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-rw-r--r--scene/3d/baked_lightmap.cpp3
-rw-r--r--scene/3d/cpu_particles.cpp2
-rw-r--r--scene/3d/navigation.cpp9
-rw-r--r--scene/3d/vehicle_body.cpp10
-rw-r--r--scene/3d/voxel_light_baker.cpp26
5 files changed, 0 insertions, 50 deletions
diff --git a/scene/3d/baked_lightmap.cpp b/scene/3d/baked_lightmap.cpp
index 26fd5ed658..2cb59c871c 100644
--- a/scene/3d/baked_lightmap.cpp
+++ b/scene/3d/baked_lightmap.cpp
@@ -374,9 +374,6 @@ BakedLightmap::BakeError BakedLightmap::bake(Node *p_from_node, bool p_create_vi
capture_subdiv--;
css *= 2.0;
}
-
- print_line("bake subdiv: " + itos(bake_subdiv));
- print_line("capture subdiv: " + itos(capture_subdiv));
}
baker.begin_bake(bake_subdiv, bake_bounds);
diff --git a/scene/3d/cpu_particles.cpp b/scene/3d/cpu_particles.cpp
index 8b2000d2e9..af8bfcbe9b 100644
--- a/scene/3d/cpu_particles.cpp
+++ b/scene/3d/cpu_particles.cpp
@@ -921,8 +921,6 @@ void CPUParticles::_update_particle_data_buffer() {
t = un_transform * t;
}
- // print_line(" particle " + itos(i) + ": " + String(r[idx].active ? "[x]" : "[ ]") + "\n\txform " + r[idx].transform + "\n\t" + r[idx].velocity + "\n\tcolor: " + r[idx].color);
-
if (r[idx].active) {
ptr[0] = t.basis.elements[0][0];
ptr[1] = t.basis.elements[0][1];
diff --git a/scene/3d/navigation.cpp b/scene/3d/navigation.cpp
index f5b77d361c..8d84d2408c 100644
--- a/scene/3d/navigation.cpp
+++ b/scene/3d/navigation.cpp
@@ -120,9 +120,7 @@ void Navigation::_navmesh_link(int p_id) {
pending.edge = j;
p.edges.write[j].P = C->get().pending.push_back(pending);
continue;
- //print_line(String()+_get_vertex(ek.a)+" -> "+_get_vertex(ek.b));
}
- //ERR_CONTINUE(C->get().B!=NULL); //wut
C->get().B = &p;
C->get().B_edge = j;
@@ -312,7 +310,6 @@ Vector<Vector3> Navigation::get_simple_path(const Vector3 &p_start, const Vector
if (!begin_poly || !end_poly) {
- //print_line("No Path Path");
return Vector<Vector3>(); //no path
}
@@ -322,7 +319,6 @@ Vector<Vector3> Navigation::get_simple_path(const Vector3 &p_start, const Vector
path.resize(2);
path.write[0] = begin_point;
path.write[1] = end_point;
- //print_line("Direct Path");
return path;
}
@@ -347,7 +343,6 @@ Vector<Vector3> Navigation::get_simple_path(const Vector3 &p_start, const Vector
while (!found_route) {
if (open_list.size() == 0) {
- //print_line("NOU OPEN LIST");
break;
}
//check open list
@@ -581,10 +576,6 @@ Vector3 Navigation::get_closest_point_to_segment(const Vector3 &p_from, const Ve
}
}
- if (closest_navmesh && closest_navmesh->owner) {
- //print_line("navmesh is: "+Object::cast_to<Node>(closest_navmesh->owner)->get_name());
- }
-
return closest_point;
}
diff --git a/scene/3d/vehicle_body.cpp b/scene/3d/vehicle_body.cpp
index 26958930e4..f9d096633c 100644
--- a/scene/3d/vehicle_body.cpp
+++ b/scene/3d/vehicle_body.cpp
@@ -366,22 +366,14 @@ void VehicleBody::_update_wheel(int p_idx, PhysicsDirectBodyState *s) {
const Vector3 &right = wheel.m_raycastInfo.m_wheelAxleWS;
Vector3 fwd = up.cross(right);
fwd = fwd.normalized();
- //up = right.cross(fwd);
- //up.normalize();
//rotate around steering over de wheelAxleWS
real_t steering = wheel.steers ? m_steeringValue : 0.0;
