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blender-archive/source/blender/editors/space_view3d/view3d_gizmo_camera.c
Sergey Sharybin 3566b81c8b Refactor access to dependency graph 
This change ensures that operators which needs access to evaluated data
first makes sure there is a dependency graph.

Other accesses to the dependency graph made it more explicit about
whether they just need a valid dependency graph pointer or whether they
expect the graph to be already evaluated.

This replaces OPTYPE_USE_EVAL_DATA which is now removed.

Some general rules about usage of accessors:

- Drawing is expected to happen from a fully evaluated dependency graph.
  There is now a function to access it, which will in the future control
  that dependency graph is actually evaluated.

  This check is not yet done because there are some things to be taken
  care about first: for example, post-update hooks might leave scene in
  a state where something is still tagged for update.

- All operators which needs to access evaluated state must use
  CTX_data_ensure_evaluated_depsgraph().

  This function replaces OPTYPE_USE_EVAL_DATA.

  The call is generally to be done in the very beginning of the
  operator, prior other logic (unless this is some comprehensive
  operator which might or might not need access to an evaluated state).

  This call is never to be used from a loop.

  If some utility function requires evaluated state of dependency graph
  the graph is to be passed as an explicit argument. This way it is
  clear that no evaluation happens in a loop or something like this.

- All cases which needs to know dependency graph pointer, but which
  doesn't want to actually evaluate it can use old-style function
  CTX_data_depsgraph_pointer(), assuming that underlying code will
  ensure dependency graph is evaluated prior to accessing it.

- The new functions are replacing OPTYPE_USE_EVAL_DATA, so now it is
  explicit and local about where dependency graph is being ensured.

This commit also contains some fixes of wrong usage of evaluation
functions on original objects. Ideally should be split out, but in
reality with all the APIs being renamed is quite tricky.

Fixes T67454: Blender crash on rapid undo and select

Speculation here is that sometimes undo and selection operators are
sometimes handled in the same event loop iteration, which leaves
non-evaluated dependency graph.

Fixes T67973: Crash on Fix Deforms operator
Fixes T67902: Crash when undo a loop cut

Reviewers: brecht

Reviewed By: brecht

Subscribers: lichtwerk

Maniphest Tasks: T67454

Differential Revision: https://developer.blender.org/D5343
2019-07-31 16:55:15 +02:00

