDATA %x5|*INI-File %x6" -g_scale_list = "scale factor: %t|yard to m %x8|feet to m %x7|inch to m %x6|x 1000 %x3|x 100 %x2|x 10 %x1|x 1 %x0|x 0.1 %x-1|cm to m %x-2|mm to m %x-3|x 0.0001 %x-4|x 0.00001 %x-5" +g_scale_list = ''.join(( + 'scale factor: %t', + '|user def. %x12', + '|yard to m %x8', + '|feet to m %x7', + '|inch to m %x6', + '| x 1000 %x3', + '| x 100 %x2', + '| x 10 %x1', + '| x 1 %x0', + '| x 0.1 %x-1', + '| x 0.01 %x-2', + '| x 0.001 %x-3', + '| x 0.0001 %x-4', + '| x 0.00001 %x-5')) + +#print 'deb: g_scale_list', g_scale_list #----------- dxfFileName = Draw.Create("") iniFileName = Draw.Create(INIFILE_DEFAULT_NAME + INIFILE_EXTENSION) user_preset = 0 config_UI = Draw.Create(0) #switch_on/off extended config_UI +g_scale_as = Draw.Create(int(log10(G_SCALE))) + keywords_org = { 'curves_on' : 0, @@ -4245,12 +5023,22 @@ keywords_org = { 'one_mesh_on': 1, 'vGroup_on' : 1, 'dummy_on' : 0, + 'views_on' : 0, + 'cams_on' : 0, + 'lights_on' : 0, + 'xref_on' : 1, + 'block_nn': 0, + 'blockFilter_on': 0, 'newScene_on' : 1, 'target_layer' : TARGET_LAYER, 'group_bylayer_on' : GROUP_BYLAYER, + 'g_originX' : G_ORIGIN_X, + 'g_originY' : G_ORIGIN_Y, + 'g_originZ' : G_ORIGIN_Z, + 'g_origin_on': 0, 'g_scale' : float(G_SCALE), - 'g_scale_as': int(log10(G_SCALE)), # 0, - 'g_scale_on': 1, +# 'g_scale_as': int(log10(G_SCALE)), # 0, + 'g_scale_on': 0, 'thick_on' : 1, 'thick_min' : float(MIN_THICK), 'thick_force': 0, @@ -4281,8 +5069,8 @@ keywords_org = { 'mlines_as' : 2, 'plines_as' : 2, 'plines3_as': 2, - 'plmesh_as' : 1, - 'solids_as' : 1, + 'plmesh_as' : 2, + 'solids_as' : 2, 'blocks_as' : 1, 'texts_as' : 1 } @@ -4292,7 +5080,7 @@ drawTypes_org = { 'line' : 1, 'arc' : 1, 'circle': 1, - 'ellipse': 0, + 'ellipse': 1, 'mline' : 0, 'polyline': 1, 'plmesh': 1, @@ -4302,9 +5090,10 @@ drawTypes_org = { 'mtext' : 0, 'block' : 1, 'insert': 1, - 'face' : 1, 'solid' : 1, - 'trace' : 1 + 'trace' : 1, + 'face' : 1, +# 'view' : 0, } # creating of GUI-buttons @@ -4320,8 +5109,33 @@ for k, v in drawTypes_org.iteritems(): settings = Settings(keywords_org, drawTypes_org) +def update_RegistryKey(key, item): # + """updates key in Blender.Registry + """ + cache = True # data is also saved to a file + rdict = Registry.GetKey('DXF_Importer', cache) + if not rdict: rdict = {} + if item: + rdict[key] = item + Registry.SetKey('DXF_Importer', rdict, cache) + #print 'deb:update_RegistryKey rdict', rdict #--------------- + -def saveConfig(): #remi--todo----------------------------------------------- +def check_RegistryKey(key): + """ check if the key is already there (saved on a previous execution of this script) + """ + cache = True # data is also saved to a file + rdict = Registry.GetKey('DXF_Importer', cache) + #print 'deb:check_RegistryKey rdict:', rdict #---------------- + if rdict: # if found, get the values saved there + try: + item = rdict[key] + return item + except: + #update_RegistryKey() # if data isn't valid rewrite it + pass + +def saveConfig(): #--todo----------------------------------------------- """Save settings/config/materials from GUI to INI-file. Write all config data to INI-file. @@ -4331,18 +5145,31 @@ def saveConfig(): #remi--todo----------------------------------------------- iniFile = iniFileName.val #print 'deb:saveConfig inifFile: ', inifFile #---------------------- if iniFile.lower().endswith(INIFILE_EXTENSION): + + #--todo-- sort key.list for output + #key_list = GUI_A.keys().val + #key_list.sort() + #for key in key_list: + # l_name, l_data = key, GUI_A[key].val + # list_A + output_str = '[%s,%s]' %(GUI_A, GUI_B) if output_str =='None': Draw.PupMenu('DXF importer: INI-file: Alert!%t|no config-data present to save!') else: #if BPyMessages.Warning_SaveOver(iniFile): #<- remi find it too abstarct if sys.exists(iniFile): - f = file(iniFile, 'r'); header_str = f.readline(); f.close() - if header_str.startswith(INIFILE_HEADER[0:12]): + try: + f = file(iniFile, 'r') + try: header_str = f.readline() + finally: f.close() + except: pass + if header_str.startswith(INIFILE_HEADER[0:13]): if Draw.PupMenu(' OK ? %t|SAVE OVER: ' + '\'%s\'' %iniFile) == 1: save_ok = True + else: save_ok = False elif Draw.PupMenu(' OK ? %t|SAVE OVER: ' + '\'%s\'' %iniFile + - '|Alert: this file has no valid ImportDXF-format| ! it may belong to another aplication !') == 1: + '|Alert: this file has no valid ImportDXF-header| ! it may belong to another aplication !') == 1: save_ok = True else: save_ok = False else: save_ok = True @@ -4356,10 +5183,11 @@ def saveConfig(): #remi--todo----------------------------------------------- output_str = '{\n'.join(output_str.split('{')) try: f = file(iniFile, 'w') - f.write(INIFILE_HEADER + '\n# this is a comment line\n') - f.write(output_str) - f.close() - Draw.PupMenu('DXF importer: INI-file: Done!%t|config-data saved in ' + '\'%s\'' %iniFile) + try: + f.write(INIFILE_HEADER + '\n# this is a comment line\n') + f.write(output_str) + finally: f.close() + #Draw.PupMenu('DXF importer: INI-file: Done!%t|config-data saved in ' + '\'%s\'' %iniFile) except: Draw.PupMenu('DXF importer: INI-file: Error!