- //print_line(itos(p_idx)+": "+rtos(steering));
Basis steeringMat(up, steering);
Basis rotatingMat(right, wheel.m_rotation);
- /*
- if (p_idx==1)
- print_line("steeringMat " +steeringMat);
- */
-
Basis basis2(
right[0], up[0], fwd[0],
right[1], up[1], fwd[1],
@@ -420,8 +412,6 @@ real_t VehicleBody::_ray_cast(int p_idx, PhysicsDirectBodyState *s) {
wheel.m_raycastInfo.m_groundObject = 0;
if (col) {
- //print_line("WHEEL "+itos(p_idx)+" FROM "+source+" TO: "+target);
- //print_line("WHEEL "+itos(p_idx)+" COLLIDE? "+itos(col));
param = source.distance_to(rr.position) / source.distance_to(target);
depth = raylen * param;
wheel.m_raycastInfo.m_contactNormalWS = rr.normal;
diff --git a/scene/3d/voxel_light_baker.cpp b/scene/3d/voxel_light_baker.cpp
index f3abdc6bbe..e846e1763d 100644
--- a/scene/3d/voxel_light_baker.cpp
+++ b/scene/3d/voxel_light_baker.cpp
@@ -491,8 +491,6 @@ Vector<Color> VoxelLightBaker::_get_bake_texture(Ref<Image> p_image, const Color
p_image = p_image->duplicate();
if (p_image->is_compressed()) {
- print_line("DECOMPRESSING!!!!");
-
p_image->decompress();
}
p_image->convert(Image::FORMAT_RGBA8);
@@ -859,7 +857,6 @@ void VoxelLightBaker::plot_light_directional(const Vector3 &p_direction, const C
int idx = first_leaf;
while (idx >= 0) {
- //print_line("plot idx " + itos(idx));
Light *light = &light_data[idx];
Vector3 to(light->x + 0.5, light->y + 0.5, light->z + 0.5);
@@ -949,7 +946,6 @@ void VoxelLightBaker::plot_light_omni(const Vector3 &p_pos, const Color &p_color
int idx = first_leaf;
while (idx >= 0) {
- //print_line("plot idx " + itos(idx));
Light *light = &light_data[idx];
Vector3 to(light->x + 0.5, light->y + 0.5, light->z + 0.5);
@@ -1079,7 +1075,6 @@ void VoxelLightBaker::plot_light_spot(const Vector3 &p_pos, const Vector3 &p_axi
int idx = first_leaf;
while (idx >= 0) {
- //print_line("plot idx " + itos(idx));
Light *light = &light_data[idx];
Vector3 to(light->x + 0.5, light->y + 0.5, light->z + 0.5);
@@ -1498,12 +1493,8 @@ void VoxelLightBaker::_sample_baked_octree_filtered_and_anisotropic(const Vector
for (int i = 0; i < 6; i++) {
//anisotropic read light
float amount = p_direction.dot(aniso_normal[i]);
- //if (c == 0) {
- // print_line("\t" + itos(n) + " aniso " + itos(i) + " " + rtos(light[cell].accum[i][0]) + " VEC: " + aniso_normal[i]);
- //}
if (amount < 0)
amount = 0;
- //amount = 1;
color[c][n].x += light[cell].accum[i][0] * amount;
color[c][n].y += light[cell].accum[i][1] * amount;
color[c][n].z += light[cell].accum[i][2] * amount;
@@ -1513,8 +1504,6 @@ void VoxelLightBaker::_sample_baked_octree_filtered_and_anisotropic(const Vector
color[c][n].y += cells[cell].emission[1];
color[c][n].z += cells[cell].emission[2];
}
-
- //print_line("\tlev " + itos(c) + " - " + itos(n) + " alpha: " + rtos(cells[test_cell].alpha) + " col: " + color[c][n]);
}
}
@@ -1559,8 +1548,6 @@ void VoxelLightBaker::_sample_baked_octree_filtered_and_anisotropic(const Vector
r_color = color_interp[0].linear_interpolate(color_interp[1], level_filter);
r_alpha = Math::lerp(alpha_interp[0], alpha_interp[1], level_filter);
-
