path: root/source/blender/editors/mesh/editmesh_add_gizmo.c

/* SPDX-License-Identifier: GPL-2.0-or-later */

/** \file
 * \ingroup edmesh
 *
 * Creation gizmos.
 */

#include "MEM_guardedalloc.h"

#include "BLI_math.h"

#include "DNA_object_types.h"
#include "DNA_scene_types.h"

#include "BKE_context.h"
#include "BKE_editmesh.h"
#include "BKE_scene.h"

#include "ED_gizmo_library.h"
#include "ED_gizmo_utils.h"
#include "ED_mesh.h"
#include "ED_object.h"
#include "ED_screen.h"
#include "ED_undo.h"
#include "ED_view3d.h"

#include "RNA_access.h"
#include "RNA_define.h"

#include "WM_api.h"
#include "WM_types.h"

#include "UI_resources.h"

#include "BLT_translation.h"

#include "mesh_intern.h" /* own include */

/* -------------------------------------------------------------------- */
/** \name Helper Functions
 * \{ */

/**
 * When we place a shape, pick a plane.
 *
 * We may base this choice on context,
 * for now pick the "ground" based on the 3D cursor's dominant plane
 * pointing down relative to the view.
 */
static void calc_initial_placement_point_from_view(bContext *C,
                                                   const float mval[2],
                                                   float r_location[3],
                                                   float r_rotation[3][3])
{

  Scene *scene = CTX_data_scene(C);
  ARegion *region = CTX_wm_region(C);
  RegionView3D *rv3d = region->regiondata;

  bool use_mouse_project = true; /* TODO: make optional */

  float cursor_matrix[4][4];
  float orient_matrix[3][3];
  BKE_scene_cursor_to_mat4(&scene->cursor, cursor_matrix);

  const float dots[3] = {
      dot_v3v3(rv3d->viewinv[2], cursor_matrix[0]),
      dot_v3v3(rv3d->viewinv[2], cursor_matrix[1]),
      dot_v3v3(rv3d->viewinv[2], cursor_matrix[2]),
  };
  const int axis = axis_dominant_v3_single(dots);

  copy_v3_v3(orient_matrix[0], cursor_matrix[(axis + 1) % 3]);
  copy_v3_v3(orient_matrix[1], cursor_matrix[(axis + 2) % 3]);
  copy_v3_v3(orient_matrix[2], cursor_matrix[axis]);

  if (dot_v3v3(rv3d->viewinv[2], orient_matrix[2]) < 0.0f) {
    negate_v3(orient_matrix[2]);
  }
  if (is_negative_m3(orient_matrix)) {
    swap_v3_v3(orient_matrix[0], orient_matrix[1]);
  }

  if (use_mouse_project) {
    float plane[4];
    plane_from_point_normal_v3(plane, cursor_matrix[3], orient_matrix[2]);
    if (ED_view3d_win_to_3d_on_plane(region, plane, mval, true, r_location)) {
      copy_m3_m3(r_rotation, orient_matrix);
      return;
    }
  }

  /* fallback */
  copy_v3_v3(r_location, cursor_matrix[3]);
  copy_m3_m3(r_rotation, orient_matrix);
}

/** \} */

/* -------------------------------------------------------------------- */
/** \name Placement Gizmo
 * \{ */

typedef struct GizmoPlacementGroup {
  struct wmGizmo *cage;
  struct {
    bContext *context;
    wmOperator *op;
    PropertyRNA *prop_matrix;
  } data;
} GizmoPlacementGroup;

/**
 * \warning 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_placement_exec(GizmoPlacementGroup *ggd)
{
  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_placement_update_from_op(GizmoPlacementGroup *ggd)
{
  wmOperator *op = ggd->data.op;
  UNUSED_VARS(op);
  /* For now don't read back from the operator. */
#if 0
  RNA_property_float_get_array(op->ptr, ggd->data.prop_matrix, &ggd->cage->matrix_offset[0][0]);
#endif
}

/* translate callbacks */
static void gizmo_placement_prop_matrix_get(const wmGizmo *gz,
                                            wmGizmoProperty *gz_prop,
                                            void *value_p)
{
  GizmoPlacementGroup *ggd = gz->parent_gzgroup->customdata;
  wmOperator *op = ggd->data.op;
  float *value = value_p;
  BLI_assert(gz_prop->type->array_length == 16);
  UNUSED_VARS_NDEBUG(gz_prop);

  if (value_p != ggd->cage->matrix_offset) {
    mul_m4_m4m4(value_p, ggd->cage->matrix_basis, ggd->cage->matrix_offset);
    RNA_property_float_get_array(op->ptr, ggd->data.prop_matrix, value);
  }
}

static void gizmo_placement_prop_matrix_set(const wmGizmo *gz,
                                            wmGizmoProperty *gz_prop,
                                            const void *value)
{
  GizmoPlacementGroup *ggd = gz->parent_gzgroup->customdata;
  wmOperator *op = ggd->data.op;