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/*
* 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 spview3d
*/
#include "BLI_blenlib.h"
#include "BLI_math.h"
#include "BLI_utildefines.h"
#include "BKE_camera.h"
#include "BKE_context.h"
#include "DNA_object_types.h"
#include "DNA_camera_types.h"
#include "ED_armature.h"
#include "ED_screen.h"
#include "ED_gizmo_library.h"
#include "UI_resources.h"
#include "MEM_guardedalloc.h"
#include "RNA_access.h"
#include "WM_api.h"
#include "WM_types.h"
#include "WM_message.h"
#include "DEG_depsgraph.h"
#include "view3d_intern.h" /* own include */
/* -------------------------------------------------------------------- */
/** \name Camera Gizmos
* \{ */
struct CameraWidgetGroup {
wmGizmo *dop_dist;
wmGizmo *focal_len;
wmGizmo *ortho_scale;
};
static bool WIDGETGROUP_camera_poll(const bContext *C, wmGizmoGroupType *UNUSED(gzgt))
{
View3D *v3d = CTX_wm_view3d(C);
if (v3d->gizmo_flag & (V3D_GIZMO_HIDE | V3D_GIZMO_HIDE_CONTEXT)) {
return false;
}
if ((v3d->gizmo_show_camera & V3D_GIZMO_SHOW_CAMERA_LENS) == 0 &&
(v3d->gizmo_show_camera & V3D_GIZMO_SHOW_CAMERA_DOF_DIST) == 0) {
return false;
}
ViewLayer *view_layer = CTX_data_view_layer(C);
Base *base = BASACT(view_layer);
if (base && BASE_SELECTABLE(v3d, base)) {
Object *ob = base->object;
if (ob->type == OB_CAMERA) {
Camera *camera = ob->data;
/* TODO: support overrides. */
if (camera->id.lib == NULL) {
return true;
}
}
}
return false;
}
static void WIDGETGROUP_camera_setup(const bContext *C, wmGizmoGroup *gzgroup)
{
ViewLayer *view_layer = CTX_data_view_layer(C);
Object *ob = OBACT(view_layer);
float dir[3];
const wmGizmoType *gzt_arrow = WM_gizmotype_find("GIZMO_GT_arrow_3d", true);
struct CameraWidgetGroup *cagzgroup = MEM_callocN(sizeof(struct CameraWidgetGroup), __func__);
gzgroup->customdata = cagzgroup;
negate_v3_v3(dir, ob->obmat[2]);
/* dof distance */
{
wmGizmo *gz;
gz = cagzgroup->dop_dist = WM_gizmo_new_ptr(gzt_arrow, gzgroup, NULL);
RNA_enum_set(gz->ptr, "draw_style", ED_GIZMO_ARROW_STYLE_CROSS);
WM_gizmo_set_flag(gz, WM_GIZMO_DRAW_HOVER, true);
UI_GetThemeColor3fv(TH_GIZMO_A, gz->color);
UI_GetThemeColor3fv(TH_GIZMO_HI, gz->color_hi);
}
/* focal length
* - logic/calculations are similar to BKE_camera_view_frame_ex, better keep in sync */
{
wmGizmo *gz;
gz = cagzgroup->focal_len = WM_gizmo_new_ptr(gzt_arrow, gzgroup, NULL);
gz->flag |= WM_GIZMO_DRAW_NO_SCALE;
RNA_enum_set(gz->ptr, "draw_style", ED_GIZMO_ARROW_STYLE_CONE);
RNA_enum_set(gz->ptr, "transform", ED_GIZMO_ARROW_XFORM_FLAG_CONSTRAINED);
UI_GetThemeColor3fv(TH_GIZMO_PRIMARY, gz->color);
UI_GetThemeColor3fv(TH_GIZMO_HI, gz->color_hi);
gz = cagzgroup->ortho_scale = WM_gizmo_new_ptr(gzt_arrow, gzgroup, NULL);
gz->flag |= WM_GIZMO_DRAW_NO_SCALE;
RNA_enum_set(gz->ptr, "draw_style", ED_GIZMO_ARROW_STYLE_CONE);
RNA_enum_set(gz->ptr, "transform", ED_GIZMO_ARROW_XFORM_FLAG_CONSTRAINED);
UI_GetThemeColor3fv(TH_GIZMO_PRIMARY, gz->color);
UI_GetThemeColor3fv(TH_GIZMO_HI, gz->color_hi);
}
}
static void WIDGETGROUP_camera_refresh(const bContext *C, wmGizmoGroup *gzgroup)
{
if (!gzgroup->customdata) {
return;
}
struct CameraWidgetGroup *cagzgroup = gzgroup->customdata;
View3D *v3d = CTX_wm_view3d(C);
ViewLayer *view_layer = CTX_data_view_layer(C);
Object *ob = OBACT(view_layer);
Camera *ca = ob->data;
PointerRNA camera_ptr;
float dir[3];
RNA_pointer_create(&ca->id, &RNA_Camera, ca, &camera_ptr);
negate_v3_v3(dir, ob->obmat[2]);
if ((ca->flag & CAM_SHOWLIMITS) && (v3d->gizmo_show_camera & V3D_GIZMO_SHOW_CAMERA_DOF_DIST)) {
WM_gizmo_set_matrix_location(cagzgroup->dop_dist, ob->obmat[3]);
