# ##### BEGIN GPL LICENSE BLOCK ##### # # This program is free software; you can redistribute it and/or # modify it under the terms of the GNU General Public License # as published by the Free Software Foundation; either version 2 # of the License, or (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software Foundation, # Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. # # ##### END GPL LICENSE BLOCK ##### # import bpy class BrushButtonsPanel(): bl_space_type = 'IMAGE_EDITOR' bl_region_type = 'UI' @classmethod def poll(cls, context): sima = context.space_data toolsettings = context.tool_settings.image_paint return sima.show_paint and toolsettings.brush class IMAGE_MT_view(bpy.types.Menu): bl_label = "View" def draw(self, context): layout = self.layout sima = context.space_data uv = sima.uv_editor toolsettings = context.tool_settings show_uvedit = sima.show_uvedit layout.operator("image.properties", icon='MENU_PANEL') layout.operator("image.scopes", icon='MENU_PANEL') layout.separator() layout.prop(sima, "update_automatically") if show_uvedit: layout.prop(toolsettings, "uv_local_view") # Numpad / layout.prop(uv, "draw_other_objects") layout.separator() layout.operator("image.view_zoom_in") layout.operator("image.view_zoom_out") layout.separator() ratios = [[1, 8], [1, 4], [1, 2], [1, 1], [2, 1], [4, 1], [8, 1]] for a, b in ratios: text = "Zoom %d:%d" % (a, b) layout.operator("image.view_zoom_ratio", text=text).ratio = a / b layout.separator() if show_uvedit: layout.operator("image.view_selected") layout.operator("image.view_all") layout.separator() layout.operator("screen.area_dupli") layout.operator("screen.screen_full_area") class IMAGE_MT_select(bpy.types.Menu): bl_label = "Select" def draw(self, context): layout = self.layout layout.operator("uv.select_border") layout.operator("uv.select_border").pinned = True layout.separator() layout.operator("uv.select_all") layout.operator("uv.select_inverse") layout.operator("uv.unlink_selection") layout.separator() layout.operator("uv.select_pinned") layout.operator("uv.select_linked") class IMAGE_MT_image(bpy.types.Menu): bl_label = "Image" def draw(self, context): layout = self.layout sima = context.space_data ima = sima.image layout.operator("image.new") layout.operator("image.open") show_render = sima.show_render if ima: if not show_render: layout.operator("image.replace") layout.operator("image.reload") layout.operator("image.save") layout.operator("image.save_as") layout.operator("image.save_as", text="Save a Copy").copy = True if ima.source == 'SEQUENCE': layout.operator("image.save_sequence") layout.operator("image.external_edit", "Edit Externally") if not show_render: layout.separator() if ima.packed_file: layout.operator("image.unpack") else: layout.operator("image.pack") # only for dirty && specific image types, perhaps # this could be done in operator poll too if ima.dirty: if ima.source in ('FILE', 'GENERATED') and ima.type != 'MULTILAYER': layout.operator("image.pack", text="Pack As PNG").as_png = True layout.separator() layout.prop(sima, "image_painting") class IMAGE_MT_uvs_showhide(bpy.types.Menu): bl_label = "Show/Hide Faces" def draw(self, context): layout = self.layout layout.operator("uv.reveal") layout.operator("uv.hide", text="Hide Selected") layout.operator("uv.hide", text="Hide Unselected").unselected = True class IMAGE_MT_uvs_transform(bpy.types.Menu): bl_label = "Transform" def draw(self, context): layout = self.layout layout.operator("transform.translate") layout.operator("transform.rotate") layout.operator("transform.resize") class IMAGE_MT_uvs_snap(bpy.types.Menu): bl_label = "Snap" def draw(self, context): layout = self.layout layout.operator_context = 'EXEC_REGION_WIN' layout.operator("uv.snap_selection", text="Selected to Pixels").target = 'PIXELS' layout.operator("uv.snap_selection", text="Selected to Cursor").target = 'CURSOR' layout.operator("uv.snap_selection", text="Selected to Adjacent Unselected").target = 