- // print_line("pos: " + p_posf + " level " + rtos(p_level) + " down to " + itos(target_level) + "." + rtos(level_filter) + " color " + r_color + " alpha " + rtos(r_alpha));
}
Vector3 VoxelLightBaker::_voxel_cone_trace(const Vector3 &p_pos, const Vector3 &p_normal, float p_aperture) {
@@ -1577,8 +1564,6 @@ Vector3 VoxelLightBaker::_voxel_cone_trace(const Vector3 &p_pos, const Vector3 &
while (dist < max_distance && alpha < 0.95) {
float diameter = MAX(1.0, 2.0 * p_aperture * dist);
- //print_line("VCT: pos " + (p_pos + dist * p_normal) + " dist " + rtos(dist) + " mipmap " + rtos(log2(diameter)) + " alpha " + rtos(alpha));
- //Plane scolor = textureLod(probe, (pos + dist * direction) * cell_size, log2(diameter) );
_sample_baked_octree_filtered_and_anisotropic(p_pos + dist * p_normal, p_normal, log2(diameter), scolor, salpha);
float a = (1.0 - alpha);
color += scolor * a;
@@ -1601,7 +1586,6 @@ Vector3 VoxelLightBaker::_compute_pixel_light_at_pos(const Vector3 &p_pos, const
Vector3 bitangent = tangent.cross(p_normal).normalized();
Basis normal_xform = Basis(tangent, bitangent, p_normal).transposed();
- // print_line("normal xform: " + normal_xform);
const Vector3 *cone_dirs;
const float *cone_weights;
int cone_dir_count;
@@ -1667,10 +1651,7 @@ Vector3 VoxelLightBaker::_compute_pixel_light_at_pos(const Vector3 &p_pos, const
Vector3 accum;
for (int i = 0; i < cone_dir_count; i++) {
- // if (i > 0)
- // continue;
Vector3 dir = normal_xform.xform(cone_dirs[i]).normalized(); //normal may not completely correct when transformed to cell
- //print_line("direction: " + dir);
accum += _voxel_cone_trace(p_pos, dir, cone_aperture) * cone_weights[i];
}
@@ -1802,7 +1783,6 @@ void VoxelLightBaker::_lightmap_bake_point(uint32_t p_x, LightMap *p_line) {
LightMap *pixel = &p_line[p_x];
if (pixel->pos == Vector3())
return;
- //print_line("pos: " + pixel->pos + " normal " + pixel->normal);
switch (bake_mode) {
case BAKE_MODE_CONE_TRACE: {
pixel->light = _compute_pixel_light_at_pos(pixel->pos, pixel->normal) * energy;
@@ -1810,8 +1790,6 @@ void VoxelLightBaker::_lightmap_bake_point(uint32_t p_x, LightMap *p_line) {
case BAKE_MODE_RAY_TRACE: {
pixel->light = _compute_ray_trace_at_pos(pixel->pos, pixel->normal) * energy;
} break;
- // pixel->light = Vector3(1, 1, 1);
- //}
}
}
@@ -1895,7 +1873,6 @@ Error VoxelLightBaker::make_lightmap(const Transform &p_xform, Ref<Mesh> &p_mesh
if (bake_mode == BAKE_MODE_RAY_TRACE) {
//blur
- print_line("bluring, use pos for separatable copy");
//gauss kernel, 7 step sigma 2
static const float gauss_kernel[4] = { 0.214607, 0.189879, 0.131514, 0.071303 };
//horizontal pass
@@ -1960,8 +1937,6 @@ Error VoxelLightBaker::make_lightmap(const Transform &p_xform, Ref<Mesh> &p_mesh
#pragma omp parallel
#endif
for (int i = 0; i < height; i++) {
-
- //print_line("bake line " + itos(i) + " / " + itos(height));
#ifdef _OPENMP
#pragma omp parallel for schedule(dynamic, 1)
#endif
@@ -2304,7 +2279,6 @@ Ref<MultiMesh> VoxelLightBaker::create_debug_multimesh(DebugMode p_mode) {
mm->set_transform_format(MultiMesh::TRANSFORM_3D);
mm->set_color_format(MultiMesh::COLOR_8BIT);
- print_line("leaf voxels: " + itos(leaf_voxel_count));
mm->set_instance_count(leaf_voxel_count);
Ref<ArrayMesh> mesh;