WM_gizmo_set_matrix_rotation_from_yz_axis(cagzgroup->dop_dist, ob->obmat[1], dir);
WM_gizmo_set_scale(cagzgroup->dop_dist, ca->drawsize);
WM_gizmo_set_flag(cagzgroup->dop_dist, WM_GIZMO_HIDDEN, false);
/* need to set property here for undo. TODO would prefer to do this in _init */
WM_gizmo_target_property_def_rna(
cagzgroup->dop_dist, "offset", &camera_ptr, "dof.focus_distance", -1);
}
else {
WM_gizmo_set_flag(cagzgroup->dop_dist, WM_GIZMO_HIDDEN, true);
}
/* TODO - make focal length/ortho ob_scale_inv widget optional */
const Scene *scene = CTX_data_scene(C);
const float aspx = (float)scene->r.xsch * scene->r.xasp;
const float aspy = (float)scene->r.ysch * scene->r.yasp;
const bool is_ortho = (ca->type == CAM_ORTHO);
const int sensor_fit = BKE_camera_sensor_fit(ca->sensor_fit, aspx, aspy);
/* Important to use camera value, not calculated fit since 'AUTO' uses width always. */
const float sensor_size = BKE_camera_sensor_size(ca->sensor_fit, ca->sensor_x, ca->sensor_y);
wmGizmo *widget = is_ortho ? cagzgroup->ortho_scale : cagzgroup->focal_len;
float scale_matrix;
if (true) {
float offset[3];
float aspect[2];
WM_gizmo_set_flag(widget, WM_GIZMO_HIDDEN, false);
WM_gizmo_set_flag(
is_ortho ? cagzgroup->focal_len : cagzgroup->ortho_scale, WM_GIZMO_HIDDEN, true);
/* account for lens shifting */
offset[0] = ((ob->scale[0] > 0.0f) ? -2.0f : 2.0f) * ca->shiftx;
offset[1] = 2.0f * ca->shifty;
offset[2] = 0.0f;
/* get aspect */
aspect[0] = (sensor_fit == CAMERA_SENSOR_FIT_HOR) ? 1.0f : aspx / aspy;
aspect[1] = (sensor_fit == CAMERA_SENSOR_FIT_HOR) ? aspy / aspx : 1.0f;
unit_m4(widget->matrix_basis);
WM_gizmo_set_matrix_location(widget, ob->obmat[3]);
WM_gizmo_set_matrix_rotation_from_yz_axis(widget, ob->obmat[1], dir);
if (is_ortho) {
scale_matrix = ca->ortho_scale * 0.5f;
}
else {
const float ob_scale_inv[3] = {
1.0f / len_v3(ob->obmat[0]),
1.0f / len_v3(ob->obmat[1]),
1.0f / len_v3(ob->obmat[2]),
};
const float ob_scale_uniform_inv = (ob_scale_inv[0] + ob_scale_inv[1] + ob_scale_inv[2]) /
3.0f;
scale_matrix = (ca->drawsize * 0.5f) / ob_scale_uniform_inv;
}
mul_v3_fl(widget->matrix_basis[0], scale_matrix);
mul_v3_fl(widget->matrix_basis[1], scale_matrix);
RNA_float_set_array(widget->ptr, "aspect", aspect);
WM_gizmo_set_matrix_offset_location(widget, offset);
}
/* define & update properties */
{
const char *propname = is_ortho ? "ortho_scale" : "lens";
PropertyRNA *prop = RNA_struct_find_property(&camera_ptr, propname);
const wmGizmoPropertyType *gz_prop_type = WM_gizmotype_target_property_find(widget->type,
"offset");
WM_gizmo_target_property_clear_rna_ptr(widget, gz_prop_type);
float min, max, range;
float step, precision;
/* get property range */
RNA_property_float_ui_range(&camera_ptr, prop, &min, &max, &step, &precision);
range = max - min;
ED_gizmo_arrow3d_set_range_fac(
widget,
is_ortho ?
((range / ca->ortho_scale) * ca->drawsize) :
(scale_matrix * range /
/* Half sensor, intentionally use sensor from camera and not calculated above. */
(0.5f * sensor_size)));
WM_gizmo_target_property_def_rna_ptr(widget, gz_prop_type, &camera_ptr, prop, -1);
}
/* This could be handled more elegently (split into two gizmo groups). */
if ((v3d->gizmo_show_camera & V3D_GIZMO_SHOW_CAMERA_LENS) == 0) {
WM_gizmo_set_flag(cagzgroup->focal_len, WM_GIZMO_HIDDEN, true);
WM_gizmo_set_flag(cagzgroup->ortho_scale, WM_GIZMO_HIDDEN, true);
}
}
static void WIDGETGROUP_camera_message_subscribe(const bContext *C,
wmGizmoGroup *gzgroup,
struct wmMsgBus *mbus)
{
ARegion *ar = CTX_wm_region(C);
ViewLayer *view_layer = CTX_data_view_layer(C);