'ADJACENT_UNSELECTED' layout.separator() layout.operator("uv.snap_cursor", text="Cursor to Pixels").target = 'PIXELS' layout.operator("uv.snap_cursor", text="Cursor to Selection").target = 'SELECTION' class IMAGE_MT_uvs_mirror(bpy.types.Menu): bl_label = "Mirror" def draw(self, context): layout = self.layout layout.operator_context = 'EXEC_REGION_WIN' layout.operator("transform.mirror", text="X Axis").constraint_axis[0] = True layout.operator("transform.mirror", text="Y Axis").constraint_axis[1] = True class IMAGE_MT_uvs_weldalign(bpy.types.Menu): bl_label = "Weld/Align" def draw(self, context): layout = self.layout layout.operator("uv.weld") # W, 1 layout.operator_enums("uv.align", "axis") # W, 2/3/4 class IMAGE_MT_uvs(bpy.types.Menu): bl_label = "UVs" def draw(self, context): layout = self.layout sima = context.space_data uv = sima.uv_editor toolsettings = context.tool_settings layout.prop(uv, "snap_to_pixels") layout.prop(uv, "constrain_to_image_bounds") layout.separator() layout.prop(uv, "live_unwrap") layout.operator("uv.unwrap") layout.operator("uv.pin", text="Unpin").clear = True layout.operator("uv.pin") layout.separator() layout.operator("uv.pack_islands") layout.operator("uv.average_islands_scale") layout.operator("uv.minimize_stretch") layout.operator("uv.stitch") layout.operator("mesh.faces_miror_uv") layout.separator() layout.menu("IMAGE_MT_uvs_transform") layout.menu("IMAGE_MT_uvs_mirror") layout.menu("IMAGE_MT_uvs_snap") layout.menu("IMAGE_MT_uvs_weldalign") layout.separator() layout.prop_menu_enum(toolsettings, "proportional_editing") layout.prop_menu_enum(toolsettings, "proportional_editing_falloff") layout.separator() layout.menu("IMAGE_MT_uvs_showhide") class IMAGE_HT_header(bpy.types.Header): bl_space_type = 'IMAGE_EDITOR' def draw(self, context): layout = self.layout sima = context.space_data ima = sima.image iuser = sima.image_user toolsettings = context.tool_settings show_render = sima.show_render # show_paint = sima.show_paint show_uvedit = sima.show_uvedit row = layout.row(align=True) row.template_header() # menus if context.area.show_menus: sub = row.row(align=True) sub.menu("IMAGE_MT_view") if show_uvedit: sub.menu("IMAGE_MT_select") if ima and ima.dirty: sub.menu("IMAGE_MT_image", text="Image*") else: sub.menu("IMAGE_MT_image", text="Image") if show_uvedit: sub.menu("IMAGE_MT_uvs") layout.template_ID(sima, "image", new="image.new") if not show_render: layout.prop(sima, "image_pin", text="") # uv editing if show_uvedit: uvedit = sima.uv_editor layout.prop(uvedit, "pivot", text="", icon_only=True) layout.prop(toolsettings, "uv_sync_selection", text="") if toolsettings.uv_sync_selection: row = layout.row(align=True) row.prop(toolsettings, "mesh_selection_mode", text="", index=0, icon='VERTEXSEL') row.prop(toolsettings, "mesh_selection_mode", text="", index=1, icon='EDGESEL') row.prop(toolsettings, "mesh_selection_mode", text="", index=2, icon='FACESEL') else: layout.prop(toolsettings, "uv_selection_mode", text="", expand=True) layout.prop(uvedit, "sticky_selection_mode", text="", icon_only=True) row = layout.row(align=True) row.prop(toolsettings, "proportional_editing", text="", icon_only=True) if toolsettings.proportional_editing != 'DISABLED': row.prop(toolsettings, "proportional_editing_falloff", text="", icon_only=True) row = layout.row(align=True) row.prop(toolsettings, "snap", text="") row.prop(toolsettings, "snap_element", text="", icon_only=True) # mesh = context.edit_object.data # row.prop_object(mesh, "active_uv_layer", mesh, "uv_textures") if ima: # layers layout.template_image_layers(ima, iuser) # painting layout.prop(sima, "image_painting", text="") # draw options row = layout.row(align=True) row.prop(sima, "draw_channels", text="", expand=True) row = layout.row(align=True) if ima.type == 'COMPOSITE': row.operator("image.record_composite", icon='REC') if ima.type == 'COMPOSITE' and ima.source in ('MOVIE', 'SEQUENCE'): row.operator("image.play_composite", icon='PLAY') if show_uvedit or