  BLI_assert(gz_prop->type->array_length == 16);
  UNUSED_VARS_NDEBUG(gz_prop);

  float mat[4][4];
  mul_m4_m4m4(mat, ggd->cage->matrix_basis, value);

  if (is_negative_m4(mat)) {
    negate_mat3_m4(mat);
  }

  RNA_property_float_set_array(op->ptr, ggd->data.prop_matrix, &mat[0][0]);

  gizmo_placement_exec(ggd);
}

static bool gizmo_mesh_placement_poll(const bContext *C, wmGizmoGroupType *gzgt)
{
  return ED_gizmo_poll_or_unlink_delayed_from_operator(
      C, gzgt, "MESH_OT_primitive_cube_add_gizmo");
}

static void gizmo_mesh_placement_modal_from_setup(const bContext *C, wmGizmoGroup *gzgroup)
{
  GizmoPlacementGroup *ggd = gzgroup->customdata;

  /* Initial size. */
  {
    wmGizmo *gz = ggd->cage;
    zero_m4(gz->matrix_offset);

    /* TODO: support zero scaled matrix in 'GIZMO_GT_cage_3d'. */
    gz->matrix_offset[0][0] = 0.01;
    gz->matrix_offset[1][1] = 0.01;
    gz->matrix_offset[2][2] = 0.01;
    gz->matrix_offset[3][3] = 1.0f;
  }

  /* Start off dragging. */
  {
    wmWindow *win = CTX_wm_window(C);
    ARegion *region = CTX_wm_region(C);
    wmGizmo *gz = ggd->cage;

    {
      float mat3[3][3];
      float location[3];
      calc_initial_placement_point_from_view((bContext *)C,
                                             (float[2]){
                                                 win->eventstate->xy[0] - region->winrct.xmin,
                                                 win->eventstate->xy[1] - region->winrct.ymin,
                                             },
                                             location,
                                             mat3);
      copy_m4_m3(gz->matrix_basis, mat3);
      copy_v3_v3(gz->matrix_basis[3], location);
    }

    if (1) {
      wmGizmoMap *gzmap = gzgroup->parent_gzmap;
      WM_gizmo_modal_set_from_setup(gzmap,
                                    (bContext *)C,
                                    ggd->cage,
                                    ED_GIZMO_CAGE3D_PART_SCALE_MAX_X_MAX_Y_MAX_Z,
                                    win->eventstate);
    }
  }
}

static void gizmo_mesh_placement_setup(const bContext *C, wmGizmoGroup *gzgroup)
{
  wmOperator *op = WM_operator_last_redo(C);

  if (op == NULL || !STREQ(op->type->idname, "MESH_OT_primitive_cube_add_gizmo")) {
    return;
  }

  struct GizmoPlacementGroup *ggd = MEM_callocN(sizeof(GizmoPlacementGroup), __func__);
  gzgroup->customdata = ggd;

  const wmGizmoType *gzt_cage = WM_gizmotype_find("GIZMO_GT_cage_3d", true);

  ggd->cage = WM_gizmo_new_ptr(gzt_cage, gzgroup, NULL);

  UI_GetThemeColor3fv(TH_GIZMO_PRIMARY, ggd->cage->color);

  RNA_enum_set(ggd->cage->ptr,
               "transform",
               ED_GIZMO_CAGE2D_XFORM_FLAG_SCALE | ED_GIZMO_CAGE2D_XFORM_FLAG_TRANSLATE |
                   ED_GIZMO_CAGE2D_XFORM_FLAG_SCALE_SIGNED);

  WM_gizmo_set_flag(ggd->cage, WM_GIZMO_DRAW_VALUE, true);

  ggd->data.context = (bContext *)C;
  ggd->data.op = op;
  ggd->data.prop_matrix = RNA_struct_find_property(op->ptr, "matrix");

  gizmo_mesh_placement_update_from_op(ggd);

