/* SPDX-License-Identifier: GPL-2.0-or-later * Copyright 2008 Blender Foundation. All rights reserved. */ /** \file * \ingroup spgraph */ #include #include #include "DNA_anim_types.h" #include "DNA_collection_types.h" #include "DNA_scene_types.h" #include "MEM_guardedalloc.h" #include "BLI_blenlib.h" #include "BLI_math.h" #include "BLI_utildefines.h" #include "BKE_context.h" #include "BKE_fcurve.h" #include "BKE_lib_remap.h" #include "BKE_screen.h" #include "ED_anim_api.h" #include "ED_markers.h" #include "ED_screen.h" #include "ED_space_api.h" #include "ED_time_scrub_ui.h" #include "GPU_framebuffer.h" #include "GPU_immediate.h" #include "GPU_state.h" #include "WM_api.h" #include "WM_message.h" #include "WM_types.h" #include "RNA_access.h" #include "RNA_define.h" #include "RNA_enum_types.h" #include "UI_interface.h" #include "UI_resources.h" #include "UI_view2d.h" #include "BLO_read_write.h" #include "graph_intern.h" /* own include */ /* ******************** default callbacks for ipo space ***************** */ static SpaceLink *graph_create(const ScrArea *UNUSED(area), const Scene *scene) { ARegion *region; SpaceGraph *sipo; /* Graph Editor - general stuff */ sipo = MEM_callocN(sizeof(SpaceGraph), "init graphedit"); sipo->spacetype = SPACE_GRAPH; sipo->autosnap = SACTSNAP_FRAME; /* allocate DopeSheet data for Graph Editor */ sipo->ads = MEM_callocN(sizeof(bDopeSheet), "GraphEdit DopeSheet"); sipo->ads->source = (ID *)scene; /* settings for making it easier by default to just see what you're interested in tweaking */ sipo->ads->filterflag |= ADS_FILTER_ONLYSEL; sipo->flag |= SIPO_SELVHANDLESONLY | SIPO_SHOW_MARKERS; /* header */ region = MEM_callocN(sizeof(ARegion), "header for graphedit"); BLI_addtail(&sipo->regionbase, region); region->regiontype = RGN_TYPE_HEADER; region->alignment = (U.uiflag & USER_HEADER_BOTTOM) ? RGN_ALIGN_BOTTOM : RGN_ALIGN_TOP; /* channels */ region = MEM_callocN(sizeof(ARegion), "channels region for graphedit"); BLI_addtail(&sipo->regionbase, region); region->regiontype = RGN_TYPE_CHANNELS; region->alignment = RGN_ALIGN_LEFT; region->v2d.scroll = (V2D_SCROLL_RIGHT | V2D_SCROLL_BOTTOM); /* ui buttons */ region = MEM_callocN(sizeof(ARegion), "buttons region for graphedit"); BLI_addtail(&sipo->regionbase, region); region->regiontype = RGN_TYPE_UI; region->alignment = RGN_ALIGN_RIGHT; /* main region */ region = MEM_callocN(sizeof(ARegion), "main region for graphedit"); BLI_addtail(&sipo->regionbase, region); region->regiontype = RGN_TYPE_WINDOW; region->v2d.tot.xmin = 0.0f; region->v2d.tot.ymin = (float)scene->r.sfra - 10.0f; region->v2d.tot.xmax = (float)scene->r.efra; region->v2d.tot.ymax = 10.0f; region->v2d.cur = region->v2d.tot; region->v2d.min[0] = FLT_MIN; region->v2d.min[1] = FLT_MIN; region->v2d.max[0] = MAXFRAMEF; region->v2d.max[1] = FLT_MAX; region->v2d.scroll = (V2D_SCROLL_BOTTOM | V2D_SCROLL_HORIZONTAL_HANDLES); region->v2d.scroll |= (V2D_SCROLL_RIGHT | V2D_SCROLL_VERTICAL_HANDLES); region->v2d.keeptot = 0; return (SpaceLink *)sipo; } /* not spacelink itself */ static void graph_free(SpaceLink *sl) { SpaceGraph *si = (SpaceGraph *)sl; if (si->ads) { BLI_freelistN(&si->ads->chanbase); MEM_freeN(si->ads); } if (si->runtime.ghost_curves.first) { BKE_fcurves_free(&si->runtime.ghost_curves); } } /* spacetype; init callback */ static void graph_init(struct wmWindowManager *wm, ScrArea *area) { SpaceGraph *sipo = (SpaceGraph *)area->spacedata.first; /* init dopesheet