%t|failure by writing to ' + '\'%s\'|no config-data saved!' %iniFile) @@ -4380,28 +5208,28 @@ def loadConfig(): #remi--todo----------------------------------------------- global iniFileName, GUI_A, GUI_B iniFile = iniFileName.val + update_RegistryKey('iniFileName', iniFile) #print 'deb:loadConfig iniFile: ', iniFile #---------------------- if iniFile.lower().endswith(INIFILE_EXTENSION) and sys.exists(iniFile): - f = file(iniFile, 'r') - header_str = f.readline() - if not header_str.startswith(INIFILE_HEADER): - f.close() - Draw.PupMenu('DXF importer: INI-file: Alert!%t|no valid header in INI-file: ' + '\'%s\'' %iniFile) - else: - data_str = f.read() - f.close() - print 'deb:loadConfig data_str from %s: \n' %iniFile , data_str #-------------------------- - data = eval(data_str) - for k, v in data[0].iteritems(): - try: - GUI_A[k].val = v - except: - GUI_A[k] = Draw.Create(v) - for k, v in data[1].iteritems(): - try: - GUI_B[k].val = v - except: - GUI_B[k] = Draw.Create(v) + try: + f = file(iniFile, 'r') + try: + header_str = f.readline() + if header_str.startswith(INIFILE_HEADER): + data_str = f.read() + f.close() + #print 'deb:loadConfig data_str from %s: \n' %iniFile , data_str #----------------- + data = eval(data_str) + for k, v in data[0].iteritems(): + try: GUI_A[k].val = v + except: GUI_A[k] = Draw.Create(v) + for k, v in data[1].iteritems(): + try: GUI_B[k].val = v + except: GUI_B[k] = Draw.Create(v) + else: + Draw.PupMenu('DXF importer: INI-file: Alert!%t|no valid header in INI-file: ' + '\'%s\'' %iniFile) + finally: f.close() + except: pass else: Draw.PupMenu('DXF importer: INI-file: Alert!%t|no valid INI-file selected!') print "DXF importer: Alert!: no valid INI-file selected." @@ -4411,27 +5239,53 @@ def loadConfig(): #remi--todo----------------------------------------------- -def resetDefaultConfig(): #----------------------------------------------- - """Resets settings/config/materials to defaults. +def updateConfig(keywords, drawTypes): #----------------------------------------------- + """updates GUI_settings with given dictionaries """ global GUI_A, GUI_B #print 'deb:lresetDefaultConfig keywords_org: \n', keywords_org #--------- - for k, v in keywords_org.iteritems(): + for k, v in keywords.iteritems(): GUI_A[k].val = v - for k, v in drawTypes_org.iteritems(): + for k, v in drawTypes.iteritems(): GUI_B[k].val = v +def resetDefaultConfig(): #----------------------------------------------- + """Resets settings/config/materials to defaults. + + """ + #print 'deb:lresetDefaultConfig keywords_org: \n', keywords_org #--------- + updateConfig(keywords_org, drawTypes_org) + + +def presetConfig_curv(): #----------------------------------------------- + """Sets settings/config/materials for curve representation. + """ + global GUI_A + if GUI_A['curves_on'].val == 1: + GUI_A['points_as'].val = 5 + GUI_A['lines_as'].val = 5 + GUI_A['mlines_as'].val = 5 + GUI_A['plines_as'].val = 5 + GUI_A['plines3_as'].val = 5 + else: + GUI_A['points_as'].val = 2 + GUI_A['lines_as'].val = 2 + GUI_A['mlines_as'].val = 2 + GUI_A['plines_as'].val = 2 + GUI_A['plines3_as'].val = 2 + + def resetDefaultConfig_2D(): #----------------------------------------------- """Sets settings/config/materials to defaults 2D. """ - resetDefaultConfig() - global GUI_A, GUI_B +# presetConfig_curv() keywords2d = { - 'curves_on' : 0, - 'one_mesh_on': 1, + 'views_on' : 0, + 'cams_on' : 0, + 'lights_on' : 0, 'vGroup_on' : 1, 'thick_on' : 0, 'thick_force': 0, @@ -4444,11 +5298,7 @@ def resetDefaultConfig_2D(): #----------------------------------------------- 'pl_trim_on': 1, 'Z_force_on': 0, 'meshSmooth_on': 0, - 'points_as' : 2, - 'lines_as' : 2, - 'mlines_as' : 2, - 'plines_as' : 2, - 'solids_as' : 1, + 'solids_as' : 2, 'blocks_as' : 1, 'texts_as' : 1 } @@ -4458,7 +5308,7 @@ def resetDefaultConfig_2D(): #----------------------------------------------- 'line' : 1, 'arc' : 1, 'circle': 1, - 'ellipse': 0, + 'ellipse': 1, 'mline' : 0, 'polyline': 1, 'plmesh': 0, @@ -4468,23 +5318,102 @@ def resetDefaultConfig_2D(): #----------------------------------------------- 'mtext' : 0, 'block' : 1, 'insert': 1, + 'solid' : 1, + 'trace' : 1, 'face' : 0, +# 'view' : 0, + } + + updateConfig(keywords2d, drawTypes2d) + +def resetDefaultConfig_3D(): #----------------------------------------------- + """Sets settings/config/materials to defaults 3D. + + """ +# presetConfig_curv() + keywords3d = { + 'vGroup_on' : 1, + 'thick_on' : 1, + 'thick_force': 0, + 'width_on' : 1, + 'width_force': 0, + 'dist_on' : 1, + 'dist_force': 0, + 'pl_3d' : 0, + 'fill_on' : 1, + 'pl_trim_on': 1, + 'Z_force_on': 0, + 'meshSmooth_on': 1, + 'solids_as' : 2, + 'blocks_as' : 1, + 'texts_as' : 1 + } + + drawTypes3d = { + 'point' : 1, + 'line' : 1, + 'arc' : 1, + 'circle': 1, + 'ellipse': 1, + 'mline' : 0, + 'polyline': 1, + 'plmesh': 1, + 'pline3': 1, + 'lwpolyline': 1, + 'text' : 1, + 'mtext' : 0, + 'block' : 1, + 'insert': 1, 'solid' : 1, - 'trace' : 1 + 'trace' : 1, + 'face' : 1, +# 'view' : 0, } - for k, v in keywords2d.iteritems(): - GUI_A[k].val = v - for k, v in drawTypes2d.iteritems(): - GUI_B[k].val = v + updateConfig(keywords3d, drawTypes3d) + + +def inputGlobalScale(): + """Pop-up UI-Block for global scale factor + """ + global GUI_A + #print 'deb:inputGlobalScale ##########' #------------ + x_scale = Draw.Create(GUI_A['g_scale'].val) + block = [] + #block.append("global translation vector:") + block.append(("", x_scale, 