/* * 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. */ /** \file * \ingroup edmesh */ #include "BLI_listbase.h" #include "BLI_math.h" #include "BKE_context.h" #include "BKE_scene.h" #include "RNA_access.h" #include "RNA_define.h" #include "RNA_enum_types.h" #include "WM_api.h" #include "WM_message.h" #include "WM_toolsystem.h" #include "WM_types.h" #include "ED_gizmo_utils.h" #include "ED_screen.h" #include "ED_view3d.h" #include "UI_resources.h" #include "MEM_guardedalloc.h" #include "mesh_intern.h" /* own include */ #include "ED_transform.h" #include "ED_gizmo_library.h" #include "ED_undo.h" /** * Orient the handles towards the selection (can be slow with high-poly mesh!). */ /* Disable for now, issues w/ refresh and '+' icons overlap. */ // #define USE_SELECT_CENTER #ifdef USE_SELECT_CENTER # include "BKE_editmesh.h" #endif static const float dial_angle_partial = M_PI / 2; static const float dial_angle_partial_margin = 0.92f; #define ORTHO_AXIS_OFFSET 2 /* -------------------------------------------------------------------- */ /** \name Spin Tool Gizmo * \{ */ typedef struct GizmoGroupData_SpinInit { struct { wmGizmo *xyz_view[4]; wmGizmo *icon_button[3][2]; } gizmos; /* Only for view orientation. */ struct { float viewinv_m3[3][3]; } prev; /* We could store more vars here! */ struct { wmOperatorType *ot_spin; PropertyRNA *gzgt_axis_prop; float orient_mat[3][3]; #ifdef USE_SELECT_CENTER float select_center[3]; float select_center_ortho_axis[3][3]; bool use_select_center; #endif } data; /* Store data for invoke. */ struct { int ortho_axis_active; } invoke; } GizmoGroupData_SpinInit; /* Use dials only as a visualization when hovering over the icons. */ #define USE_DIAL_HOVER #define INIT_SCALE_BASE 2.3f #define INIT_SCALE_BUTTON 0.15f static const uchar shape_plus[] = { 0x73, 0x73, 0x73, 0x36, 0x8c, 0x36, 0x8c, 0x73, 0xc9, 0x73, 0xc9, 0x8c, 0x8c, 0x8c, 0x8c, 0xc9, 0x73, 0xc9, 0x73, 0x8c, 0x36, 0x8c, 0x36, 0x73, 0x36, 0x73, }; static void gizmo_mesh_spin_init_setup(const bContext *UNUSED(C), wmGizmoGroup *gzgroup) { /* alpha values for normal/highlighted states */ const float alpha = 0.6f; const float alpha_hi = 1.0f; const float scale_base = INIT_SCALE_BASE; const float scale_button = INIT_SCALE_BUTTON; GizmoGroupData_SpinInit *ggd = MEM_callocN(sizeof(*ggd), __func__); gzgroup->customdata = ggd; const wmGizmoType *gzt_dial = WM_gizmotype_find("GIZMO_GT_dial_3d", true); const wmGizmoType *gzt_button = WM_gizmotype_find("GIZMO_GT_button_2d", true); for (int i = 0; i < 3; i++) { for (int j = 0; j < 2; j++) { wmGizmo *gz = WM_gizmo_new_ptr(gzt_button, gzgroup, NULL); PropertyRNA *prop = RNA_struct_find_property(gz->ptr, "shape"); RNA_property_string_set_bytes( gz->ptr, prop, (const char *)shape_plus, ARRAY_SIZE(shape_plus)); RNA_enum_set(gz->ptr, "draw_options", ED_GIZMO_BUTTON_SHOW_BACKDROP); float color[4]; UI_GetThemeColor3fv(TH_AXIS_X + i, color); color[3] = alpha; WM_gizmo_set_color(gz, color); WM_gizmo_set_scale(gz, scale_button); gz->color[3] = 0.6f; gz->flag |= WM_GIZMO_DRAW_OFFSET_SCALE | WM_GIZMO_OPERATOR_TOOL_INIT; ggd->gizmos.icon_button[i][j] = gz; } } for (int i = 0; i < ARRAY_SIZE(ggd->gizmos.xyz_view); i++) { wmGizmo *gz = WM_gizmo_new_ptr(gzt_dial, gzgroup, NULL); UI_GetThemeColor3fv(TH_GIZMO_PRIMARY, gz->color); WM_gizmo_set_flag(gz, WM_GIZMO_DRAW_VALUE | WM_GIZMO_HIDDEN_SELECT, true); ggd->gizmos.xyz_view[i] = gz; } for (int i = 0; i < 3; i++) { wmGizmo *gz = ggd->gizmos.xyz_view[i]; #ifndef USE_DIAL_HOVER RNA_enum_set(gz->ptr, "draw_options", ED_GIZMO_DIAL_DRAW_FLAG_CLIP); #endif WM_gizmo_set_line_width(gz, 2.0f); float color[4]; UI_GetThemeColor3fv(TH_AXIS_X + i, color); color[3] = alpha; WM_gizmo_set_color(gz, color); color[3] = alpha_hi; WM_gizmo_set_color_highlight(gz, color); WM_gizmo_set_scale(gz, INIT_SCALE_BASE); RNA_float_set(gz->ptr, "arc_partial_angle", (M_PI * 2) - (dial_angle_partial * dial_angle_partial_margin)); } { wmGizmo *gz = ggd->gizmos.xyz_view[3]; WM_gizmo_set_line_width(gz, 2.0f); float color[4]; copy_v3_fl(color, 1.0f); color[3] = alpha; WM_gizmo_set_color(gz, color); color[3] = alpha_hi; WM_gizmo_set_color_highlight(gz, color); WM_gizmo_set_scale(gz, scale_base); } #ifdef USE_DIAL_HOVER for (int i = 0; i < 4; i++) { wmGizmo *gz = ggd->gizmos.xyz_view[i]; WM_gizmo_set_flag(gz, WM_GIZMO_HIDDEN, true); } #endif ggd->data.ot_spin = WM_operatortype_find("MESH_OT_spin", true); ggd->data.gzgt_axis_prop = RNA_struct_type_find_property(gzgroup->type->srna, "axis"); } static void gizmo_mesh_spin_init_refresh(const bContext *C, wmGizmoGroup *gzgroup); static void gizmo_mesh_spin_init_refresh_axis_orientation(wmGizmoGroup *gzgroup, int axis_index, const float axis_vec[3], const float axis_tan[3]) { GizmoGroupData_SpinInit *ggd = gzgroup->customdata; wmGizmo *gz = ggd->gizmos.xyz_view[axis_index]; if (axis_tan != NULL) { WM_gizmo_set_matrix_rotation_from_yz_axis(gz, axis_tan, axis_vec); } else { WM_gizmo_set_matrix_rotation_from_z_axis(gz, axis_vec); } /* Only for display, use icons to access. */ #ifndef USE_DIAL_HOVER { PointerRNA *ptr = WM_gizmo_operator_set(gz, 0, ggd->data.ot_spin, NULL); RNA_float_set_array(ptr, "axis", axis_vec); } #endif if (axis_index < 3) { for (int j = 0; j < 2; j++) { gz = ggd->gizmos.icon_button[axis_index][j]; PointerRNA *ptr = WM_gizmo_operator_set(gz, 0, ggd->data.ot_spin, NULL); float axis_vec_flip[3]; if (0 == j) { negate_v3_v3(axis_vec_flip, axis_vec); } else { copy_v3_v3(axis_vec_flip, axis_vec); } RNA_float_set_array(ptr, "axis", axis_vec_flip); } } } static void gizmo_mesh_spin_init_draw_prepare(const bContext *C, wmGizmoGroup *gzgroup) { GizmoGroupData_SpinInit *ggd = gzgroup->customdata; RegionView3D *rv3d = CTX_wm_region_view3d(C); float viewinv_m3[3][3]; copy_m3_m4(viewinv_m3, rv3d->viewinv); { Scene *scene = CTX_data_scene(C); const TransformOrientationSlot *orient_slot = BKE_scene_orientation_slot_get( scene, SCE_ORIENT_ROTATE); switch (orient_slot->type) { case V3D_ORIENT_VIEW: { if (!equals_m3m3(viewinv_m3, ggd->prev.viewinv_m3)) { /* Take care calling refresh from draw_prepare, * this should be OK because it's only adjusting the cage orientation. */ gizmo_mesh_spin_init_refresh(C, gzgroup); } break; } } } /* Refresh handled above when using view orientation. */ if (!equals_m3m3(viewinv_m3, ggd->prev.viewinv_m3)) { gizmo_mesh_spin_init_refresh_axis_orientation(gzgroup, 3, rv3d->viewinv[2], NULL); copy_m3_m4(ggd->prev.viewinv_m3, rv3d->viewinv); } /* Hack! highlight XYZ dials based on buttons */ #ifdef USE_DIAL_HOVER { PointerRNA ptr; bToolRef *tref = WM_toolsystem_ref_from_context((bContext *)C); WM_toolsystem_ref_properties_ensure_from_gizmo_group(tref, gzgroup->type, &ptr); const int axis_flag = RNA_property_enum_get(&ptr, ggd->data.gzgt_axis_prop); for (int i = 0; i < 4; i++) { bool hide = (axis_flag & (1 << i)) == 0; wmGizmo *gz = ggd->gizmos.xyz_view[i]; WM_gizmo_set_flag(gz, WM_GIZMO_HIDDEN, hide); if (!hide) { RNA_float_set(gz->ptr, "arc_partial_angle", (M_PI * 2) - (dial_angle_partial * dial_angle_partial_margin)); } } for (int i = 0; i < 3; i++) { for (int j = 0; j < 2; j++) { wmGizmo *gz = ggd->gizmos.icon_button[i][j]; if (gz->state & WM_GIZMO_STATE_HIGHLIGHT) { WM_gizmo_set_flag(ggd->gizmos.xyz_view[i], WM_GIZMO_HIDDEN, false); RNA_float_set(ggd->gizmos.xyz_view[i]->ptr, "arc_partial_angle", 0.0f); i = 3; break; } } } } #endif } static void gizmo_mesh_spin_init_invoke_prepare(const bContext *UNUSED(C), wmGizmoGroup *gzgroup, wmGizmo *gz, const wmEvent *UNUSED(event)) { /* Set the initial ortho axis. */ GizmoGroupData_SpinInit *ggd = gzgroup->customdata; ggd->invoke.ortho_axis_active = -1; for (int i = 0; i < 3; i++) { if (ELEM(gz, UNPACK2(ggd->gizmos.icon_button[i]))) { ggd->invoke.ortho_axis_active = i; break; } } } static void gizmo_mesh_spin_init_refresh(const bContext *C, wmGizmoGroup *gzgroup) { GizmoGroupData_SpinInit *ggd = gzgroup->customdata; RegionView3D *rv3d = ED_view3d_context_rv3d((bContext *)C); const float *gizmo_center = NULL; { Scene *scene = CTX_data_scene(C); const View3DCursor *cursor = &scene->cursor; gizmo_center = cursor->location; } for (int i = 0; i < ARRAY_SIZE(ggd->gizmos.xyz_view); i++) { wmGizmo *gz = ggd->gizmos.xyz_view[i]; WM_gizmo_set_matrix_location(gz, gizmo_center); } for (int i = 0; i < ARRAY_SIZE(ggd->gizmos.icon_button); i++) { for (int j = 0; j < 2; j++) { wmGizmo *gz = ggd->gizmos.icon_button[i][j]; WM_gizmo_set_matrix_location(gz, gizmo_center); } } ED_transform_calc_orientation_from_type(C, ggd->data.orient_mat); for (int i = 0; i < 3; i++) { const int axis_ortho = (i + ORTHO_AXIS_OFFSET) % 3; const float *axis_ortho_vec = ggd->data.orient_mat[axis_ortho]; #ifdef USE_SELECT_CENTER if (ggd->data.use_select_center) { float delta[3]; sub_v3_v3v3(delta, ggd->data.select_center, gizmo_center); project_plane_normalized_v3_v3v3( ggd->data.select_center_ortho_axis[i], delta, ggd->data.orient_mat[i]); if (normalize_v3(ggd->data.select_center_ortho_axis[i]) != 0.0f) { axis_ortho_vec = ggd->data.select_center_ortho_axis[i]; } } #endif gizmo_mesh_spin_init_refresh_axis_orientation( gzgroup, i, ggd->data.orient_mat[i], axis_ortho_vec); } { gizmo_mesh_spin_init_refresh_axis_orientation(gzgroup, 3, rv3d->viewinv[2], NULL); } #ifdef USE_SELECT_CENTER { Object *obedit = CTX_data_edit_object(C); BMEditMesh *em = BKE_editmesh_from_object(obedit); float select_center[3] = {0}; int totsel = 0; BMesh *bm = em->bm; BMVert *eve; BMIter iter; BM_ITER_MESH (eve, &iter, bm, BM_VERTS_OF_MESH) { if (!BM_elem_flag_test(eve, BM_ELEM_HIDDEN)) { if (BM_elem_flag_test(eve, BM_ELEM_SELECT)) { totsel++; add_v3_v3(select_center, eve->co); } } } if (totsel) { mul_v3_fl(select_center, 1.0f / totsel); mul_m4_v3(obedit->obmat, select_center); copy_v3_v3(ggd->data.select_center, select_center); ggd->data.use_select_center = true; } else { ggd->data.use_select_center = false; } } #endif for (int i = 0; i < ARRAY_SIZE(ggd->gizmos.icon_button); i++) { const int axis_ortho = (i + ORTHO_AXIS_OFFSET) % 3; const float *axis_ortho_vec = ggd->data.orient_mat[axis_ortho]; float offset = INIT_SCALE_BASE / INIT_SCALE_BUTTON; float offset_vec[3]; #ifdef USE_SELECT_CENTER if (ggd->data.use_select_center && !is_zero_v3(ggd->data.select_center_ortho_axis[i])) { axis_ortho_vec = ggd->data.select_center_ortho_axis[i]; } #endif mul_v3_v3fl(offset_vec, axis_ortho_vec, offset); for (int j = 0; j < 2; j++) { wmGizmo *gz = ggd->gizmos.icon_button[i][j]; float mat3[3][3]; axis_angle_to_mat3(mat3, ggd->data.orient_mat[i], dial_angle_partial * (j ? -0.5f : 0.5f)); mul_v3_m3v3(gz->matrix_offset[3], mat3, offset_vec); } } { PointerRNA ptr; bToolRef *tref = WM_toolsystem_ref_from_context((bContext *)C); WM_toolsystem_ref_properties_ensure_from_gizmo_group(tref, gzgroup->type, &ptr); const int axis_flag = RNA_property_enum_get(&ptr, ggd->data.gzgt_axis_prop); for (int i = 0; i < ARRAY_SIZE(ggd->gizmos.icon_button); i++) { for (int j = 0; j < 2; j++) { wmGizmo *gz = ggd->gizmos.icon_button[i][j]; WM_gizmo_set_flag(gz, WM_GIZMO_HIDDEN, (axis_flag & (1 << i)) == 0); } } } /* Needed to test view orientation changes. */ copy_m3_m4(ggd->prev.viewinv_m3, rv3d->viewinv); } static void gizmo_mesh_spin_init_message_subscribe(const bContext *C, wmGizmoGroup *gzgroup, struct wmMsgBus *mbus) { GizmoGroupData_SpinInit *ggd = gzgroup->customdata; Scene *scene = CTX_data_scene(C); ARegion *region = CTX_wm_region(C); /* Subscribe