data if non-existent (i.e. for old files) */ if (sipo->ads == NULL) { sipo->ads = MEM_callocN(sizeof(bDopeSheet), "GraphEdit DopeSheet"); sipo->ads->source = (ID *)WM_window_get_active_scene(wm->winactive); } /* force immediate init of any invalid F-Curve colors */ /* XXX: but, don't do SIPO_TEMP_NEEDCHANSYNC (i.e. channel select state sync) * as this is run on each region resize; setting this here will cause selection * state to be lost on area/region resizing. T35744. */ ED_area_tag_refresh(area); } static SpaceLink *graph_duplicate(SpaceLink *sl) { SpaceGraph *sipon = MEM_dupallocN(sl); memset(&sipon->runtime, 0x0, sizeof(sipon->runtime)); /* clear or remove stuff from old */ BLI_duplicatelist(&sipon->runtime.ghost_curves, &((SpaceGraph *)sl)->runtime.ghost_curves); sipon->ads = MEM_dupallocN(sipon->ads); return (SpaceLink *)sipon; } /* add handlers, stuff you only do once or on area/region changes */ static void graph_main_region_init(wmWindowManager *wm, ARegion *region) { wmKeyMap *keymap; UI_view2d_region_reinit(®ion->v2d, V2D_COMMONVIEW_CUSTOM, region->winx, region->winy); /* own keymap */ keymap = WM_keymap_ensure(wm->defaultconf, "Graph Editor", SPACE_GRAPH, 0); WM_event_add_keymap_handler_v2d_mask(®ion->handlers, keymap); keymap = WM_keymap_ensure(wm->defaultconf, "Graph Editor Generic", SPACE_GRAPH, 0); WM_event_add_keymap_handler(®ion->handlers, keymap); } static void graph_main_region_draw(const bContext *C, ARegion *region) { /* draw entirely, view changes should be handled here */ SpaceGraph *sipo = CTX_wm_space_graph(C); Scene *scene = CTX_data_scene(C); bAnimContext ac; View2D *v2d = ®ion->v2d; /* clear and setup matrix */ UI_ThemeClearColor(TH_BACK); UI_view2d_view_ortho(v2d); /* grid */ bool display_seconds = (sipo->mode == SIPO_MODE_ANIMATION) && (sipo->flag & SIPO_DRAWTIME); UI_view2d_draw_lines_x__frames_or_seconds(v2d, scene, display_seconds); UI_view2d_draw_lines_y__values(v2d); ED_region_draw_cb_draw(C, region, REGION_DRAW_PRE_VIEW); /* start and end frame (in F-Curve mode only) */ if (sipo->mode != SIPO_MODE_DRIVERS) { ANIM_draw_framerange(scene, v2d); } /* draw data */ if (ANIM_animdata_get_context(C, &ac)) { /* draw ghost curves */ graph_draw_ghost_curves(&ac, sipo, region); /* draw curves twice - unselected, then selected, so that the are fewer occlusion problems */ graph_draw_curves(&ac, sipo, region, 0); graph_draw_curves(&ac, sipo, region, 1); /* XXX(ton): the slow way to set tot rect... but for nice sliders needed. */ get_graph_keyframe_extents( &ac, &v2d->tot.xmin, &v2d->tot.xmax, &v2d->tot.ymin, &v2d->tot.ymax, false, true); /* extra offset so that these items are visible */ v2d->tot.xmin -= 10.0f; v2d->tot.xmax += 10.0f; } if ((sipo->flag & SIPO_NODRAWCURSOR) == 0) { uint pos = GPU_vertformat_attr_add(immVertexFormat(), "pos", GPU_COMP_F32, 2, GPU_FETCH_FLOAT); immBindBuiltinProgram(GPU_SHADER_3D_UNIFORM_COLOR); /* horizontal component of value-cursor (value line before the current frame line) */ float y = sipo->cursorVal; /* Draw a line to indicate the cursor value. */ immUniformThemeColorShadeAlpha(TH_CFRAME, -10, -50); GPU_blend(GPU_BLEND_ALPHA); GPU_line_width(2.0); immBegin(GPU_PRIM_LINES, 2); immVertex2f(pos, v2d->cur.xmin, y); immVertex2f(pos, v2d->cur.xmax, y); immEnd(); GPU_blend(GPU_BLEND_NONE); /* Vertical component of the cursor. */ if (sipo->mode == SIPO_MODE_DRIVERS) { /* cursor x-value */ float x = sipo->cursorTime; /* to help differentiate