0.0, 10000000.0)) + retval = Draw.PupBlock("set global scale factor:", block) + + GUI_A['g_scale'].val = float(x_scale.val) + + +def inputOriginVector(): + """Pop-up UI-Block for global translation vector + """ + global GUI_A + #print 'deb:inputOriginVector ##########' #------------ + x_origin = Draw.Create(GUI_A['g_originX'].val) + y_origin = Draw.Create(GUI_A['g_originY'].val) + z_origin = Draw.Create(GUI_A['g_originZ'].val) + block = [] + #block.append("global translation vector:") + block.append(("X: ", x_origin, -100000000.0, 100000000.0)) + block.append(("Y: ", y_origin, -100000000.0, 100000000.0)) + block.append(("Z: ", z_origin, -100000000.0, 100000000.0)) + + retval = Draw.PupBlock("set global translation vector:", block) + + GUI_A['g_originX'].val = x_origin.val + GUI_A['g_originY'].val = y_origin.val + GUI_A['g_originZ'].val = z_origin.val def draw_UI(): #----------------------------------------------------------------- """ Draw startUI and setup Settings. """ global GUI_A, GUI_B #__version__ - global user_preset, iniFileName, dxfFileName, config_UI + global user_preset, iniFileName, dxfFileName, config_UI, g_scale_as # This is for easy layout changes but_0c = 70 #button 1.column width @@ -4495,8 +5424,8 @@ def draw_UI(): #--------------------------------------------------------------- butt_margin = 10 menu_w = (3 * butt_margin) + but_0c + but_1c + but_2c + but_3c #menu width - simple_menu_h = 110 - extend_menu_h = 400 + simple_menu_h = 80 + extend_menu_h = 350 y = simple_menu_h # y is menu upper.y if config_UI.val: y += extend_menu_h x = 20 #menu left.x @@ -4504,160 +5433,228 @@ def draw_UI(): #--------------------------------------------------------------- but1c = but0c + but_0c + butt_margin but2c = but1c + but_1c + butt_margin but3c = but2c + but_2c + butt_margin + but4c = but3c + but_3c # Here starts menu ----------------------------------------------------- #glClear(GL_COLOR_BUFFER_BIT) #glRasterPos2d(8, 125) + y += 30 colorbox(x, y+20, x+menu_w+menu_margin*2, menu_margin) - Draw.Label("DXF Importer ver." + __version__, but0c, y, menu_w, 20) + Draw.Label("DXF-Importer ver." + __version__, but0c, y, menu_w, 20) if config_UI.val: - y -= 30 + b0, b0_ = but0c, but_0c + butt_margin + b1, b1_ = but1c, but_1c + y -= 10 + + y -= 20 Draw.BeginAlign() - GUI_B['point'] = Draw.Toggle('POINT', EVENT_NONE, but0c, y, but_0c+but_1c, 20, GUI_B['point'].val, "support dxf-POINT on/off") - Draw.Label('-->', but2c, y, but_2c, 20) - GUI_A['points_as'] = Draw.Menu(points_as_menu, EVENT_NONE, but3c, y, but_3c, 20, GUI_A['points_as'].val, "select target Blender-object") + GUI_B['point'] = Draw.Toggle('POINT', EVENT_REDRAW, b0, y, b0_, 20, GUI_B['point'].val, "support dxf-POINT on/off") + if GUI_B['point'].val: + GUI_A['points_as'] = Draw.Menu(points_as_menu, EVENT_NONE, b1, y, b1_, 20, GUI_A['points_as'].val, "select target Blender-object") +# Draw.Label('-->', but2c, y, but_2c, 20) Draw.EndAlign() y -= 20 Draw.BeginAlign() - GUI_B['line'] = Draw.Toggle('LINE.ARC.CIRCLE', EVENT_NONE, but0c, y, but_0c+but_1c, 20, GUI_B['line'].val, "support dxf-LINE,ARC,CIRCLE,ELLIPSE on/off") - Draw.Label('-->', but2c, y, but_2c, 20) - GUI_A['lines_as'] = Draw.Menu(lines_as_menu, EVENT_NONE, but3c, y, but_3c, 20, GUI_A['lines_as'].val, "select target Blender-object") + GUI_B['line'] = Draw.Toggle('LINE...etc', EVENT_REDRAW, b0, y, b0_, 20, GUI_B['line'].val, "support dxf-LINE,ARC,CIRCLE,ELLIPSE on/off") + if GUI_B['line'].val: + GUI_A['lines_as'] = Draw.Menu(lines_as_menu, EVENT_NONE, but1c, y, but_1c, 20, GUI_A['lines_as'].val, "select target Blender-object") Draw.EndAlign() y -= 20 Draw.BeginAlign() - GUI_B['mline'] = Draw.Toggle('*MLINE', EVENT_NONE, but0c, y, but_0c+but_1c, 20, GUI_B['mline'].val, "(*wip)support dxf-MLINE on/off") - Draw.Label('-->', but2c, y, but_2c, 20) - GUI_A['mlines_as'] = Draw.Menu(mlines_as_menu, EVENT_NONE, but3c, y, but_3c, 20, GUI_A['mlines_as'].val, "select target Blender-object") + GUI_B['mline'] = Draw.Toggle('*MLINE', EVENT_REDRAW, b0, y, b0_, 20, GUI_B['mline'].val, "(*wip)support dxf-MLINE on/off") + if GUI_B['mline'].val: + GUI_A['mlines_as'] = Draw.Menu(mlines_as_menu, EVENT_NONE, but1c, y, but_1c, 20, GUI_A['mlines_as'].val, "select target Blender-object") Draw.EndAlign() y -= 20 Draw.BeginAlign() - GUI_B['polyline'] = Draw.Toggle('2D-POLYLINE', EVENT_NONE, but0c, y, but_0c+but_1c, 20, GUI_B['polyline'].val, "support dxf-2D-POLYLINE on/off") - Draw.Label('-->', but2c, y, but_2c, 20) - GUI_A['plines_as'] = Draw.Menu(plines_as_menu, EVENT_NONE, but3c, y, but_3c, 20, GUI_A['plines_as'].val, "select target Blender-object") + GUI_B['polyline'] = Draw.Toggle('2D-PLINE', EVENT_REDRAW, b0, y, b0_, 20, GUI_B['polyline'].val, "support dxf-2D-POLYLINE on/off") + if GUI_B['polyline'].val: + GUI_A['plines_as'] = Draw.Menu(plines_as_menu, EVENT_NONE, but1c, y, but_1c, 20, GUI_A['plines_as'].val, "select target Blender-object") Draw.EndAlign() y -= 20 Draw.BeginAlign() - GUI_B['pline3'] = Draw.Toggle('3D-POLYLINE', EVENT_NONE, but0c, y, but_0c+but_1c, 20, GUI_B['pline3'].val, "support dxf-3D-POLYLINE on/off") - Draw.Label('-->', but2c, y, but_2c, 20) - GUI_A['plines3_as'] = Draw.Menu(plines3_as_menu, EVENT_NONE, but3c, y, but_3c, 20, GUI_A['plines3_as'].val, "select