diff --git a/scene/3d/mesh_instance.cpp b/scene/3d/mesh_instance.cpp index 5299ec732e1..47eadb66271 100644 --- a/scene/3d/mesh_instance.cpp +++ b/scene/3d/mesh_instance.cpp @@ -664,6 +664,12 @@ void MeshInstance::_notification(int p_what) { _resolve_skeleton_path(); } + if (p_what == NOTIFICATION_TRANSLATION_CHANGED) { + if (mesh.is_valid()) { + mesh->notification(NOTIFICATION_TRANSLATION_CHANGED); + } + } + if (p_what == NOTIFICATION_VISIBILITY_CHANGED) { if (skin_ref.is_valid() && mesh.is_valid() && _is_software_skinning_enabled()) { ERR_FAIL_COND(!skin_ref->get_skeleton_node()); diff --git a/scene/resources/primitive_meshes.cpp b/scene/resources/primitive_meshes.cpp index 2e8cdfb003d..962296319c0 100644 --- a/scene/resources/primitive_meshes.cpp +++ b/scene/resources/primitive_meshes.cpp @@ -1858,24 +1858,25 @@ void TextMesh::_create_mesh_array(Array &p_arr) const { if ((c & 0xfffffc00) == 0xdc00) { // skip trail surrogate. continue; } + if (utf32_char >= 0x20) { + _generate_glyph_mesh_data(utf32_char, font, c, n); + GlyphMeshData &gl_data = cache[utf32_char]; - _generate_glyph_mesh_data(utf32_char, font, c, n); - GlyphMeshData &gl_data = cache[utf32_char]; + p_size += gl_data.triangles.size() * ((has_depth) ? 2 : 1); + i_size += gl_data.triangles.size() * ((has_depth) ? 2 : 1); - p_size += gl_data.triangles.size() * ((has_depth) ? 2 : 1); - i_size += gl_data.triangles.size() * ((has_depth) ? 2 : 1); - - if (has_depth) { - for (int j = 0; j < gl_data.contours.size(); j++) { - p_size += gl_data.contours[j].size() * 4; - i_size += gl_data.contours[j].size() * 6; + if (has_depth) { + for (int j = 0; j < gl_data.contours.size(); j++) { + p_size += gl_data.contours[j].size() * 4; + i_size += gl_data.contours[j].size() * 6; + } } - } - min_p.x = MIN(gl_data.min_p.x + offset_pre.x, min_p.x); - min_p.y = MIN(gl_data.min_p.y + offset_pre.y, min_p.y); - max_p.x = MAX(gl_data.max_p.x + offset_pre.x, max_p.x); - max_p.y = MAX(gl_data.max_p.y + offset_pre.y, max_p.y); + min_p.x = MIN(gl_data.min_p.x + offset_pre.x, min_p.x); + min_p.y = MIN(gl_data.min_p.y + offset_pre.y, min_p.y); + max_p.x = MAX(gl_data.max_p.x + offset_pre.x, max_p.x); + max_p.y = MAX(gl_data.max_p.y + offset_pre.y, max_p.y); + } offset_pre.x += font->get_char_size(c, n).x * pixel_size; } @@ -1912,97 +1913,99 @@ void TextMesh::_create_mesh_array(Array &p_arr) const { if ((c & 0xfffffc00) == 0xdc00) { // skip trail surrogate. continue; } - _generate_glyph_mesh_data(utf32_char, font, c, n); - GlyphMeshData &gl_data = cache[utf32_char]; + if (utf32_char >= 0x20) { + _generate_glyph_mesh_data(utf32_char, font, c, n); + GlyphMeshData &gl_data = cache[utf32_char]; - int64_t ts = gl_data.triangles.size(); - const Vector2 *ts_ptr = gl_data.triangles.ptr(); + int64_t ts = gl_data.triangles.size(); + const Vector2 *ts_ptr = gl_data.triangles.ptr(); - for (int k = 0; k < ts; k += 3) { - // Add front face. - for (int l = 0; l < 3; l++) { - Vector3 point = Vector3(ts_ptr[k + l].x + offset.x, -ts_ptr[k + l].y + offset.y, depth / 2.0); - vertices_ptr[p_idx] = point; - normals_ptr[p_idx] = Vector3(0.0, 0.0, 1.0); - if (has_depth) { - uvs_ptr[p_idx] = Vector2(Math::range_lerp(point.x, min_p.x, max_p.x, real_t(0.0), real_t(1.0)), Math::range_lerp(point.y, -min_p.y, -max_p.y, real_t(0.0), real_t(0.4))); - } else { - uvs_ptr[p_idx] = Vector2(Math::range_lerp(point.x, min_p.x, max_p.x, real_t(0.0), real_t(1.0)), Math::range_lerp(point.y, -min_p.y, -max_p.y, real_t(0.0), real_t(1.0))); - } - tangents_ptr[p_idx * 4 + 0] = 1.0; - tangents_ptr[p_idx * 4 + 1] = 0.0; - tangents_ptr[p_idx * 4 + 2] = 0.0; - tangents_ptr[p_idx * 4 + 3] = 1.0; - indices_ptr[i_idx++] = p_idx; - p_idx++; - } - if (has_depth) { - // Add back face. - for (int l = 2; l >= 0; l--) { - Vector3 point = Vector3(ts_ptr[k + l].x + offset.x, -ts_ptr[k + l].y + offset.y, -depth / 2.0); + for (int k = 0; k < ts; k += 3) { + // Add front face. + for (int l = 0; l < 3; l++) { + Vector3 point = Vector3(ts_ptr[k + l].x + offset.x, -ts_ptr[k + l].y + offset.y, depth / 2.0); vertices_ptr[p_idx] = point; - normals_ptr[p_idx] = Vector3(0.0, 0.0, -1.0); - uvs_ptr[p_idx] = Vector2(Math::range_lerp(point.x, min_p.x, max_p.x, real_t(0.0), real_t(1.0)), Math::range_lerp(point.y, -min_p.y, -max_p.y, real_t(0.4), real_t(0.8))); - tangents_ptr[p_idx * 4 + 0] = -1.0; + normals_ptr[p_idx] = Vector3(0.0, 0.0, 1.0); + if (has_depth) { + uvs_ptr[p_idx] = Vector2(Math::range_lerp(point.x, min_p.x, max_p.x, real_t(0.0), real_t(1.0)), Math::range_lerp(point.y, -min_p.y, -max_p.y, real_t(0.0), real_t(0.4))); + } else { + uvs_ptr[p_idx] = Vector2(Math::range_lerp(point.x, min_p.x, max_p.x, real_t(0.0), real_t(1.0)), Math::range_lerp(point.y, -min_p.y, -max_p.y, real_t(0.0), real_t(1.0))); + } + tangents_ptr[p_idx * 4 + 0] = 1.0; tangents_ptr[p_idx * 4 + 1] = 0.0; tangents_ptr[p_idx * 4 + 2] = 0.0; tangents_ptr[p_idx * 4 + 3] = 1.0; indices_ptr[i_idx++] = p_idx; p_idx++; } + if (has_depth) { + // Add back face. + for (int l = 2; l >= 0; l--) { + Vector3 point = Vector3(ts_ptr[k + l].x + offset.x, -ts_ptr[k + l].y + offset.y, -depth / 2.0); + vertices_ptr[p_idx] = point; + normals_ptr[p_idx] = Vector3(0.0, 0.0, -1.0); + uvs_ptr[p_idx] = Vector2(Math::range_lerp(point.x, min_p.x, max_p.x, real_t(0.0), real_t(1.0)), Math::range_lerp(point.y, -min_p.y, -max_p.y, real_t(0.4), real_t(0.8))); + tangents_ptr[p_idx * 4 + 0] = -1.0; + tangents_ptr[p_idx * 4 + 1] = 0.0; + tangents_ptr[p_idx * 4 + 2] = 0.0; + tangents_ptr[p_idx * 4 + 3] = 1.0; + indices_ptr[i_idx++] = p_idx; + p_idx++; + } + } } - } - // Add sides. - if (has_depth) { - for (int k = 0; k < gl_data.contours.size(); k++) { - int64_t ps = gl_data.contours[k].size(); - const ContourPoint *ps_ptr = gl_data.contours[k].ptr(); - const ContourInfo &ps_info = gl_data.contours_info[k]; - real_t length = 0.0; - for (int l = 0; l < ps; l++) { - int prev = (l == 0) ? (ps - 1) : (l - 1); - int next = (l + 1 == ps) ? 