sima.image_painting: layout.prop(sima, "update_automatically", text="", icon_only=True, icon='LOCKED') class IMAGE_PT_image_properties(bpy.types.Panel): bl_space_type = 'IMAGE_EDITOR' bl_region_type = 'UI' bl_label = "Image" @classmethod def poll(cls, context): sima = context.space_data return (sima.image) def draw(self, context): layout = self.layout sima = context.space_data # ima = sima.image iuser = sima.image_user layout.template_image(sima, "image", iuser) class IMAGE_PT_game_properties(bpy.types.Panel): bl_space_type = 'IMAGE_EDITOR' bl_region_type = 'UI' bl_label = "Game Properties" @classmethod def poll(cls, context): rd = context.scene.render sima = context.space_data return (sima and sima.image) and (rd.engine == 'BLENDER_GAME') def draw(self, context): layout = self.layout sima = context.space_data ima = sima.image split = layout.split() col = split.column() sub = col.column(align=True) sub.prop(ima, "animated") subsub = sub.column() subsub.active = ima.animated subsub.prop(ima, "animation_start", text="Start") subsub.prop(ima, "animation_end", text="End") subsub.prop(ima, "animation_speed", text="Speed") col.prop(ima, "tiles") sub = col.column(align=True) sub.active = ima.tiles or ima.animated sub.prop(ima, "tiles_x", text="X") sub.prop(ima, "tiles_y", text="Y") col = split.column() col.label(text="Clamp:") col.prop(ima, "clamp_x", text="X") col.prop(ima, "clamp_y", text="Y") col.separator() col.prop(ima, "mapping", expand=True) class IMAGE_PT_view_histogram(bpy.types.Panel): bl_space_type = 'IMAGE_EDITOR' bl_region_type = 'PREVIEW' bl_label = "Histogram" @classmethod def poll(cls, context): sima = context.space_data return (sima and sima.image) def draw(self, context): layout = self.layout sima = context.space_data layout.template_histogram(sima.scopes, "histogram") layout.prop(sima.scopes.histogram, "mode", icon_only=True) class IMAGE_PT_view_waveform(bpy.types.Panel): bl_space_type = 'IMAGE_EDITOR' bl_region_type = 'PREVIEW' bl_label = "Waveform" @classmethod def poll(cls, context): sima = context.space_data return (sima and sima.image) def draw(self, context): layout = self.layout sima = context.space_data layout.template_waveform(sima, "scopes") sub = layout.row().split(percentage=0.75) sub.prop(sima.scopes, "waveform_alpha") sub.prop(sima.scopes, "waveform_mode", text="", icon_only=True) class IMAGE_PT_view_vectorscope(bpy.types.Panel): bl_space_type = 'IMAGE_EDITOR' bl_region_type = 'PREVIEW' bl_label = "Vectorscope" @classmethod def poll(cls, context): sima = context.space_data return (sima and sima.image) def draw(self, context): layout = self.layout sima = context.space_data layout.template_vectorscope(sima, "scopes") layout.prop(sima.scopes, "vectorscope_alpha") class IMAGE_PT_sample_line(bpy.types.Panel): bl_space_type = 'IMAGE_EDITOR' bl_region_type = 'PREVIEW' bl_label = "Sample Line" @classmethod def poll(cls, context): sima = context.space_data return (sima and sima.image) def draw(self, context): layout = self.layout layout.operator("image.sample_line") sima = context.space_data layout.template_histogram(sima, "sample_histogram") layout.prop(sima.sample_histogram, "mode") class IMAGE_PT_scope_sample(bpy.types.Panel): bl_space_type = 'IMAGE_EDITOR' bl_region_type = 'PREVIEW' bl_label = "Scope Samples" @classmethod def poll(cls, context): sima = context.space_data return sima def draw(self, context): layout = self.layout sima = context.space_data split = layout.split() row = split.row() row.prop(sima.scopes, "use_full_resolution") row = split.row() row.active = not sima.scopes.use_full_resolution row.prop(sima.scopes, "accuracy") class IMAGE_PT_view_properties(bpy.types.Panel): bl_space_type = 'IMAGE_EDITOR' bl_region_type = 'UI' bl_label = "Display" @classmethod def poll(cls, context): sima = context.space_data return (sima and (sima.image or sima.show_uvedit)) def draw(self, context): layout = self.layout sima = context.space_data ima = sima.image show_uvedit = sima.show_uvedit uvedit = sima.uv_editor split = layout.split() col = split.column() if ima: col.prop(ima, "display_aspect", text="Aspect Ratio") col = split.column() col.label(text="Coordinates:") col.prop(sima, "draw_repeated", text="Repeat") if show_uvedit: col.prop(uvedit, "normalized_coordinates", text="Normalized") elif show_uvedit: col.label(text="Coordinates:") col.prop(uvedit, "normalized_coordinates", text="Normalized") if show_uvedit: col = layout.column() col.prop(uvedit, "cursor_location") col = layout.column() col.label(text="UVs:") row = col.row() row.prop(uvedit, "edge_draw_type", expand=True) split = layout.split() col = split.column() col.prop(uvedit, "draw_smooth_edges", text="Smooth") col.prop(uvedit, "draw_modified_edges", text="Modified") #col.prop(uvedit, "draw_edges") #col.prop(uvedit, "draw_faces") col = split.column() col.prop(uvedit, "draw_stretch", text="Stretch") sub = col.column() sub.active = uvedit.draw_stretch sub.row().prop(uvedit, "draw_stretch_type", expand=True) class IMAGE_PT_paint(bpy.types.Panel): bl_space_type = 'IMAGE_EDITOR' bl_region_type = 'UI' bl_label = "Paint" @classmethod def poll(cls, context): sima = context.space_data return sima.show_paint def draw(self, context): layout = self.layout toolsettings = context.tool_settings.image_paint brush = toolsettings.brush col = layout.split().column() row = col.row() col.template_ID_preview(toolsettings, "brush", new="brush.add", filter="is_imapaint_brush", rows=3, cols=8) if brush: col = layout.column() col.template_color_wheel(brush, "color", value_slider=True) col.prop(brush, "color", text="") row = col.row(align=True) row.prop(brush, "size", slider=True) row.prop(brush, "use_size_pressure", toggle=True, text="") row = col.row(align=True) row.prop(brush, "strength", slider=True) row.prop(brush, "use_strength_pressure", toggle=True, text="") row = col.row(align=True) row.prop(brush, "jitter", slider=True) row.prop(brush, "use_jitter_pressure", toggle=True, text="") col.prop(brush, "blend", text="Blend") if brush.imagepaint_tool == 'CLONE': col.separator() col.prop(brush, "clone_image", text="Image") col.prop(brush, "clone_alpha", text="Alpha") class IMAGE_PT_tools_brush_texture(BrushButtonsPanel, bpy.types.Panel): bl_label = "Texture" bl_default_closed = True def draw(self, context): layout = self.layout toolsettings = context.tool_settings.image_paint brush = toolsettings.brush # tex_slot = brush.texture_slot col = layout.column() col.template_ID_preview(brush, "texture", new="texture.new", rows=3, cols=8) class IMAGE_PT_paint_stroke(BrushButtonsPanel, bpy.types.Panel): bl_label = "Paint Stroke" bl_default_closed = True def draw(self, context): layout = self.layout toolsettings = context.tool_settings.image_paint brush = toolsettings.brush layout.prop(brush, "use_airbrush") col = layout.column() col.active = brush.use_airbrush col.prop(brush, "rate", slider=True) layout.prop(brush, "use_space") row = layout.row(align=True) row.active = brush.use_space row.prop(brush, "spacing", text="Distance", slider=True) row.prop(brush, "use_spacing_pressure", toggle=True, text="") layout.prop(brush, "use_wrap") class IMAGE_PT_paint_curve(BrushButtonsPanel, bpy.types.Panel): bl_label = "Paint Curve" bl_default_closed = True def draw(self, context): layout = self.layout toolsettings = context.tool_settings.image_paint brush = toolsettings.brush layout.template_curve_mapping(brush, "curve") row = layout.row(align=True) row.operator("brush.curve_preset", icon="SMOOTHCURVE", text="").shape = 'SMOOTH' row.operator("brush.curve_preset", icon="SPHERECURVE", text="").shape = 'ROUND' row.operator("brush.curve_preset", icon="ROOTCURVE", text="").shape = 'ROOT' row.operator("brush.curve_preset", icon="SHARPCURVE", text="").shape = 'SHARP' row.operator("brush.curve_preset", icon="LINCURVE", text="").shape = 'LINE' row.operator("brush.curve_preset", icon="NOCURVE", text="").shape = 'MAX' def register(): pass def unregister(): pass if __name__ == "__main__": register()