target Blender-object") + GUI_B['pline3'] = Draw.Toggle('3D-PLINE', EVENT_REDRAW, b0, y, b0_, 20, GUI_B['pline3'].val, "support dxf-3D-POLYLINE on/off") + if GUI_B['pline3'].val: + GUI_A['plines3_as'] = Draw.Menu(plines3_as_menu, EVENT_NONE, but1c, y, but_1c, 20, GUI_A['plines3_as'].val, "select target Blender-object") Draw.EndAlign() + y -= 10 y -= 20 Draw.BeginAlign() - GUI_B['plmesh'] = Draw.Toggle('POLYMESH/-FACE', EVENT_NONE, but0c, y, but_0c+but_1c, 20, GUI_B['plmesh'].val, "support dxf-POLYMESH/POLYFACE on/off") - Draw.Label('-->', but2c, y, but_2c, 20) - GUI_A['plmesh_as'] = Draw.Menu(plmesh_as_menu, EVENT_NONE, but3c, y, but_3c, 20, GUI_A['plmesh_as'].val, "select target Blender-object") + GUI_A['material_on'] = Draw.Toggle('material', EVENT_REDRAW, b0, y, b0_-20, 20, GUI_A['material_on'].val, "support for material assignment on/off") + if GUI_A['material_on'].val: + GUI_A['material_from'] = Draw.Menu(material_from_menu, EVENT_NONE, b1-20, y, b1_+20, 20, GUI_A['material_from'].val, "material assignment from?") Draw.EndAlign() y -= 20 Draw.BeginAlign() - GUI_B['solid'] = Draw.Toggle('3DFACE.SOLID.TRACE', EVENT_NONE, but0c, y, but_0c+but_1c, 20, GUI_B['solid'].val, "support dxf-3DFACE, SOLID and TRACE on/off") - Draw.Label('-->', but2c, y, but_2c, 20) - GUI_A['solids_as'] = Draw.Menu(solids_as_menu, EVENT_NONE, but3c, y, but_3c, 20, GUI_A['solids_as'].val, "select target Blender-object") + GUI_A['g_origin_on'] = Draw.Toggle('glob.reLoc', EVENT_REDRAW, b0, y, b0_, 20, GUI_A['g_origin_on'].val, "global relocate all DXF objects on/off") + if GUI_A['g_origin_on'].val: + tmp = Draw.PushButton('=', EVENT_ORIGIN, b1, y, 20, 20, "edit relocation-vector (x,y,z in DXF units)") + origin_str = '(%.4f, %.4f, %.4f)' % ( + GUI_A['g_originX'].val, + GUI_A['g_originY'].val, + GUI_A['g_originZ'].val + ) + tmp = Draw.Label(origin_str, b1+20, y, 300, 20) + #GUI_A['g_origin'] = Draw.String('', EVENT_ORIGIN, b1, y, b1_, 20, GUI_A['g_origin'].val, "global translation-vector (x,y,z) in DXF units") Draw.EndAlign() y -= 20 Draw.BeginAlign() - GUI_B['text'] = Draw.Toggle('TEXT', EVENT_NONE, but0c, y, but_0c, 20, GUI_B['text'].val, "support dxf-TEXT on/off") - GUI_B['mtext'] = Draw.Toggle('*MTEXT', EVENT_NONE, but1c, y, but_1c-butt_margin, 20, GUI_B['mtext'].val, "(*wip)support dxf-MTEXT on/off") - Draw.Label('-->', but2c, y, but_2c, 20) - GUI_A['texts_as'] = Draw.Menu(texts_as_menu, EVENT_NONE, but3c, y, but_3c, 20, GUI_A['texts_as'].val, "select target Blender-object") + GUI_A['g_scale_on'] = Draw.Toggle('glob.Scale', EVENT_REDRAW, b0, y, b0_, 20, GUI_A['g_scale_on'].val, "global scale all DXF objects on/off") + if GUI_A['g_scale_on'].val: + g_scale_as = Draw.Menu(g_scale_list, EVENT_SCALE, b1, y, 45, 20, g_scale_as.val, "factor for scaling the DXFdata") + if g_scale_as.val == 12: + pass + else: + if g_scale_as.val == 6: #scale inches to meters + GUI_A['g_scale'].val = 0.0254000 + elif g_scale_as.val == 7: #scale feets to meters + GUI_A['g_scale'].val = 0.3048000 + elif g_scale_as.val == 8: #scale yards to meters + GUI_A['g_scale'].val = 0.9144000 + else: + GUI_A['g_scale'].val = 10.0 ** int(g_scale_as.val) + scale_float = GUI_A['g_scale'].val + if scale_float < 0.000001 or scale_float > 1000000: + scale_str = ' = %s' % GUI_A['g_scale'].val + else: + scale_str = ' = %.6f' % GUI_A['g_scale'].val + Draw.Label(scale_str, b1+45, y, 200, 20) Draw.EndAlign() + y -= 10 y -= 20 Draw.BeginAlign() - GUI_B['block'] = Draw.Toggle('BLOCK', EVENT_NONE, but0c, y, but_0c, 20, GUI_B['block'].val, "support dxf-BLOCK and ARRAY on/off") - GUI_A['dummy_on'] = Draw.Toggle('*XREF', EVENT_NONE, but1c, y, but_1c-butt_margin, 20, GUI_A['dummy_on'].val, "(*wip)support XREF-BLOCK on/off") - Draw.Label('-->', but2c, y, but_2c, 20) - GUI_A['blocks_as'] = Draw.Menu(blocks_as_menu, EVENT_NONE, but3c, y, but_3c, 20, GUI_A['blocks_as'].val, "select target Blender-object") + GUI_A['meshSmooth_on'] = Draw.Toggle('smooth', EVENT_NONE, b0, y, b0_-20, 20, GUI_A['meshSmooth_on'].val, "mesh smooth for circles/arcsegments on/off") + GUI_A['pl_trim_on'] = Draw.Toggle('trim', EVENT_NONE, b1-20, y, 32, 20, GUI_A['pl_trim_on'].val, "intersection of POLYLINE-wide-segments on/off") + GUI_A['pl_trim_max'] = Draw.Number('', EVENT_NONE, b1+12, y, b1_-12, 20, GUI_A['pl_trim_max'].val, 0, 5, "limit for intersection of POLYLINE-wide-segments: 0.0-5.0") Draw.EndAlign() - y -= 20 Draw.BeginAlign() - GUI_A['dummy_on'] = Draw.Toggle('*views', EVENT_NONE, but0c, y, but_0c-25, 20, GUI_A['dummy_on'].val, "(*wip)support VIEWPORTs on/off") - GUI_A['dummy_on'] = Draw.Toggle('*cams', EVENT_NONE, but1c-25, y, but_1c-25, 20, GUI_A['dummy_on'].val, "(*wip)support CAMERAs on/off") - GUI_A['dummy_on'] = Draw.Toggle('*lights', EVENT_NONE, but1c+25, y, but_1c-25, 20, GUI_A['dummy_on'].val, "(*wip)support LIGHTs on/off") +# GUI_A['thin_res'] = Draw.Number('thin:', EVENT_NONE, but0c, y, but_0c, 20, GUI_A['thin_res'].val, 4, 64, "thin cylinder resolution - number of segments (4-64)") + GUI_A['arc_rad'] = Draw.Number('bR:', EVENT_NONE, b0, y, b0_, 20, GUI_A['arc_rad'].val, 0.01, 100, "basis radius for arc/circle resolution (0.01-100)") + GUI_A['arc_res'] = Draw.Number('', EVENT_NONE, b1, y, b1_/2, 20, GUI_A['arc_res'].val, 3, 500, "arc/circle resolution - number of segments (3-500)") + GUI_A['fill_on'] = Draw.Toggle('caps', EVENT_NONE, b1+b1_/2, y, b1_/2, 20, GUI_A['fill_on'].val, "draws top and bottom caps of CYLINDERs/closed curves on/off") Draw.EndAlign() + + y -= 20 Draw.BeginAlign() - GUI_A['material_on'] = Draw.Toggle('material', EVENT_NONE, but2c, y, but_2c-20, 20, GUI_A['material_on'].val, "support for material assignment on/off") - GUI_A['material_from'] = Draw.Menu(material_from_menu, EVENT_NONE, but3c-20, y, but_3c+20, 20, GUI_A['material_from'].val, "material assignment from?") + GUI_A['curves_on'] = Draw.Toggle('to Curves', EVENT_PRESETCURV, b0, y, b0_, 20, GUI_A['curves_on'].val, "import into curves instead into meshes on/off") + GUI_A['curve_arc'] = Draw.Number('', EVENT_NONE, b1, y, b1_/2, 20, GUI_A['curve_arc'].val, 3, 32, "Bezier circle: amount of segments: 3-32") + GUI_A['curve_res'] = Draw.Number('', EVENT_NONE, b1+b1_/2, y, b1_/2, 20, GUI_A['curve_res'].val, 1, 128, "Set the Curve's U-resolution value: 1-128") Draw.EndAlign() - y -= 20 + GUI_A['group_bylayer_on'] = Draw.Toggle('Lay', EVENT_NONE, b0, y, 30, 20, GUI_A['group_bylayer_on'].val, "grouping entities from the same layer on/off") + GUI_A['vGroup_on'] = Draw.Toggle('vGroups', EVENT_NONE, b0+30, y, b1_-10, 20, GUI_A['vGroup_on'].val, "support Blender-VertexGroups on/off") + GUI_A['one_mesh_on'] = Draw.Toggle('oneMesh', EVENT_NONE, b1+10, y, b1_-10, 20, GUI_A['one_mesh_on'].val, "draw DXF-entities into one mesh-object. Recommended for big DXF-files. on/off") + + y -= 30 Draw.BeginAlign() - GUI_A['paper_space_on'] = Draw.Toggle('paperSpace', EVENT_NONE, but0c, y, but_0c+20, 20, GUI_A['paper_space_on'].val, "import from paper space only on/off") - GUI_A['layFrozen_on'] = Draw.Toggle('frozen', EVENT_NONE, but1c+20, y, but_1c-20, 20, GUI_A['layFrozen_on'].val, "import also from frozen layers on/off") + GUI_A['paper_space_on'] = Draw.Toggle('paper space', EVENT_NONE, b0, y, b0_+20, 20, GUI_A['paper_space_on'].val, "import only layout (paper space) on/off") + GUI_A['layFrozen_on'] = Draw.Toggle('frozen', EVENT_NONE, b1+20, y, b1_-20, 20, GUI_A['layFrozen_on'].val, "import also from frozen layers on/off") #GUI_A['dummy_on'] = Draw.Toggle('-', EVENT_NONE, but3c, y, but_3c, 20, GUI_A['dummy_on'].val, "dummy on/off") Draw.EndAlign() + + y_down = y + # ----------------------------------------------- + y = simple_menu_h + extend_menu_h +20 + b0, b0_ = but2c, but_2c + butt_margin + b1, b1_ = but3c, but_3c + + y -= 20 Draw.BeginAlign() - GUI_A['g_scale_on'] = Draw.Toggle('glob.Scale', EVENT_NONE, but2c, y, but_2c, 20, GUI_A['g_scale_on'].val, "scaling all DXF objects on/off") - GUI_A['g_scale_as'] = Draw.Menu(g_scale_list, EVENT_NONE, but3c, y, but_3c, 20, GUI_A['g_scale_as'].val, "10^ factor for scaling the DXFdata") + GUI_B['plmesh'] = Draw.Toggle('POLY-MESH/FACE', EVENT_NONE, b0, y, b0_+b1_, 20, GUI_B['plmesh'].val, "support dxf-POLYMESH/POLYFACE on/off") +# GUI_A['plmesh_as'] = Draw.Menu(plmesh_as_menu, EVENT_NONE, but1c, y, but_1c, 20, GUI_A['plmesh_as'].val, "select target Blender-object") Draw.EndAlign() - - y -= 30 - GUI_A['group_bylayer_on'] = Draw.Toggle('oneGroup', EVENT_NONE, but0c, y, but_0c, 20, GUI_A['group_bylayer_on'].val, "grouping entities from the same layer on/off") - GUI_A['vGroup_on'] = Draw.Toggle('vGroups', EVENT_NONE, but1c, y, but_1c, 20, GUI_A['vGroup_on'].val, "support Blender-VertexGroups on/off") + y -= 20 Draw.BeginAlign() - GUI_A['Z_force_on'] = Draw.Toggle('*elevation', EVENT_NONE, but2c, y, but_2c, 20, GUI_A['Z_force_on'].val, "*set objects Z-coordinates to elevation on/off") - GUI_A['Z_elev'] = Draw.Number('', EVENT_NONE, but3c, y, but_3c, 20, GUI_A['Z_elev'].val, -1000, 1000, "set default elevation(Z)") + GUI_B['solid'] = Draw.Toggle('SOLID', EVENT_NONE, b0, y, b0_, 20, GUI_B['solid'].val, "support dxf-SOLID and TRACE on/off") + GUI_B['face'] = Draw.Toggle('3DFACE', EVENT_NONE, b1, y, b1_, 20, GUI_B['face'].val, "support dxf-3DFACE on/off") +# GUI_A['solids_as'] = Draw.Menu(solids_as_menu, EVENT_NONE, but3c, y, but_3c, 20, GUI_A['solids_as'].val, "select target Blender-object") Draw.EndAlign() + #print 'deb:support solid, trace', GUI_B['trace'].val, GUI_B['solid'].val # ------------ y -= 20 Draw.BeginAlign() - GUI_A['meshSmooth_on'] = Draw.Toggle('smooth', EVENT_NONE, but0c, y, but_0c-20, 20, GUI_A['meshSmooth_on'].val, "mesh smooth for circles/arcsegments on/off") - GUI_A['pl_trim_on'] = Draw.Toggle('trim', EVENT_NONE, but1c-20, y, 32, 20, GUI_A['pl_trim_on'].val, "intersection of POLYLINE-wide-segments on/off") - GUI_A['pl_trim_max'] = Draw.Number('', EVENT_NONE, but1c+12, y, but_1c-12, 20, GUI_A['pl_trim_max'].val, 0, 5, "limit for intersection of POLYLINE-wide-segments: 0.0-5.0") + GUI_B['text'] = Draw.Toggle('TEXT', EVENT_NONE, b0, y, b0_, 20, GUI_B['text'].val, "support dxf-TEXT on/off") + GUI_B['mtext'] = Draw.Toggle('*MTEXT', EVENT_NONE, b1, y, b1_, 20, GUI_B['mtext'].val, "(*wip)support dxf-MTEXT on/off") +# GUI_A['texts_as'] = Draw.Menu(texts_as_menu, EVENT_NONE, but3c, y, but_3c, 20, GUI_A['texts_as'].val, "select target Blender-object") Draw.EndAlign() + + y -= 20 Draw.BeginAlign() - GUI_A['dist_on'] = Draw.Toggle('dist.:', EVENT_NONE, but2c, y, but_2c-20, 20, GUI_A['dist_on'].val, "support distance