Object *ob = OBACT(view_layer);
Camera *ca = ob->data;
wmMsgSubscribeValue msg_sub_value_gz_tag_refresh = {
.owner = ar,
.user_data = gzgroup->parent_gzmap,
.notify = WM_gizmo_do_msg_notify_tag_refresh,
};
{
extern PropertyRNA rna_CameraDOFSettings_focus_distance;
extern PropertyRNA rna_Camera_display_size;
extern PropertyRNA rna_Camera_ortho_scale;
extern PropertyRNA rna_Camera_sensor_fit;
extern PropertyRNA rna_Camera_sensor_width;
extern PropertyRNA rna_Camera_sensor_height;
extern PropertyRNA rna_Camera_shift_x;
extern PropertyRNA rna_Camera_shift_y;
extern PropertyRNA rna_Camera_type;
extern PropertyRNA rna_Camera_lens;
const PropertyRNA *props[] = {
&rna_CameraDOFSettings_focus_distance,
&rna_Camera_display_size,
&rna_Camera_ortho_scale,
&rna_Camera_sensor_fit,
&rna_Camera_sensor_width,
&rna_Camera_sensor_height,
&rna_Camera_shift_x,
&rna_Camera_shift_y,
&rna_Camera_type,
&rna_Camera_lens,
};
PointerRNA idptr;
RNA_id_pointer_create(&ca->id, &idptr);
for (int i = 0; i < ARRAY_SIZE(props); i++) {
WM_msg_subscribe_rna(mbus, &idptr, props[i], &msg_sub_value_gz_tag_refresh, __func__);
}
}
/* Subscribe to render settings */
{
WM_msg_subscribe_rna_anon_prop(
mbus, RenderSettings, resolution_x, &msg_sub_value_gz_tag_refresh);
WM_msg_subscribe_rna_anon_prop(
mbus, RenderSettings, resolution_y, &msg_sub_value_gz_tag_refresh);
WM_msg_subscribe_rna_anon_prop(
mbus, RenderSettings, pixel_aspect_x, &msg_sub_value_gz_tag_refresh);
WM_msg_subscribe_rna_anon_prop(
mbus, RenderSettings, pixel_aspect_y, &msg_sub_value_gz_tag_refresh);
}
}
void VIEW3D_GGT_camera(wmGizmoGroupType *gzgt)
{
gzgt->name = "Camera Widgets";
gzgt->idname = "VIEW3D_GGT_camera";
gzgt->flag = (WM_GIZMOGROUPTYPE_PERSISTENT | WM_GIZMOGROUPTYPE_3D | WM_GIZMOGROUPTYPE_DEPTH_3D);
gzgt->poll = WIDGETGROUP_camera_poll;
gzgt->setup = WIDGETGROUP_camera_setup;
gzgt->setup_keymap = WM_gizmogroup_setup_keymap_generic_maybe_drag;
gzgt->refresh = WIDGETGROUP_camera_refresh;
gzgt->message_subscribe = WIDGETGROUP_camera_message_subscribe;
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name CameraView Gizmos
* \{ */
struct CameraViewWidgetGroup {
Scene *scene;
bool is_camera;
wmGizmo *border;
struct {
rctf *edit_border;
rctf view_border;
} state;
};
/* scale callbacks */
static void gizmo_render_border_prop_matrix_get(const wmGizmo *UNUSED(gz),
wmGizmoProperty *gz_prop,
void *value_p)
{
float(*matrix)[4] = value_p;
BLI_assert(gz_prop->type->array_length == 16);
struct CameraViewWidgetGroup *viewgroup = gz_prop->custom_func.user_data;
const rctf *border = viewgroup->state.edit_border;
unit_m4(matrix);
matrix[0][0] = BLI_rctf_size_x(border);
matrix[1][1] = BLI_rctf_size_y(border);
matrix[3][0] = BLI_rctf_cent_x(border);
matrix[3][1] = BLI_rctf_cent_y(border);
}
static void gizmo_render_border_prop_matrix_set(const wmGizmo *UNUSED(gz),
wmGizmoProperty *gz_prop,
const void *value_p)
{
const float(*matrix)[4] = value_p;
struct CameraViewWidgetGroup *viewgroup = gz_prop->custom_func.user_data;
rctf *border = viewgroup->state.edit_border;
BLI_assert(gz_prop->type->array_length == 16);
BLI_rctf_resize(border, len_v3(matrix[0]), len_v3(matrix[1]));
BLI_rctf_recenter(border, matrix[3][0], matrix[3][1]);
BLI_rctf_isect(
&(rctf){
.xmin = 0,
.ymin = 0,
.xmax = 1,
.ymax = 1,
},
border,
border);
if (viewgroup->is_camera) {
DEG_id_tag_update(&viewgroup->scene->id, ID_RECALC_COPY_ON_WRITE);
}
}
static bool WIDGETGROUP_camera_view_poll(const bContext *C, wmGizmoGroupType *UNUSED(gzgt))
{
Scene *scene = CTX_data_scene(C);
/* This is just so the border isn't always in the way,