to view properties */ wmMsgSubscribeValue msg_sub_value_gz_tag_refresh = { .owner = region, .user_data = gzgroup->parent_gzmap, .notify = WM_gizmo_do_msg_notify_tag_refresh, }; PointerRNA cursor_ptr; RNA_pointer_create(&scene->id, &RNA_View3DCursor, &scene->cursor, &cursor_ptr); /* All cursor properties. */ WM_msg_subscribe_rna(mbus, &cursor_ptr, NULL, &msg_sub_value_gz_tag_refresh, __func__); WM_msg_subscribe_rna_params(mbus, &(const wmMsgParams_RNA){ .ptr = (PointerRNA){ .type = gzgroup->type->srna, }, .prop = ggd->data.gzgt_axis_prop, }, &msg_sub_value_gz_tag_refresh, __func__); } void MESH_GGT_spin(struct wmGizmoGroupType *gzgt) { gzgt->name = "Mesh Spin Init"; gzgt->idname = "MESH_GGT_spin"; gzgt->flag = WM_GIZMOGROUPTYPE_TOOL_FALLBACK_KEYMAP | WM_GIZMOGROUPTYPE_3D; gzgt->gzmap_params.spaceid = SPACE_VIEW3D; gzgt->gzmap_params.regionid = RGN_TYPE_WINDOW; gzgt->poll = ED_gizmo_poll_or_unlink_delayed_from_tool; gzgt->setup = gizmo_mesh_spin_init_setup; /* This works well with right click selection but overrides left-mouse selection * when clicking which is needed to create a full 360 degree revolution, see: T89912. */ // gzgt->setup_keymap = WM_gizmogroup_setup_keymap_generic_maybe_drag; gzgt->refresh = gizmo_mesh_spin_init_refresh; gzgt->message_subscribe = gizmo_mesh_spin_init_message_subscribe; gzgt->draw_prepare = gizmo_mesh_spin_init_draw_prepare; gzgt->invoke_prepare = gizmo_mesh_spin_init_invoke_prepare; RNA_def_enum_flag(gzgt->srna, "axis", rna_enum_axis_flag_xyz_items, (1 << 2), "Axis", ""); } #undef INIT_SCALE_BASE #undef INIT_SCALE_BUTTON /** \} */ /* -------------------------------------------------------------------- */ /** \name Spin Redo Gizmo * \{ */ /** * Orient the dial so the 'arc' starts where the mouse cursor is, * this is simply to keep the gizmo displaying where the cursor starts. * It's not needed for practical functionality. */ #define USE_ANGLE_Z_ORIENT typedef struct GizmoGroupData_SpinRedo { /* Translate XYZ. */ struct wmGizmo *translate_c; /* Spin angle */ struct wmGizmo *angle_z; /* Translate XY constrained ('orient_mat'). */ struct wmGizmo *translate_xy[2]; /* Rotate XY constrained ('orient_mat'). */ struct wmGizmo *rotate_xy[2]; /* Rotate on view axis. */ struct wmGizmo *rotate_view; struct { float plane_co[3]; float plane_no[3]; } prev; bool is_init; /* We could store more vars here! */ struct { bContext *context; wmOperatorType *ot; wmOperator *op; PropertyRNA *prop_axis_co; PropertyRNA *prop_axis_no; PropertyRNA *prop_angle; #ifdef USE_ANGLE_Z_ORIENT /* Apply 'orient_mat' for the final value. */ float orient_axis_relative[3]; #endif /* The orientation, since the operator doesn't store this, we store our own. * this is kept in sync with the operator, * rotating the orientation when it doesn't match. * * Initialize to a sensible value where possible. */ float orient_mat[3][3]; } data; } GizmoGroupData_SpinRedo; /** * XXX. calling redo from property updates is not great. * This is needed because changing the RNA doesn't cause a redo * and we're not using operator UI which does just this. */ static void gizmo_spin_exec(GizmoGroupData_SpinRedo *ggd) { if (ggd->is_init) { wmGizmo *gz = ggd->angle_z; PropertyRNA *prop = RNA_struct_find_property(gz->ptr, "click_value"); RNA_property_unset(gz->ptr, prop); ggd->is_init = false; } wmOperator *op = ggd->data.op; if (op == WM_operator_last_redo((bContext *)ggd->data.context)) { ED_undo_operator_repeat((bContext *)ggd->data.context, op); } } static void gizmo_mesh_spin_redo_update_orient_axis(GizmoGroupData_SpinRedo *ggd, const float plane_no[3]) { float mat[3][3]; rotation_between_vecs_to_mat3(mat, ggd->data.orient_mat[2], plane_no); mul_m3_m3m3(ggd->data.orient_mat, mat, ggd->data.orient_mat); /* Not needed, just set for numeric stability. */ copy_v3_v3(ggd->data.orient_mat[2], plane_no); } static void gizmo_mesh_spin_redo_update_from_op(GizmoGroupData_SpinRedo *ggd) { wmOperator *op = ggd->data.op; float plane_co[3], plane_no[3]; RNA_property_float_get_array(op->ptr, ggd->data.prop_axis_co, plane_co); RNA_property_float_get_array(op->ptr, ggd->data.prop_axis_no, plane_no); if (UNLIKELY(normalize_v3(plane_no) == 0.0f)) { return; } const bool is_plane_co_eq = equals_v3v3(plane_co, ggd->prev.plane_co); const bool is_plane_no_eq = equals_v3v3(plane_no, ggd->prev.plane_no); if (is_plane_co_eq && is_plane_no_eq) { return; } copy_v3_v3(ggd->prev.plane_co, plane_co); copy_v3_v3(ggd->prev.plane_no, plane_no); if (is_plane_no_eq == false) { gizmo_mesh_spin_redo_update_orient_axis(ggd, plane_no); } for (int i = 0; i < 2; i++) { WM_gizmo_set_matrix_location(ggd->rotate_xy[i], plane_co); WM_gizmo_set_matrix_location(ggd->translate_xy[i], plane_co); } WM_gizmo_set_matrix_location(ggd->angle_z, plane_co); WM_gizmo_set_matrix_location(ggd->rotate_view, plane_co); /* translate_c location comes from the property. */ for (int i = 0; i < 2; i++) { WM_gizmo_set_matrix_rotation_from_z_axis(ggd->translate_xy[i], ggd->data.orient_mat[i]); WM_gizmo_set_matrix_rotation_from_z_axis(ggd->rotate_xy[i], ggd->data.orient_mat[i]); } #ifdef USE_ANGLE_Z_ORIENT { float plane_tan[3]; float orient_axis[3]; mul_v3_m3v3(orient_axis, ggd->data.orient_mat, ggd->data.orient_axis_relative); project_plane_normalized_v3_v3v3(plane_tan, orient_axis, plane_no); if (normalize_v3(plane_tan) != 0.0f) { WM_gizmo_set_matrix_rotation_from_yz_axis(ggd->angle_z, plane_tan, plane_no); } else { WM_gizmo_set_matrix_rotation_from_z_axis(ggd->angle_z, plane_no); } } #else WM_gizmo_set_matrix_rotation_from_z_axis(ggd->angle_z, plane_no); #endif } /* depth callbacks */ static void gizmo_spin_prop_depth_get(const wmGizmo *gz, wmGizmoProperty *gz_prop, void *value_p) { GizmoGroupData_SpinRedo *ggd = gz->parent_gzgroup->customdata; wmOperator *op = ggd->data.op; float *value = value_p; BLI_assert(gz_prop->type->array_length == 1); UNUSED_VARS_NDEBUG(gz_prop); const float *plane_no = gz->matrix_basis[2]; float plane_co[3]; RNA_property_float_get_array(op->ptr, ggd->data.prop_axis_co, plane_co); value[0] = dot_v3v3(plane_no, plane_co) - dot_v3v3(plane_no, gz->matrix_basis[3]); } static void gizmo_spin_prop_depth_set(const wmGizmo *gz, wmGizmoProperty *gz_prop, const void *value_p) { GizmoGroupData_SpinRedo *ggd = gz->parent_gzgroup->customdata; wmOperator *op = ggd->data.op; const float *value = value_p; BLI_assert(gz_prop->type->array_length == 1); UNUSED_VARS_NDEBUG(gz_prop); float plane_co[3], plane[4]; RNA_property_float_get_array(op->ptr, ggd->data.prop_axis_co, plane_co); normalize_v3_v3(plane, gz->matrix_basis[2]); plane[3] = -value[0] - dot_v3v3(plane, gz->matrix_basis[3]); /* Keep our location, may be offset simply to be inside the viewport. */ closest_to_plane_normalized_v3(plane_co, plane, plane_co); RNA_property_float_set_array(op->ptr, ggd->data.prop_axis_co, plane_co); gizmo_spin_exec(ggd); } /* translate callbacks */ static void gizmo_spin_prop_translate_get(const wmGizmo *gz, wmGizmoProperty *gz_prop, void *value_p) { GizmoGroupData_SpinRedo *ggd = gz->parent_gzgroup->customdata; wmOperator *op = ggd->data.op; float *value = value_p; BLI_assert(gz_prop->type->array_length == 3); UNUSED_VARS_NDEBUG(gz_prop); RNA_property_float_get_array(op->ptr, ggd->data.prop_axis_co, value); } static void gizmo_spin_prop_translate_set(const wmGizmo *gz, wmGizmoProperty *gz_prop, const void *value) { GizmoGroupData_SpinRedo *ggd = gz->parent_gzgroup->customdata; wmOperator *op = ggd->data.op; BLI_assert(gz_prop->type->array_length == 3); UNUSED_VARS_NDEBUG(gz_prop); RNA_property_float_set_array(op->ptr, ggd->data.prop_axis_co, value); gizmo_spin_exec(ggd); } /* angle