on/off") - GUI_A['dist_force'] = Draw.Toggle('F', EVENT_NONE, but2c+but_2c-20, y, 20, 20, GUI_A['dist_force'].val, "force minimal distance on/off") - GUI_A['dist_min'] = Draw.Number('', EVENT_NONE, but3c, y, but_3c, 20, GUI_A['dist_min'].val, 0, 10, "minimal length/distance (double.vertex removing)") + GUI_B['block'] = Draw.Toggle('BLOCK', EVENT_REDRAW, b0, y, b0_-30, 20, GUI_B['block'].val, "support dxf-BLOCK and ARRAY on/off") + GUI_B['insert'].val = GUI_B['block'].val + if GUI_B['block'].val: + GUI_A['block_nn'] = Draw.Toggle('n', EVENT_NONE, b1-30, y, 15, 20, GUI_A['block_nn'].val, "support hatch/noname BLOCKs *X... on/off") + GUI_A['blockFilter_on'] = Draw.Toggle('F', EVENT_NONE, b1-15, y, 15, 20, GUI_A['blockFilter_on'].val, "(*wip) support name filtering of BLOCKs on/off") + GUI_A['xref_on'] = Draw.Toggle('Xref', EVENT_NONE, b1, y, 20, 20, GUI_A['xref_on'].val, "support place holder for XREF-BLOCKs on/off") + GUI_A['blocks_as'] = Draw.Menu(blocks_as_menu, EVENT_NONE, b1+20, y, b1_-20, 20, GUI_A['blocks_as'].val, "select target representation for imported BLOCKs") Draw.EndAlign() + y -= 20 Draw.BeginAlign() -# GUI_A['thin_res'] = Draw.Number('thin:', EVENT_NONE, but0c, y, but_0c, 20, GUI_A['thin_res'].val, 4, 64, "thin cylinder resolution - number of segments (4-64)") - GUI_A['arc_rad'] = Draw.Number('bR:', EVENT_NONE, but0c, y, but_0c, 20, GUI_A['arc_rad'].val, 0.01, 100, "basis radius for arc/circle resolution (0.01-100)") - GUI_A['arc_res'] = Draw.Number('', EVENT_NONE, but1c, y, but_1c/2, 20, GUI_A['arc_res'].val, 3, 500, "arc/circle resolution - number of segments (3-500)") - GUI_A['fill_on'] = Draw.Toggle('caps', EVENT_NONE, but1c+but_1c/2, y, but_1c/2, 20, GUI_A['fill_on'].val, "draws top and bottom caps of CYLINDERs/closed curves on/off") + GUI_A['views_on'] = Draw.Toggle('views', EVENT_NONE, b0, y, b0_-25, 20, GUI_A['views_on'].val, "imports VIEWs and VIEWPORTs as cameras on/off") + GUI_A['cams_on'] = Draw.Toggle('*cams', EVENT_NONE, b1-25, y, b1_-25, 20, GUI_A['cams_on'].val, "(*wip) support ASHADE cameras on/off") + GUI_A['lights_on'] = Draw.Toggle('*lights', EVENT_NONE, b1+25, y, b1_-25, 20, GUI_A['lights_on'].val, "(*wip) support AVE_RENDER lights on/off") Draw.EndAlign() + + y -= 10 + y -= 20 + y -= 20 + y -= 20 + + y -= 10 + y -= 20 Draw.BeginAlign() - GUI_A['thick_on'] = Draw.Toggle('thick:', EVENT_NONE, but2c, y, but_2c-20, 20, GUI_A['thick_on'].val, "support thickness on/off") - GUI_A['thick_force'] = Draw.Toggle('F', EVENT_NONE, but2c+but_2c-20, y, 20, 20, GUI_A['thick_force'].val, "force minimal thickness on/off") - GUI_A['thick_min'] = Draw.Number('', EVENT_NONE, but3c, y, but_3c, 20, GUI_A['thick_min'].val, 0, 10, "minimal thickness") + GUI_A['Z_force_on'] = Draw.Toggle('*elevation', EVENT_REDRAW, b0, y, b0_, 20, GUI_A['Z_force_on'].val, "*set objects Z-coordinates to elevation on/off") + if GUI_A['Z_force_on'].val: + GUI_A['Z_elev'] = Draw.Number('', EVENT_NONE, b1, y, b1_, 20, GUI_A['Z_elev'].val, -1000, 1000, "set default elevation(Z-coordinate)") Draw.EndAlign() + y -= 20 + Draw.BeginAlign() + GUI_A['dist_on'] = Draw.Toggle('dist.:', EVENT_NONE, b0, y, b0_-20, 20, GUI_A['dist_on'].val, "support distance on/off") + GUI_A['dist_force'] = Draw.Toggle('F', EVENT_NONE, b0+b0_-20, y, 20, 20, GUI_A['dist_force'].val, "force minimal distance on/off") + GUI_A['dist_min'] = Draw.Number('', EVENT_NONE, b1, y, b1_, 20, GUI_A['dist_min'].val, 0, 10, "minimal length/distance (double.vertex removing)") + Draw.EndAlign() y -= 20 Draw.BeginAlign() - #GUI_A['group_bylayer_on'] = Draw.Toggle('oneGroup', EVENT_NONE, but0c, y, but_0c, 20, GUI_A['group_bylayer_on'].val, "grouping entities from the same layer on/off") - GUI_A['curves_on'] = Draw.Toggle('to Curves', EVENT_NONE, but0c, y, but_0c, 20, GUI_A['curves_on'].val, "drawing LINE/ARC/POLYLINE into Blender-Curves instead of Meshes on/off") - GUI_A['curve_arc'] = Draw.Number('', EVENT_NONE, but1c, y, but_1c/2, 20, GUI_A['curve_arc'].val, 3, 32, "Bezier circle resolution - number of segments: 3-32") - GUI_A['curve_res'] = Draw.Number('', EVENT_NONE, but1c+but_1c/2, y, but_1c/2, 20, GUI_A['curve_res'].val, 3, 50, "Bezier curve resolution: 3-50") + GUI_A['thick_on'] = Draw.Toggle('thick:', EVENT_NONE, b0, y, b0_-20, 20, GUI_A['thick_on'].val, "support thickness on/off") + GUI_A['thick_force'] = Draw.Toggle('F', EVENT_REDRAW, b0+b0_-20, y, 20, 20, GUI_A['thick_force'].val, "force for thickness at least limiter value on/off") + if GUI_A['thick_force'].val: + GUI_A['thick_min'] = Draw.Number('', EVENT_NONE, b1, y, b1_, 20, GUI_A['thick_min'].val, 0, 10, "minimal value for thickness") Draw.EndAlign() + + y -= 20 Draw.BeginAlign() - GUI_A['width_on'] = Draw.Toggle('width:', EVENT_NONE, but2c, y, but_2c-20, 20, GUI_A['width_on'].val, "support width on/off") - GUI_A['width_force'] = Draw.Toggle('F', EVENT_NONE, but2c+but_2c-20, y, 20, 20, GUI_A['width_force'].val, "force minimal width on/off") - GUI_A['width_min'] = Draw.Number('', EVENT_NONE, but3c, y, but_3c, 20, GUI_A['width_min'].val, 0, 10, "minimal width") + GUI_A['width_on'] = Draw.Toggle('width:', EVENT_NONE, b0, y, b0_-20, 20, GUI_A['width_on'].val, "support width on/off") + GUI_A['width_force'] = Draw.Toggle('F', EVENT_REDRAW, b0+b0_-20, y, 20, 20, GUI_A['width_force'].val, "force