this from the current frame, * draw slightly darker like the horizontal one */ immUniformThemeColorShadeAlpha(TH_CFRAME, -40, -50); GPU_blend(GPU_BLEND_ALPHA); GPU_line_width(2.0); immBegin(GPU_PRIM_LINES, 2); immVertex2f(pos, x, v2d->cur.ymin); immVertex2f(pos, x, v2d->cur.ymax); immEnd(); GPU_blend(GPU_BLEND_NONE); } immUnbindProgram(); } /* markers */ if (sipo->mode != SIPO_MODE_DRIVERS) { UI_view2d_view_orthoSpecial(region, v2d, 1); int marker_draw_flag = DRAW_MARKERS_MARGIN; if (sipo->flag & SIPO_SHOW_MARKERS) { ED_markers_draw(C, marker_draw_flag); } } /* preview range */ if (sipo->mode != SIPO_MODE_DRIVERS) { UI_view2d_view_ortho(v2d); ANIM_draw_previewrange(C, v2d, 0); } /* callback */ UI_view2d_view_ortho(v2d); ED_region_draw_cb_draw(C, region, REGION_DRAW_POST_VIEW); /* reset view matrix */ UI_view2d_view_restore(C); /* time-scrubbing */ ED_time_scrub_draw(region, scene, display_seconds, false); } static void graph_main_region_draw_overlay(const bContext *C, ARegion *region) { /* draw entirely, view changes should be handled here */ const SpaceGraph *sipo = CTX_wm_space_graph(C); const Scene *scene = CTX_data_scene(C); View2D *v2d = ®ion->v2d; /* Driver Editor's X axis is not time. */ if (sipo->mode != SIPO_MODE_DRIVERS) { /* scrubbing region */ ED_time_scrub_draw_current_frame(region, scene, sipo->flag & SIPO_DRAWTIME); } /* scrollers */ /* FIXME: args for scrollers depend on the type of data being shown. */ UI_view2d_scrollers_draw(v2d, NULL); /* scale numbers */ { rcti rect; BLI_rcti_init( &rect, 0, 15 * UI_DPI_FAC, 15 * UI_DPI_FAC, region->winy - UI_TIME_SCRUB_MARGIN_Y); UI_view2d_draw_scale_y__values(region, v2d, &rect, TH_SCROLL_TEXT); } } static void graph_channel_region_init(wmWindowManager *wm, ARegion *region) { wmKeyMap *keymap; /* make sure we keep the hide flags */ region->v2d.scroll |= V2D_SCROLL_RIGHT; /* prevent any noise of past */ region->v2d.scroll &= ~(V2D_SCROLL_LEFT | V2D_SCROLL_TOP | V2D_SCROLL_BOTTOM); region->v2d.scroll |= V2D_SCROLL_HORIZONTAL_HIDE; region->v2d.scroll |= V2D_SCROLL_VERTICAL_HIDE; UI_view2d_region_reinit(®ion->v2d, V2D_COMMONVIEW_LIST, region->winx, region->winy); /* own keymap */ keymap = WM_keymap_ensure(wm->defaultconf, "Animation Channels", 0, 0); WM_event_add_keymap_handler_v2d_mask(®ion->handlers, keymap); keymap = WM_keymap_ensure(wm->defaultconf, "Graph Editor Generic", SPACE_GRAPH, 0); WM_event_add_keymap_handler(®ion->handlers, keymap); } static void graph_channel_region_draw(const bContext *C, ARegion *region) { bAnimContext ac; View2D *v2d = ®ion->v2d; /* clear and setup matrix */ UI_ThemeClearColor(TH_BACK); UI_view2d_view_ortho(v2d); /* draw channels */ if (ANIM_animdata_get_context(C, &ac)) { graph_draw_channel_names((bContext *)C, &ac, region); } /* channel filter next to scrubbing area */ ED_time_scrub_channel_search_draw(C, region, ac.ads); /* reset view matrix */ UI_view2d_view_restore(C); /* scrollers */ UI_view2d_scrollers_draw(v2d, NULL); } /* add handlers, stuff you only do once or on area/region changes */ static void graph_header_region_init(wmWindowManager *UNUSED(wm), ARegion *region) { ED_region_header_init(region); } static void graph_header_region_draw(const bContext *C, ARegion *region) { ED_region_header(C, region); } /* add handlers, stuff you only do once or on area/region changes */ static void graph_buttons_region_init(wmWindowManager *wm, ARegion *region) { wmKeyMap *keymap; ED_region_panels_init(wm, region); keymap = WM_keymap_ensure(wm->defaultconf, "Graph Editor Generic", SPACE_GRAPH, 0); WM_event_add_keymap_handler_v2d_mask(®ion->handlers, keymap); } static void graph_buttons_region_draw(const bContext *C, ARegion *region) { ED_region_panels(C, region); } static void graph_region_listener(const wmRegionListenerParams *params) { ARegion *region = params->region; const wmNotifier *wmn = params->notifier; /* context changes */ switch (wmn->category) { case NC_ANIMATION: ED_region_tag_redraw(region); break; case NC_SCENE: switch (wmn->data) { case ND_RENDER_OPTIONS: case ND_OB_ACTIVE: case ND_FRAME: case ND_FRAME_RANGE: case ND_MARKERS: ED_region_tag_redraw(region); break; case ND_SEQUENCER: if (wmn->action == NA_SELECTED) { ED_region_tag_redraw(region); } break; } break; case NC_OBJECT: switch (wmn->data) { case ND_BONE_ACTIVE: case ND_BONE_SELECT: case ND_KEYS: ED_region_tag_redraw(region); break; case ND_MODIFIER: if (wmn->action == NA_RENAME) { ED_region_tag_redraw(region); } break; } break; case NC_NODE: switch (wmn->action) { case NA_EDITED: case NA_SELECTED: ED_region_tag_redraw(region); break; } break; case NC_ID: if (wmn->action == NA_RENAME) { ED_region_tag_redraw(region); } break; case NC_SCREEN: if (ELEM(wmn->data, ND_LAYER)) { ED_region_tag_redraw(region); } break; default: if (wmn->data == ND_KEYS) { ED_region_tag_redraw(region); } break; } } static void graph_region_message_subscribe(const wmRegionMessageSubscribeParams *params) { struct wmMsgBus *mbus = params->message_bus; Scene *scene = params->scene; bScreen *screen = params->screen; ScrArea *area = params->area; ARegion *region = params->region; PointerRNA ptr; RNA_pointer_create(&screen->id, &RNA_SpaceGraphEditor, area->spacedata.first, &ptr); wmMsgSubscribeValue msg_sub_value_region_tag_redraw = { .owner = region, .user_data = region, .notify = ED_region_do_msg_notify_tag_redraw, }; /* Timeline depends on scene properties. */ { bool use_preview = (scene->r.flag & SCER_PRV_RANGE); const PropertyRNA *props[] = { use_preview ? &rna_Scene_frame_preview_start : &rna_Scene_frame_start, use_preview ? &rna_Scene_frame_preview_end : &rna_Scene_frame_end, &rna_Scene_use_preview_range, &rna_Scene_frame_current, }; PointerRNA idptr; RNA_id_pointer_create(&scene->id, &idptr); for (int i = 0; i < ARRAY_SIZE(props); i++) { WM_msg_subscribe_rna(mbus, &idptr, props[i], &msg_sub_value_region_tag_redraw, __func__); } } /* All dopesheet filter settings, etc. affect the drawing of this editor, * also same applies for all animation-related datatypes that may appear here, * so just whitelist the entire structs for updates */ { wmMsgParams_RNA msg_key_params = {{0}}; StructRNA *type_array[] = { &RNA_DopeSheet, /* dopesheet filters */ &RNA_ActionGroup, /* channel groups */ &RNA_FCurve, /* F-Curve */ &RNA_Keyframe, &RNA_FCurveSample, &RNA_FModifier, /* F-Modifiers (XXX: Why can't we just do all subclasses too?) */ &RNA_FModifierCycles, &RNA_FModifierEnvelope, &RNA_FModifierEnvelopeControlPoint, &RNA_FModifierFunctionGenerator, &RNA_FModifierGenerator, &RNA_FModifierLimits, &RNA_FModifierNoise, &RNA_FModifierPython, &RNA_FModifierStepped, }; for (int i = 0; i < ARRAY_SIZE(type_array); i++) { msg_key_params.ptr.type = type_array[i]; WM_msg_subscribe_rna_params( mbus, &msg_key_params, &msg_sub_value_region_tag_redraw, __func__); } } } /* editor level listener */ static void graph_listener(const wmSpaceTypeListenerParams *params) { ScrArea *area = params->area; const wmNotifier *wmn = params->notifier; SpaceGraph *sipo = (SpaceGraph *)area->spacedata.first; /* context changes */ switch (wmn->category) { case NC_ANIMATION: /* For selection changes of animation data, we can just redraw... * otherwise auto-color might need to be done again. */ if (ELEM(wmn->data, ND_KEYFRAME, ND_ANIMCHAN) && (wmn->action == NA_SELECTED)) { ED_area_tag_redraw(area); } else { ED_area_tag_refresh(area); } break; case NC_SCENE: switch (wmn->data) { case ND_OB_ACTIVE: /* Selection changed, so force refresh to flush * (needs flag set to do syncing). */ case ND_OB_SELECT: sipo->runtime.flag |= SIPO_RUNTIME_FLAG_NEED_CHAN_SYNC; ED_area_tag_refresh(area); break; default: /* just redrawing the view will do */ ED_area_tag_redraw(area); break; } break; case NC_OBJECT: switch (wmn->data) { case ND_BONE_SELECT: /* Selection changed, so force refresh to flush * (needs flag set to do syncing). */ case ND_BONE_ACTIVE: sipo->runtime.flag |= SIPO_RUNTIME_FLAG_NEED_CHAN_SYNC; ED_area_tag_refresh(area); break; case ND_TRANSFORM: break; /* Do nothing. */ default: /* just redrawing the view will do */ ED_area_tag_redraw(area); break; } break; case NC_NODE: if (wmn->action == NA_SELECTED) { /* selection changed, so force refresh to flush (needs flag set to do syncing) */ sipo->runtime.flag |= SIPO_RUNTIME_FLAG_NEED_CHAN_SYNC; ED_area_tag_refresh(area); } break; case NC_SPACE: if (wmn->data == ND_SPACE_GRAPH) { ED_area_tag_redraw(area); } break; case NC_WINDOW: if (sipo->runtime.flag & (SIPO_RUNTIME_FLAG_NEED_CHAN_SYNC | SIPO_RUNTIME_FLAG_NEED_CHAN_SYNC_COLOR)) { /* force redraw/refresh after undo/redo - prevents "black curve" problem */ ED_area_tag_refresh(area); } break; #if 0 /* XXX: restore the case below if not enough updates occur... */ default: { if (wmn->data == ND_KEYS) { ED_area_tag_redraw(area); } } #endif } } /* Update F-Curve colors */ static void graph_refresh_fcurve_colors(const bContext *C) { bAnimContext ac; ListBase anim_data = {NULL, NULL}; bAnimListElem *ale; size_t items; int filter; int i; if (ANIM_animdata_get_context(C, &ac) == false) { return; } UI_SetTheme(SPACE_GRAPH, RGN_TYPE_WINDOW); /* build list of F-Curves which will be visible as channels in channel-region * - we don't include ANIMFILTER_CURVEVISIBLE filter, as that will result in a * mismatch between channel-colors and the drawn curves */ filter = (ANIMFILTER_DATA_VISIBLE | ANIMFILTER_NODUPLIS | ANIMFILTER_FCURVESONLY); items = ANIM_animdata_filter(&ac, &anim_data, filter, ac.data, ac.datatype); /* loop over F-Curves, assigning colors */ for (ale = anim_data.first, i = 0; ale; ale = ale->next, i++) { FCurve *fcu = (FCurve *)ale->data; /* set color of curve here */ switch (fcu->color_mode) { case FCURVE_COLOR_CUSTOM: { /* User has defined a custom color for this curve already * (we assume it's not going to cause clashes with text colors), * which should be left alone... Nothing needs to be done here. */ break; } case FCURVE_COLOR_AUTO_RGB: { /* F-Curve's array index is automatically mapped to RGB values. * This works best of 3-value vectors. * TODO: find a way to module the hue so that not all curves have same color... */ float *col = fcu->color; switch (fcu->array_index) { case 0: UI_GetThemeColor3fv(TH_AXIS_X, col); break; case 1: UI_GetThemeColor3fv(TH_AXIS_Y, col); break; case 2: UI_GetThemeColor3fv(TH_AXIS_Z, col); break; default: /* 'unknown' color - bluish so as to not conflict with handles */ col[0] = 0.3f; col[1] = 0.8f; col[2] = 1.0f; break; } break; } case FCURVE_COLOR_AUTO_YRGB: { /* Like FCURVE_COLOR_AUTO_RGB, except this is for quaternions... */ float *col = fcu->color; switch (fcu->array_index) { case 1: UI_GetThemeColor3fv(TH_AXIS_X, col); break; case 2: UI_GetThemeColor3fv(TH_AXIS_Y, col); break; case 3: UI_GetThemeColor3fv(TH_AXIS_Z, col); break; case 0: { /* Special Case: "W" channel should be yellowish, so blend X and Y channel colors... */ float c1[3], c2[3]; float h1[3], h2[3]; float hresult[3]; /* - get colors (rgb) */ UI_GetThemeColor3fv(TH_AXIS_X, c1); UI_GetThemeColor3fv(TH_AXIS_Y, c2); /* - perform blending in HSV space (to keep brightness similar) */ rgb_to_hsv_v(c1, h1); rgb_to_hsv_v(c2, h2); interp_v3_v3v3(hresult, h1, h2, 0.5f); /* - convert back to RGB for display */ hsv_to_rgb_v(hresult, col); break; } default: /* 'unknown' color - bluish so as to not conflict with handles */ col[0] = 0.3f; col[1] = 0.8f; col[2] = 1.0f; break; } break; } case FCURVE_COLOR_AUTO_RAINBOW: default: { /* determine color 'automatically' using 'magic function' which uses the given args * of current item index + total items to determine some RGB color */ getcolor_fcurve_rainbow(i, items, fcu->color); break; } } } /* free temp list */ ANIM_animdata_freelist(&anim_data); } static void graph_refresh(const bContext *C, ScrArea *area) { SpaceGraph *sipo = (SpaceGraph *)area->spacedata.first; /* updates to data needed depends on Graph Editor mode... */ switch (sipo->mode) { case SIPO_MODE_ANIMATION: /* all animation */ { break; } case SIPO_MODE_DRIVERS: /* Drivers only. */ { break; } } /* region updates? */ /* XXX re-sizing y-extents of tot should go here? */ /* Update the state of the animchannels in response to changes from the data they represent * NOTE: the temp flag is used to indicate when this needs to be done, * and will be cleared once handled. */ if (sipo->runtime.flag & SIPO_RUNTIME_FLAG_NEED_CHAN_SYNC) { ANIM_sync_animchannels_to_data(C); sipo->runtime.flag &= ~SIPO_RUNTIME_FLAG_NEED_CHAN_SYNC; ED_area_tag_redraw(area); } /* We could check 'SIPO_RUNTIME_FLAG_NEED_CHAN_SYNC_COLOR', but color is recalculated anyway. */ if (sipo->runtime.flag & SIPO_RUNTIME_FLAG_NEED_CHAN_SYNC_COLOR) { sipo->runtime.flag &= ~SIPO_RUNTIME_FLAG_NEED_CHAN_SYNC_COLOR; #if 0 /* Done below. */ graph_refresh_fcurve_colors(C); #endif ED_area_tag_redraw(area); } sipo->runtime.flag &= ~(SIPO_RUNTIME_FLAG_TWEAK_HANDLES_LEFT | SIPO_RUNTIME_FLAG_TWEAK_HANDLES_RIGHT); /* init/adjust F-Curve colors */ graph_refresh_fcurve_colors(C); } static void graph_id_remap(ScrArea *UNUSED(area), SpaceLink *slink, const struct IDRemapper *mappings) { SpaceGraph *sgraph = (SpaceGraph *)slink; if (!sgraph->ads) { return; } BKE_id_remapper_apply(mappings, (ID **)&sgraph->ads->filter_grp, ID_REMAP_APPLY_DEFAULT); BKE_id_remapper_apply(mappings, (ID **)&sgraph->ads->source, ID_REMAP_APPLY_DEFAULT); } static int graph_space_subtype_get(ScrArea *area) { SpaceGraph *sgraph = area->spacedata.first; return sgraph->mode; } static void graph_space_subtype_set(ScrArea *area, int value) { SpaceGraph *sgraph = area->spacedata.first; sgraph->mode = value; } static void graph_space_subtype_item_extend(bContext *UNUSED(C), EnumPropertyItem **item, int *totitem) { RNA_enum_items_add(item, totitem, rna_enum_space_graph_mode_items); } static void graph_blend_read_data(BlendDataReader *reader, SpaceLink *sl) { SpaceGraph *sipo = (SpaceGraph *)sl; BLO_read_data_address(reader, &sipo->ads); memset(&sipo->runtime, 0x0, sizeof(sipo->runtime)); } static void graph_blend_read_lib(BlendLibReader *reader, ID *parent_id, SpaceLink *sl) { SpaceGraph *sipo = (SpaceGraph *)sl; bDopeSheet *ads = sipo->ads; if (ads) { BLO_read_id_address(reader, parent_id->lib, &ads->source); BLO_read_id_address(reader, parent_id->lib, &ads->filter_grp); } } static void graph_blend_write(BlendWriter *writer, SpaceLink *sl) { SpaceGraph *sipo = (SpaceGraph *)sl; ListBase tmpGhosts = sipo->runtime.ghost_curves; /* temporarily disable ghost curves when saving */ BLI_listbase_clear(&sipo->runtime.ghost_curves); BLO_write_struct(writer, SpaceGraph, sl); if (sipo->ads) { BLO_write_struct(writer, bDopeSheet, sipo->ads); } /* Re-enable ghost curves. */ sipo->runtime.ghost_curves = tmpGhosts; } void ED_spacetype_ipo(void) { SpaceType *st = MEM_callocN(sizeof(SpaceType), "spacetype ipo"); ARegionType *art; st->spaceid = SPACE_GRAPH; STRNCPY(st->name, "Graph"); st->create = graph_create; st->free = graph_free; st->init = graph_init; st->duplicate = graph_duplicate; st->operatortypes = graphedit_operatortypes; st->keymap = graphedit_keymap; st->listener = graph_listener; st->refresh = graph_refresh; st->id_remap = graph_id_remap; st->space_subtype_item_extend = graph_space_subtype_item_extend; st->space_subtype_get = graph_space_subtype_get; st->space_subtype_set = graph_space_subtype_set; st->blend_read_data = graph_blend_read_data; st->blend_read_lib = graph_blend_read_lib; st->blend_write = graph_blend_write; /* regions: main window */ art = MEM_callocN(sizeof(ARegionType), "spacetype graphedit region"); art->regionid = RGN_TYPE_WINDOW; art->init = graph_main_region_init; art->draw = graph_main_region_draw; art->draw_overlay = graph_main_region_draw_overlay; art->listener = graph_region_listener; art->message_subscribe = graph_region_message_subscribe; art->keymapflag = ED_KEYMAP_VIEW2D | ED_KEYMAP_ANIMATION | ED_KEYMAP_FRAMES; BLI_addhead(&st->regiontypes, art); /* regions: header */ art = MEM_callocN(sizeof(ARegionType), "spacetype graphedit region"); art->regionid = RGN_TYPE_HEADER; art->prefsizey = HEADERY; art->keymapflag = ED_KEYMAP_UI | ED_KEYMAP_VIEW2D | ED_KEYMAP_FRAMES | ED_KEYMAP_HEADER; art->listener = graph_region_listener; art->init = graph_header_region_init; art->draw = graph_header_region_draw; BLI_addhead(&st->regiontypes, art); /* regions: channels */ art = MEM_callocN(sizeof(ARegionType), "spacetype graphedit region"); art->regionid = RGN_TYPE_CHANNELS; /* 200 is the 'standard', but due to scrollers, we want a bit more to fit the lock icons in */ art->prefsizex = 200 + V2D_SCROLL_WIDTH; art->keymapflag = ED_KEYMAP_UI | ED_KEYMAP_VIEW2D | ED_KEYMAP_FRAMES; art->listener = graph_region_listener; art->message_subscribe = graph_region_message_subscribe; art->init = graph_channel_region_init; art->draw = graph_channel_region_draw; BLI_addhead(&st->regiontypes, art); /* regions: UI buttons */ art = MEM_callocN(sizeof(ARegionType), "spacetype graphedit region"); art->regionid = RGN_TYPE_UI; art->prefsizex = UI_SIDEBAR_PANEL_WIDTH; art->keymapflag = ED_KEYMAP_UI | ED_KEYMAP_FRAMES; art->listener = graph_region_listener; art->init = graph_buttons_region_init; art->draw = graph_buttons_region_draw; BLI_addhead(&st->regiontypes, art); graph_buttons_register(art); art = ED_area_type_hud(st->spaceid); BLI_addhead(&st->regiontypes, art); BKE_spacetype_register(st); }