callbacks */ static void gizmo_spin_prop_axis_angle_get(const wmGizmo *gz, wmGizmoProperty *gz_prop, void *value_p) { GizmoGroupData_SpinRedo *ggd = gz->parent_gzgroup->customdata; wmOperator *op = ggd->data.op; float *value = value_p; BLI_assert(gz_prop->type->array_length == 1); UNUSED_VARS_NDEBUG(gz_prop); float plane_no[4]; RNA_property_float_get_array(op->ptr, ggd->data.prop_axis_no, plane_no); normalize_v3(plane_no); const float *rotate_axis = gz->matrix_basis[2]; float rotate_up[3]; ortho_v3_v3(rotate_up, rotate_axis); float plane_no_proj[3]; project_plane_normalized_v3_v3v3(plane_no_proj, plane_no, rotate_axis); if (!is_zero_v3(plane_no_proj)) { const float angle = -angle_signed_on_axis_v3v3_v3(plane_no_proj, rotate_up, rotate_axis); value[0] = angle; } else { value[0] = 0.0f; } } static void gizmo_spin_prop_axis_angle_set(const wmGizmo *gz, wmGizmoProperty *gz_prop, const void *value_p) { GizmoGroupData_SpinRedo *ggd = gz->parent_gzgroup->customdata; wmOperator *op = ggd->data.op; const float *value = value_p; BLI_assert(gz_prop->type->array_length == 1); UNUSED_VARS_NDEBUG(gz_prop); float plane_no[4]; RNA_property_float_get_array(op->ptr, ggd->data.prop_axis_no, plane_no); normalize_v3(plane_no); const float *rotate_axis = gz->matrix_basis[2]; float rotate_up[3]; ortho_v3_v3(rotate_up, rotate_axis); float plane_no_proj[3]; project_plane_normalized_v3_v3v3(plane_no_proj, plane_no, rotate_axis); if (!is_zero_v3(plane_no_proj)) { const float angle = -angle_signed_on_axis_v3v3_v3(plane_no_proj, rotate_up, rotate_axis); const float angle_delta = angle - angle_compat_rad(value[0], angle); if (angle_delta != 0.0f) { float mat[3][3]; axis_angle_normalized_to_mat3(mat, rotate_axis, angle_delta); mul_m3_v3(mat, plane_no); /* re-normalize - seems acceptable */ RNA_property_float_set_array(op->ptr, ggd->data.prop_axis_no, plane_no); gizmo_spin_exec(ggd); } } } /* angle callbacks */ static void gizmo_spin_prop_angle_get(const wmGizmo *gz, wmGizmoProperty *gz_prop, void *value_p) { GizmoGroupData_SpinRedo *ggd = gz->parent_gzgroup->customdata; wmOperator *op = ggd->data.op; float *value = value_p; BLI_assert(gz_prop->type->array_length == 1); UNUSED_VARS_NDEBUG(gz_prop); value[0] = RNA_property_float_get(op->ptr, ggd->data.prop_angle); } static void gizmo_spin_prop_angle_set(const wmGizmo *gz, wmGizmoProperty *gz_prop, const void *value_p) { GizmoGroupData_SpinRedo *ggd = gz->parent_gzgroup->customdata; wmOperator *op = ggd->data.op; BLI_assert(gz_prop->type->array_length == 1); UNUSED_VARS_NDEBUG(gz_prop); const float *value = value_p; RNA_property_float_set(op->ptr, ggd->data.prop_angle, value[0]); gizmo_spin_exec(ggd); } static bool gizmo_mesh_spin_redo_poll(const bContext *C, wmGizmoGroupType *gzgt) { if (ED_gizmo_poll_or_unlink_delayed_from_operator(C, gzgt, "MESH_OT_spin")) { if (ED_gizmo_poll_or_unlink_delayed_from_tool_ex(C, gzgt, "MESH_GGT_spin")) { return true; } } return false; } static void gizmo_mesh_spin_redo_modal_from_setup(const bContext *C, wmGizmoGroup *gzgroup) { /* Start off dragging. */ GizmoGroupData_SpinRedo *ggd = gzgroup->customdata; wmWindow *win = CTX_wm_window(C); wmGizmo *gz = ggd->angle_z; wmGizmoMap *gzmap = gzgroup->parent_gzmap; ggd->is_init = true; WM_gizmo_modal_set_from_setup(gzmap, (bContext *)C, gz, 0, win->eventstate); } static void gizmo_mesh_spin_redo_setup(const bContext *C, wmGizmoGroup *gzgroup) { wmOperatorType *ot = WM_operatortype_find("MESH_OT_spin", true); wmOperator *op = WM_operator_last_redo(C); if ((op == NULL) || (op->type != ot)) { return; } GizmoGroupData_SpinRedo *ggd = MEM_callocN(sizeof(*ggd), __func__); gzgroup->customdata = ggd; const wmGizmoType *gzt_arrow = WM_gizmotype_find("GIZMO_GT_arrow_3d", true); const wmGizmoType *gzt_move = WM_gizmotype_find("GIZMO_GT_move_3d", true); const wmGizmoType *gzt_dial = WM_gizmotype_find("GIZMO_GT_dial_3d", true); /* Rotate View Axis (rotate_view) */ { wmGizmo *gz = WM_gizmo_new_ptr(gzt_dial, gzgroup, NULL); UI_GetThemeColor3fv(TH_GIZMO_PRIMARY, gz->color); zero_v4(gz->color); copy_v3_fl(gz->color_hi, 1.0f); gz->color_hi[3] = 0.1f; WM_gizmo_set_flag(gz, WM_GIZMO_DRAW_VALUE, true); RNA_enum_set(gz->ptr, "draw_options", ED_GIZMO_DIAL_DRAW_FLAG_ANGLE_MIRROR | ED_GIZMO_DIAL_DRAW_FLAG_ANGLE_START_Y | ED_GIZMO_DIAL_DRAW_FLAG_FILL); ggd->rotate_view = gz; } /* Translate Center (translate_c) */ { wmGizmo *gz = WM_gizmo_new_ptr(gzt_move, gzgroup, NULL); UI_GetThemeColor3fv(TH_GIZMO_PRIMARY, gz->color); gz->color[3] = 0.6f; RNA_enum_set(gz->ptr, "draw_style", ED_GIZMO_MOVE_STYLE_RING_2D); WM_gizmo_set_flag(gz, WM_GIZMO_DRAW_VALUE, true); WM_gizmo_set_scale(gz, 0.15); WM_gizmo_set_line_width(gz, 2.0f); ggd->translate_c = gz; } /* Spin Angle (angle_z) */ { wmGizmo *gz = WM_gizmo_new_ptr(gzt_dial, gzgroup, NULL); copy_v3_v3(gz->color, gz->color_hi); gz->color[3] = 0.5f; RNA_boolean_set(gz->ptr, "wrap_angle", false); RNA_enum_set(gz->ptr, "draw_options", ED_GIZMO_DIAL_DRAW_FLAG_ANGLE_VALUE); RNA_float_set(gz->ptr, "arc_inner_factor", 0.9f); RNA_float_set(gz->ptr, "click_value", M_PI * 2); WM_gizmo_set_flag(gz, WM_GIZMO_DRAW_VALUE, true); WM_gizmo_set_scale(gz, 2.0f); WM_gizmo_set_line_width(gz, 1.0f); ggd->angle_z = gz; } /* Translate X/Y Tangents (translate_xy) */ for (int i = 0; i < 2; i++) { wmGizmo *gz = WM_gizmo_new_ptr(gzt_arrow, gzgroup, NULL); UI_GetThemeColor3fv(TH_AXIS_X + i, gz->color); RNA_enum_set(gz->ptr, "draw_style", ED_GIZMO_ARROW_STYLE_NORMAL); RNA_enum_set(gz->ptr, "draw_options", 0); WM_gizmo_set_scale(gz, 1.2f); ggd->translate_xy[i] = gz; } /* Rotate X/Y Tangents (rotate_xy) */ for (int i = 0; i < 2; i++) { wmGizmo *gz = WM_gizmo_new_ptr(gzt_dial, gzgroup, NULL); UI_GetThemeColor3fv(TH_AXIS_X + i, gz->color); gz->color[3] = 0.6f; WM_gizmo_set_flag(gz, WM_GIZMO_DRAW_VALUE, true); WM_gizmo_set_line_width(gz, 3.0f); /* show the axis instead of mouse cursor */ RNA_enum_set(gz->ptr, "draw_options", ED_GIZMO_DIAL_DRAW_FLAG_ANGLE_MIRROR | ED_GIZMO_DIAL_DRAW_FLAG_ANGLE_START_Y | ED_GIZMO_DIAL_DRAW_FLAG_CLIP); ggd->rotate_xy[i] = gz; } { ggd->data.context = (bContext *)C; ggd->data.ot = ot; ggd->data.op = op; ggd->data.prop_axis_co = RNA_struct_type_find_property(ot->srna, "center"); ggd->data.prop_axis_no = RNA_struct_type_find_property(ot->srna, "axis"); ggd->data.prop_angle = RNA_struct_type_find_property(ot->srna, "angle"); } /* The spin operator only knows about an axis, * while the manipulator has X/Y orientation for the gizmos. * Initialize the orientation from the spin gizmo if possible. */ { ARegion *region = CTX_wm_region(C); wmGizmoMap *gzmap = region->gizmo_map; wmGizmoGroup *gzgroup_init = WM_gizmomap_group_find(gzmap, "MESH_GGT_spin"); if (gzgroup_init) { GizmoGroupData_SpinInit *ggd_init = gzgroup_init->customdata; copy_m3_m3(ggd->data.orient_mat, ggd_init->data.orient_mat); if (ggd_init->invoke.ortho_axis_active != -1) { copy_v3_v3(ggd->data.orient_axis_relative, ggd_init->gizmos.xyz_view[ggd_init->invoke.ortho_axis_active]->matrix_basis[1]); ggd_init->invoke.ortho_axis_active = -1; } } else { unit_m3(ggd->data.orient_mat); } } #ifdef USE_ANGLE_Z_ORIENT { wmWindow *win = CTX_wm_window(C); View3D *v3d = CTX_wm_view3d(C); ARegion *region = CTX_wm_region(C); const wmEvent *event = win->eventstate; float plane_co[3], plane_no[3]; RNA_property_float_get_array(op->ptr, ggd->data.prop_axis_co, plane_co); RNA_property_float_get_array(op->ptr, ggd->data.prop_axis_no, plane_no); gizmo_mesh_spin_redo_update_orient_axis(ggd, plane_no); /* Use cursor as fallback if it's not set by the 'ortho_axis_active'. */ if (is_zero_v3(ggd->data.orient_axis_relative)) { float cursor_co[3]; const int mval[2] = {event->x - region->winrct.xmin, event->y - region->winrct.ymin}; float plane[4]; plane_from_point_normal_v3(plane, plane_co, plane_no); if (UNLIKELY(!ED_view3d_win_to_3d_on_plane_int(region, plane, mval, false, cursor_co))) { ED_view3d_win_to_3d_int(v3d, region, plane, mval, cursor_co); } sub_v3_v3v3(ggd->data.orient_axis_relative, cursor_co, plane_co); } if (!is_zero_v3(ggd->data.orient_axis_relative)) { normalize_v3(ggd->data.orient_axis_relative); float imat3[3][3]; invert_m3_m3(imat3, ggd->data.orient_mat); mul_m3_v3(imat3, ggd->data.orient_axis_relative); } } #endif gizmo_mesh_spin_redo_update_from_op(ggd); /* Setup property callbacks */ { WM_gizmo_target_property_def_func(ggd->translate_c, "offset", &(const struct wmGizmoPropertyFnParams){ .value_get_fn = gizmo_spin_prop_translate_get, .value_set_fn = gizmo_spin_prop_translate_set, .range_get_fn = NULL, .user_data = NULL, }); WM_gizmo_target_property_def_func(ggd->rotate_view, "offset", &(const struct wmGizmoPropertyFnParams){ .value_get_fn = gizmo_spin_prop_axis_angle_get, .value_set_fn = gizmo_spin_prop_axis_angle_set, .range_get_fn = NULL, .user_data = NULL, }); for (int i = 0; i < 2; i++) { WM_gizmo_target_property_def_func(ggd->rotate_xy[i], "offset", &(const struct wmGizmoPropertyFnParams){ .value_get_fn = gizmo_spin_prop_axis_angle_get, .value_set_fn = gizmo_spin_prop_axis_angle_set, .range_get_fn = NULL, .user_data = NULL, }); WM_gizmo_target_property_def_func(ggd->translate_xy[i], "offset", &(const struct wmGizmoPropertyFnParams){ .value_get_fn = gizmo_spin_prop_depth_get, .value_set_fn = gizmo_spin_prop_depth_set, .range_get_fn = NULL, .user_data = NULL, }); } WM_gizmo_target_property_def_func(ggd->angle_z, "offset", &(const struct wmGizmoPropertyFnParams){ .value_get_fn = gizmo_spin_prop_angle_get, .value_set_fn = gizmo_spin_prop_angle_set, .range_get_fn = NULL, .user_data = NULL, }); } wmWindow *win = CTX_wm_window(C); if (win && win->active) { bScreen *screen = WM_window_get_active_screen(win); if (screen->active_region) { ARegion *region = CTX_wm_region(C); if (screen->active_region == region) { /* Become modal as soon as it's started. */ gizmo_mesh_spin_redo_modal_from_setup(C, gzgroup); } } } } static void gizmo_mesh_spin_redo_draw_prepare(const bContext *UNUSED(C), wmGizmoGroup *gzgroup) { GizmoGroupData_SpinRedo *ggd = gzgroup->customdata; if (ggd->data.op->next) { ggd->data.op = WM_operator_last_redo((bContext *)ggd->data.context); } /* Not essential, just avoids feedback loop where matrices * could shift because of float precision. * Updates in this case are also redundant. */ bool is_modal = false; LISTBASE_FOREACH (wmGizmo *, gz, &gzgroup->gizmos) { if (gz->state & WM_GIZMO_STATE_MODAL) { is_modal = true; break; } } if (!is_modal) { gizmo_mesh_spin_redo_update_from_op(ggd); } RegionView3D *rv3d = ED_view3d_context_rv3d(ggd->data.context); WM_gizmo_set_matrix_rotation_from_z_axis(ggd->translate_c, rv3d->viewinv[2]); { float view_up[3]; project_plane_normalized_v3_v3v3(view_up, ggd->data.orient_mat[2], rv3d->viewinv[2]); if (normalize_v3(view_up) != 0.0f) { WM_gizmo_set_matrix_rotation_from_yz_axis(ggd->rotate_view, view_up, rv3d->viewinv[2]); } else { WM_gizmo_set_matrix_rotation_from_z_axis(ggd->rotate_view, rv3d->viewinv[2]); } } } void MESH_GGT_spin_redo(struct wmGizmoGroupType *gzgt) { gzgt->name = "Mesh Spin Redo"; gzgt->idname = "MESH_GGT_spin_redo"; gzgt->flag = WM_GIZMOGROUPTYPE_TOOL_FALLBACK_KEYMAP | WM_GIZMOGROUPTYPE_3D; gzgt->gzmap_params.spaceid = SPACE_VIEW3D; gzgt->gzmap_params.regionid = RGN_TYPE_WINDOW; gzgt->poll = gizmo_mesh_spin_redo_poll; gzgt->setup = gizmo_mesh_spin_redo_setup; gzgt->draw_prepare = gizmo_mesh_spin_redo_draw_prepare; } /** \} */