0 : (l + 1); - Vector2 d1; - Vector2 d2 = (ps_ptr[next].point - ps_ptr[l].point).normalized(); - if (ps_ptr[l].sharp) { - d1 = d2; - } else { - d1 = (ps_ptr[l].point - ps_ptr[prev].point).normalized(); - } - real_t seg_len = (ps_ptr[next].point - ps_ptr[l].point).length(); - - Vector3 quad_faces[4] = { - Vector3(ps_ptr[l].point.x + offset.x, -ps_ptr[l].point.y + offset.y, -depth / 2.0), - Vector3(ps_ptr[next].point.x + offset.x, -ps_ptr[next].point.y + offset.y, -depth / 2.0), - Vector3(ps_ptr[l].point.x + offset.x, -ps_ptr[l].point.y + offset.y, depth / 2.0), - Vector3(ps_ptr[next].point.x + offset.x, -ps_ptr[next].point.y + offset.y, depth / 2.0), - }; - for (int m = 0; m < 4; m++) { - const Vector2 &d = ((m % 2) == 0) ? d1 : d2; - real_t u_pos = ((m % 2) == 0) ? length : length + seg_len; - vertices_ptr[p_idx + m] = quad_faces[m]; - normals_ptr[p_idx + m] = Vector3(d.y, d.x, 0.0); - if (m < 2) { - uvs_ptr[p_idx + m] = Vector2(Math::range_lerp(u_pos, 0, ps_info.length, real_t(0.0), real_t(1.0)), (ps_info.ccw) ? 0.8 : 0.9); + // Add sides. + if (has_depth) { + for (int k = 0; k < gl_data.contours.size(); k++) { + int64_t ps = gl_data.contours[k].size(); + const ContourPoint *ps_ptr = gl_data.contours[k].ptr(); + const ContourInfo &ps_info = gl_data.contours_info[k]; + real_t length = 0.0; + for (int l = 0; l < ps; l++) { + int prev = (l == 0) ? (ps - 1) : (l - 1); + int next = (l + 1 == ps) ? 0 : (l + 1); + Vector2 d1; + Vector2 d2 = (ps_ptr[next].point - ps_ptr[l].point).normalized(); + if (ps_ptr[l].sharp) { + d1 = d2; } else { - uvs_ptr[p_idx + m] = Vector2(Math::range_lerp(u_pos, 0, ps_info.length, real_t(0.0), real_t(1.0)), (ps_info.ccw) ? 0.9 : 1.0); + d1 = (ps_ptr[l].point - ps_ptr[prev].point).normalized(); } - tangents_ptr[(p_idx + m) * 4 + 0] = d.x; - tangents_ptr[(p_idx + m) * 4 + 1] = -d.y; - tangents_ptr[(p_idx + m) * 4 + 2] = 0.0; - tangents_ptr[(p_idx + m) * 4 + 3] = 1.0; + real_t seg_len = (ps_ptr[next].point - ps_ptr[l].point).length(); + + Vector3 quad_faces[4] = { + Vector3(ps_ptr[l].point.x + offset.x, -ps_ptr[l].point.y + offset.y, -depth / 2.0), + Vector3(ps_ptr[next].point.x + offset.x, -ps_ptr[next].point.y + offset.y, -depth / 2.0), + Vector3(ps_ptr[l].point.x + offset.x, -ps_ptr[l].point.y + offset.y, depth / 2.0), + Vector3(ps_ptr[next].point.x + offset.x, -ps_ptr[next].point.y + offset.y, depth / 2.0), + }; + for (int m = 0; m < 4; m++) { + const Vector2 &d = ((m % 2) == 0) ? d1 : d2; + real_t u_pos = ((m % 2) == 0) ? length : length + seg_len; + vertices_ptr[p_idx + m] = quad_faces[m]; + normals_ptr[p_idx + m] = Vector3(d.y, d.x, 0.0); + if (m < 2) { + uvs_ptr[p_idx + m] = Vector2(Math::range_lerp(u_pos, 0, ps_info.length, real_t(0.0), real_t(1.0)), (ps_info.ccw) ? 0.8 : 0.9); + } else { + uvs_ptr[p_idx + m] = Vector2(Math::range_lerp(u_pos, 0, ps_info.length, real_t(0.0), real_t(1.0)), (ps_info.ccw) ? 0.9 : 1.0); + } + tangents_ptr[(p_idx + m) * 4 + 0] = d.x; + tangents_ptr[(p_idx + m) * 4 + 1] = -d.y; + tangents_ptr[(p_idx + m) * 4 + 2] = 0.0; + tangents_ptr[(p_idx + m) * 4 + 3] = 1.0; + } + + indices_ptr[i_idx++] = p_idx; + indices_ptr[i_idx++] = p_idx + 1; + indices_ptr[i_idx++] = p_idx + 2; + + indices_ptr[i_idx++] = p_idx + 1; + indices_ptr[i_idx++] = p_idx + 3; + indices_ptr[i_idx++] = p_idx + 2; + + length += seg_len; + p_idx += 4; } - - indices_ptr[i_idx++] = p_idx; - indices_ptr[i_idx++] = p_idx + 1; - indices_ptr[i_idx++] = p_idx + 2; - - indices_ptr[i_idx++] = p_idx + 1; - indices_ptr[i_idx++] = p_idx + 3; - indices_ptr[i_idx++] = p_idx + 2; - - length += seg_len; - p_idx += 4; } } }