  /* Setup property callbacks */
  {
    WM_gizmo_target_property_def_func(ggd->cage,
                                      "matrix",
                                      &(const struct wmGizmoPropertyFnParams){
                                          .value_get_fn = gizmo_placement_prop_matrix_get,
                                          .value_set_fn = gizmo_placement_prop_matrix_set,
                                          .range_get_fn = NULL,
                                          .user_data = NULL,
                                      });
  }

  gizmo_mesh_placement_modal_from_setup(C, gzgroup);
}

static void gizmo_mesh_placement_draw_prepare(const bContext *UNUSED(C), wmGizmoGroup *gzgroup)
{
  GizmoPlacementGroup *ggd = gzgroup->customdata;
  if (ggd->data.op->next) {
    ggd->data.op = WM_operator_last_redo((bContext *)ggd->data.context);
  }
  gizmo_mesh_placement_update_from_op(ggd);
}

static void MESH_GGT_add_bounds(struct wmGizmoGroupType *gzgt)
{
  gzgt->name = "Mesh Add Bounds";
  gzgt->idname = "MESH_GGT_add_bounds";

  gzgt->flag = WM_GIZMOGROUPTYPE_3D;

  gzgt->gzmap_params.spaceid = SPACE_VIEW3D;
  gzgt->gzmap_params.regionid = RGN_TYPE_WINDOW;

  gzgt->poll = gizmo_mesh_placement_poll;
  gzgt->setup = gizmo_mesh_placement_setup;
  gzgt->draw_prepare = gizmo_mesh_placement_draw_prepare;
}

/** \} */

/* -------------------------------------------------------------------- */
/** \name Add Cube Gizmo-Operator
 *
 * For now we use a separate operator to add a cube,
 * we can try to merge then however they are invoked differently
 * and share the same BMesh creation code.
 * \{ */

static int add_primitive_cube_gizmo_exec(bContext *C, wmOperator *op)
{
  Object *obedit = CTX_data_edit_object(C);
  BMEditMesh *em = BKE_editmesh_from_object(obedit);
  float matrix[4][4];

  /* Get the matrix that defines the cube bounds (as set by the gizmo cage). */
  {
    PropertyRNA *prop_matrix = RNA_struct_find_property(op->ptr, "matrix");
    if (RNA_property_is_set(op->ptr, prop_matrix)) {
      RNA_property_float_get_array(op->ptr, prop_matrix, &matrix[0][0]);
      invert_m4_m4(obedit->imat, obedit->obmat);
      mul_m4_m4m4(matrix, obedit->imat, matrix);
    }
    else {
      /* For the first update the widget may not set the matrix. */
      return OPERATOR_FINISHED;
    }
  }

  const bool calc_uvs = RNA_boolean_get(op->ptr, "calc_uvs");

  if (calc_uvs) {
    ED_mesh_uv_ensure(obedit->data, NULL);
  }

  if (!EDBM_op_call_and_selectf(em,
                                op,
                                "verts.out",
                                false,
                                "create_cube matrix=%m4 size=%f calc_uvs=%b",
                                matrix,
                                1.0f,
                                calc_uvs)) {
    return OPERATOR_CANCELLED;
  }

  EDBM_selectmode_flush_ex(em, SCE_SELECT_VERTEX);
  EDBM_update(obedit->data,
              &(const struct EDBMUpdate_Params){
                  .calc_looptri = true,
                  .calc_normals = false,
                  .is_destructive = true,
              });

  return OPERATOR_FINISHED;
}

static int add_primitive_cube_gizmo_invoke(bContext *C,
                                           wmOperator *op,
                                           const wmEvent *UNUSED(event))
{
  View3D *v3d = CTX_wm_view3d(C);

  int ret = add_primitive_cube_gizmo_exec(C, op);
  if (ret & OPERATOR_FINISHED) {
    /* Setup gizmos */
    if (v3d && ((v3d->gizmo_flag & V3D_GIZMO_HIDE) == 0)) {
      wmGizmoGroupType *gzgt = WM_gizmogrouptype_find("MESH_GGT_add_bounds", false);
      if (!WM_gizmo_group_type_ensure_ptr(gzgt)) {
        struct Main *bmain = CTX_data_main(C);
        WM_gizmo_group_type_reinit_ptr(bmain, gzgt);
      }
    }
  }

  return ret;
}

void MESH_OT_primitive_cube_add_gizmo(wmOperatorType *ot)
{
  /* identifiers */
  ot->name = "Add Cube";
  ot->description = "Construct a cube mesh";
  ot->idname = "MESH_OT_primitive_cube_add_gizmo";

  /* api callbacks */
  ot->invoke = add_primitive_cube_gizmo_invoke;
  ot->exec = add_primitive_cube_gizmo_exec;
  ot->poll = ED_operator_editmesh_view3d;

  /* flags */
  ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO;

  ED_object_add_mesh_props(ot);
  ED_object_add_generic_props(ot, true);

  /* hidden props */
  PropertyRNA *prop = RNA_def_float_matrix(
      ot->srna, "matrix", 4, 4, NULL, 0.0f, 0.0f, "Matrix", "", 0.0f, 0.0f);
  RNA_def_property_flag(prop, PROP_HIDDEN | PROP_SKIP_SAVE);

  WM_gizmogrouptype_append(MESH_GGT_add_bounds);
}

/** \} */