* stealing mouse clicks from regular usage.
* We could change the rules for when to show. */
{
ViewLayer *view_layer = CTX_data_view_layer(C);
if (scene->camera != OBACT(view_layer)) {
return false;
}
}
View3D *v3d = CTX_wm_view3d(C);
if (v3d->gizmo_flag & (V3D_GIZMO_HIDE | V3D_GIZMO_HIDE_CONTEXT)) {
return false;
}
ARegion *ar = CTX_wm_region(C);
RegionView3D *rv3d = ar->regiondata;
if (rv3d->persp == RV3D_CAMOB) {
if (scene->r.mode & R_BORDER) {
/* TODO: support overrides. */
if (scene->id.lib == NULL) {
return true;
}
}
}
else if (v3d->flag2 & V3D_RENDER_BORDER) {
return true;
}
return false;
}
static void WIDGETGROUP_camera_view_setup(const bContext *UNUSED(C), wmGizmoGroup *gzgroup)
{
struct CameraViewWidgetGroup *viewgroup = MEM_mallocN(sizeof(struct CameraViewWidgetGroup),
__func__);
viewgroup->border = WM_gizmo_new("GIZMO_GT_cage_2d", gzgroup, NULL);
RNA_enum_set(viewgroup->border->ptr,
"transform",
ED_GIZMO_CAGE2D_XFORM_FLAG_TRANSLATE | ED_GIZMO_CAGE2D_XFORM_FLAG_SCALE);
/* Box style is more subtle in this case. */
RNA_enum_set(viewgroup->border->ptr, "draw_style", ED_GIZMO_CAGE2D_STYLE_BOX);
gzgroup->customdata = viewgroup;
}
static void WIDGETGROUP_camera_view_draw_prepare(const bContext *C, wmGizmoGroup *gzgroup)
{
struct CameraViewWidgetGroup *viewgroup = gzgroup->customdata;
ARegion *ar = CTX_wm_region(C);
/* Drawing code should happen with fully evaluated graph. */
struct Depsgraph *depsgraph = CTX_data_expect_evaluated_depsgraph(C);
RegionView3D *rv3d = ar->regiondata;
if (rv3d->persp == RV3D_CAMOB) {
Scene *scene = CTX_data_scene(C);
View3D *v3d = CTX_wm_view3d(C);
ED_view3d_calc_camera_border(
scene, depsgraph, ar, v3d, rv3d, &viewgroup->state.view_border, false);
}
else {
viewgroup->state.view_border = (rctf){
.xmin = 0,
.ymin = 0,
.xmax = ar->winx,
.ymax = ar->winy,
};
}
wmGizmo *gz = viewgroup->border;
unit_m4(gz->matrix_space);
mul_v3_fl(gz->matrix_space[0], BLI_rctf_size_x(&viewgroup->state.view_border));
mul_v3_fl(gz->matrix_space[1], BLI_rctf_size_y(&viewgroup->state.view_border));
gz->matrix_space[3][0] = viewgroup->state.view_border.xmin;
gz->matrix_space[3][1] = viewgroup->state.view_border.ymin;
}
static void WIDGETGROUP_camera_view_refresh(const bContext *C, wmGizmoGroup *gzgroup)
{
struct CameraViewWidgetGroup *viewgroup = gzgroup->customdata;
View3D *v3d = CTX_wm_view3d(C);
ARegion *ar = CTX_wm_region(C);
RegionView3D *rv3d = ar->regiondata;
Scene *scene = CTX_data_scene(C);
viewgroup->scene = scene;
{
wmGizmo *gz = viewgroup->border;
WM_gizmo_set_flag(gz, WM_GIZMO_HIDDEN, false);
RNA_enum_set(viewgroup->border->ptr,
"transform",
ED_GIZMO_CAGE2D_XFORM_FLAG_TRANSLATE | ED_GIZMO_CAGE2D_XFORM_FLAG_SCALE);
if (rv3d->persp == RV3D_CAMOB) {
viewgroup->state.edit_border = &scene->r.border;
viewgroup->is_camera = true;
}
else {
viewgroup->state.edit_border = &v3d->render_border;
viewgroup->is_camera = false;
}
WM_gizmo_target_property_def_func(gz,
"matrix",
&(const struct wmGizmoPropertyFnParams){
.value_get_fn = gizmo_render_border_prop_matrix_get,
.value_set_fn = gizmo_render_border_prop_matrix_set,
.range_get_fn = NULL,
.user_data = viewgroup,
});
}
}
void VIEW3D_GGT_camera_view(wmGizmoGroupType *gzgt)
{
gzgt->name = "Camera View Widgets";
gzgt->idname = "VIEW3D_GGT_camera_view";
gzgt->flag = (WM_GIZMOGROUPTYPE_PERSISTENT | WM_GIZMOGROUPTYPE_SCALE);
gzgt->poll = WIDGETGROUP_camera_view_poll;
gzgt->setup = WIDGETGROUP_camera_view_setup;
gzgt->draw_prepare = WIDGETGROUP_camera_view_draw_prepare;
gzgt->refresh = WIDGETGROUP_camera_view_refresh;
}
/** \} */
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