for width at least limiter value on/off") + if GUI_A['width_force'].val: + GUI_A['width_min'] = Draw.Number('', EVENT_NONE, b1, y, b1_, 20, GUI_A['width_min'].val, 0, 10, "minimal value for width") Draw.EndAlign() y -= 30 - #GUI_A['dummy_on'] = Draw.Toggle(' - ', EVENT_NONE, but0c, y, but_0c, 20, GUI_A['dummy_on'].val, "reserved") - GUI_A['one_mesh_on'] = Draw.Toggle('oneMesh', EVENT_NONE, but0c, y, but_0c, 20, GUI_A['one_mesh_on'].val, "draw DXF-entities into one mesh-object. Recommended for big DXF-files. on/off") - GUI_A['newScene_on'] = Draw.Toggle('newScene', EVENT_NONE, but1c, y, but_1c, 20, GUI_A['newScene_on'].val, "creates new Blender-Scene for each import on/off") - GUI_A['target_layer'] = Draw.Number('layer', EVENT_NONE, but2c, y, but_2c, 20, GUI_A['target_layer'].val, 1, 18, "imports into this Blender-layer (<19> reserved for block_definitions)") - GUI_A['optimization'] = Draw.Number('optim:', EVENT_NONE, but3c, y, but_3c, 20, GUI_A['optimization'].val, 0, 3, "Optimization Level: 0=Debug/directDrawing, 1=Verbose, 2=ProgressBar, 3=silentMode/fastest") + GUI_A['newScene_on'] = Draw.Toggle('newScene', EVENT_NONE, b0, y, b0_, 20, GUI_A['newScene_on'].val, "creates new Blender-Scene for each import on/off") + GUI_A['target_layer'] = Draw.Number('layer', EVENT_NONE, b1, y, b1_, 20, GUI_A['target_layer'].val, 1, 18, "imports into this Blender-layer (<19> reserved for block_definitions)") + #-------------------------------------- + if y > y_down: y = y_down + #GUI_A['dummy_on'] = Draw.Toggle(' - ', EVENT_NONE, but0c, y, but_0c, 20, GUI_A['dummy_on'].val, "reserved") y -= 30 Draw.BeginAlign() Draw.PushButton('INI file >', EVENT_CHOOSE_INI, but0c, y, but_0c, 20, 'Select INI-file from project directory') @@ -4666,19 +5663,22 @@ def draw_UI(): #--------------------------------------------------------------- y -= 20 Draw.BeginAlign() - Draw.PushButton('Presets', EVENT_PRESETS, but0c, y, but_0c, 20, "tipist for Preset-INI-files") - Draw.PushButton('Load', EVENT_LOAD_INI, but1c, y, but_1c, 20, ' Loads configuration from ini-file: %s' % iniFileName.val) - Draw.PushButton('Save', EVENT_SAVE_INI, but2c, y, but_2c, 20, 'Saves configuration to ini-file: %s' % iniFileName.val) -# user_preset = Draw.Number('preset:', EVENT_PRESETS, but2c, y, but_2c, 20, user_preset.val, 0, 5, "call user Preset-INI-files") - Draw.PushButton('2D', EVENT_PRESET2D, but3c, y, but_3c/2, 20, 'resets configuration to 2D-defaults') - Draw.PushButton('3D', EVENT_PRESET, but3c+but_3c/2, y, but_3c/2, 20, 'resets configuration to 3D-defaults') + Draw.PushButton('#', EVENT_PRESETS, but0c, y, 20, 20, "tipist for Preset-INI-files") + Draw.PushButton('Load', EVENT_LOAD_INI, but0c+20, y, but_0c-20, 20, '.Loads configuration from ini-file: %s' % iniFileName.val) + Draw.PushButton('Save', EVENT_SAVE_INI, but1c, y, but_1c-20, 20, 'Saves configuration to ini-file: %s' % iniFileName.val) Draw.EndAlign() + but_ = (but_2c+but_3c)/4 + but = but2c + Draw.PushButton('reset', EVENT_RESET, but, y, but_, 20, "reset configuration to defaults") + Draw.PushButton('2D', EVENT_PRESET2D, but+but_, y, but_, 20, 'set configuration for 2D import') + Draw.PushButton('3D', EVENT_PRESET3D, but+but_*2, y, but_, 20, 'set configuration for 3D import') + GUI_A['optimization'] = Draw.Number('', EVENT_NONE, but4c-35, y, 35, 20, GUI_A['optimization'].val, 0, 3, "Optimization Level: 0=Debug/directDrawing, 1=Verbose, 2=ProgressBar, 3=silentMode/fastest") - y -= 30 + y = simple_menu_h Draw.BeginAlign() Draw.PushButton('DXFfile >', EVENT_CHOOSE_DXF, but0c, y, but_0c, 20, 'Select DXF-file from project directory') - dxfFileName = Draw.String(' :', EVENT_NONE, but1c, y, but_1c+but_2c+but_3c-20, 20, dxfFileName.val, FILENAME_MAX, "type the name of DXF-file or * for multi-import") + dxfFileName = Draw.String(' :', EVENT_NONE, but1c, y, but_1c+but_2c+but_3c-20, 20, dxfFileName.val, FILENAME_MAX, "type the name of DXF-file or type *.dxf for multi-import") Draw.PushButton('*.*', EVENT_DXF_DIR, but3c+but_3c-20, y, 20, 20, 'Set asterisk * as filter') Draw.EndAlign() @@ -4687,11 +5687,11 @@ def draw_UI(): #--------------------------------------------------------------- Draw.BeginAlign() Draw.PushButton('EXIT', EVENT_EXIT, but0c, y, but_0c, 40, '' ) Draw.PushButton('HELP', EVENT_HELP, but1c, y, but_1c-20, 20, 'calls BlenderWiki for Manual, Updates and Support.') - Draw.PushButton('?', EVENT_LIST, but1c+but_1c-20, y, 20, 20, 'analyze DXF-file: print listing of LAYERs and BLOCKs into the text-file.INF') + Draw.PushButton('?', EVENT_LIST, but1c+but_1c-20, y, 20, 20, 'DXF analyze tool: print listing of LAYERs and BLOCKs into the text file .INF') Draw.PushButton('START IMPORT', EVENT_START, but2c, y, but_2c+but_3c+butt_margin, 40, 'Start the import procedure') Draw.EndAlign() - config_UI = Draw.Toggle('CONFIG', EVENT_CONFIG, but1c-butt_margin/2, y+20, but_1c+butt_margin, 20, config_UI.val, 'Advanced configuration on/off' ) + config_UI = Draw.Toggle('CONFIG', EVENT_REDRAW, but1c-butt_margin/2, y+20, but_1c+butt_margin, 20, config_UI.val, 'Advanced configuration on/off' ) y -= 20 Draw.BeginAlign() @@ -4709,10 +5709,13 @@ def colorbox(x,y,xright,bottom): def dxf_callback(input_filename): global dxfFileName dxfFileName.val=input_filename +# dirname == Blender.sys.dirname(Blender.Get('filename')) +# update_RegistryKey('DirName', dirname) +# update_RegistryKey('dxfFileName', input_filename) -def ini_callback(input_texture): +def ini_callback(input_filename): global iniFileName - iniFileName.val=input_texture + iniFileName.val=input_filename def event(evt, val): if evt in (Draw.QKEY, Draw.ESCKEY) and not val: @@ -4721,27 +5724,46 @@ def event(evt, val): def bevent(evt): # global EVENT_NONE,EVENT_LOAD_DXF,EVENT_LOAD_INI,EVENT_SAVE_INI,EVENT_EXIT global config_UI, user_preset + global GUI_A ######### Manages GUI events if (evt==EVENT_EXIT): Blender.Draw.Exit() + print 'DXF-Importer *** exit ***' #--------------------- elif (evt==EVENT_CHOOSE_INI): Window.FileSelector(ini_callback, "INI-file Selection", '*.ini') - elif (evt==EVENT_CONFIG): + elif (evt==EVENT_REDRAW): Draw.Redraw() - elif (evt==EVENT_PRESET): + elif (evt==EVENT_RESET): resetDefaultConfig() Draw.Redraw() elif (evt==EVENT_PRESET2D): resetDefaultConfig_2D() Draw.Redraw() + elif (evt==EVENT_SCALE): + if g_scale_as.val == 12: + inputGlobalScale() + if GUI_A['g_scale'].val < 0.00000001: + GUI_A['g_scale'].val = 0.00000001 + Draw.Redraw() + elif (evt==EVENT_ORIGIN): + inputOriginVector() + Draw.Redraw() + elif (evt==EVENT_PRESET3D): + resetDefaultConfig_3D() + Draw.Redraw() + elif (evt==EVENT_PRESETCURV): + presetConfig_curv() + Draw.Redraw() elif (evt==EVENT_PRESETS): user_preset += 1 - if user_preset > 5: user_preset = 1 - iniFileName.val = INIFILE_DEFAULT_NAME + str(user_preset) + INIFILE_EXTENSION + index = str(user_preset) + if user_preset > 5: user_preset = 0; index = '' + iniFileName.val = INIFILE_DEFAULT_NAME + index + INIFILE_EXTENSION Draw.Redraw() elif (evt==EVENT_LIST): dxfFile = dxfFileName.val + update_RegistryKey('dxfFileName', dxfFileName.val) if dxfFile.lower().endswith('.dxf') and sys.exists(dxfFile): analyzeDXF(dxfFile) else: @@ -4770,20 +5792,31 @@ http://wiki.blender.org/index.php?title=Scripts/Manual/Import/DXF-3D') elif '\\' in dxfFile: dxfPathName = '\\'.join(dxfFile.split('\\')[:-1]) + '\\' dxfFileName.val = dxfPathName + '*.dxf' - global GUI_A +# dirname == Blender.sys.dirname(Blender.Get('filename')) +# update_RegistryKey('DirName', dirname) +# update_RegistryKey('dxfFileName', dxfFileName.val) GUI_A['newScene_on'].val = 1 Draw.Redraw() +# elif (evt==EVENT_DXF_NAME): +# dirname == Blender.sys.dirname(Blender.Get('filename')) +# update_RegistryKey('DirName', dirname) +# #print 'deb:EVENT_DXF_NAME dxfFileName.val:', dxfFileName.val #-------------- +# update_RegistryKey('dxfFileName', dxfFileName.val) elif (evt==EVENT_CHOOSE_DXF): - Window.FileSelector(dxf_callback, "DXF-file Selection", '*.dxf') + filename = '' # '*.dxf' + if dxfFileName.val: filename = dxfFileName.val + Window.FileSelector(dxf_callback, "DXF-file Selection", filename) elif (evt==EVENT_START): dxfFile = dxfFileName.val #print 'deb: dxfFile file: ', dxfFile #---------------------- + update_RegistryKey('dxfFileName', dxfFileName.val) if dxfFile.lower().endswith('*.dxf'): if Draw.PupMenu('DXF importer: OK?|will import all DXF-files from:|%s' % dxfFile) == 1: global UI_MODE UI_MODE = False - multi_import(dxfFile[:-5]) # cut last char:'*.dxf' - Draw.Exit() + multi_import(dxfFile[:-5]) # cut last 5 characters '*.dxf' + Draw.Redraw() + #Draw.Exit() else: Draw.Redraw() elif dxfFile.lower().endswith('.dxf') and sys.exists(dxfFile): @@ -4795,6 +5828,7 @@ http://wiki.blender.org/index.php?title=Scripts/Manual/Import/DXF-3D') global SCENE SCENE = Blender.Scene.New(_dxf_file) SCENE.makeCurrent() + Blender.Redraw() #or so? Blender.Scene.makeCurrent(_dxf_file) #sce = bpy.data.scenes.new(_dxf_file) #bpy.data.scenes.active = sce @@ -4822,7 +5856,7 @@ def multi_import(DIR): batchTIME = Blender.sys.time() #if #DIR == "": DIR = os.path.curdir if DIR == "": DIR = Blender.sys.dirname(Blender.Get('filename')) - print 'Multifile Mode: searching for DXF-files in %s' %DIR + print 'Multifiles Import from %s' %DIR files = \ [sys.join(DIR, f) for f in os.listdir(DIR) if f.lower().endswith('.dxf')] if not files: @@ -4832,7 +5866,7 @@ def multi_import(DIR): i = 0 for dxfFile in files: i += 1 - print '\nImporting', dxfFile, ' NUMBER', i, 'of', len(files) + print '\nDXF-file', i, 'of', len(files) #,'\nImporting', dxfFile if GUI_A['newScene_on'].val: _dxf_file = dxfFile.split('/')[-1].split('\\')[-1] _dxf_file = _dxf_file[:-4] # cut last char:'.dxf' @@ -4849,12 +5883,24 @@ def multi_import(DIR): #Blender.Redraw() print 'TOTAL TIME: %.6f' % (Blender.sys.time() - batchTIME) + print '\a\r', # beep when done if __name__ == "__main__": UI_MODE = True + # recall last used DXF-file and INI-file names + dxffilename = check_RegistryKey('dxfFileName') + #print 'deb:start dxffilename:', dxffilename #---------------- + if dxffilename: dxfFileName.val = dxffilename + else: + dirname = Blender.sys.dirname(Blender.Get('filename')) + #print 'deb:start dirname:', dirname #---------------- + dxfFileName.val = sys.join(dirname, '') + inifilename = check_RegistryKey('iniFileName') + if inifilename: iniFileName.val = inifilename + Draw.Register(draw_UI, event, bevent) @@ -4892,4 +5938,4 @@ if 1: main(_dxf) print 'TOTAL TIME: %.6f' % (Blender.sys.time() - TIME) -""" +"""
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