From f4ccba7508fe6fbbbda92df855ad59a63a205b17 Mon Sep 17 00:00:00 2001
From: clayjohn <claynjohn@gmail.com>
Date: Wed, 21 Aug 2024 00:30:59 -0700
Subject: [PATCH] Use correct lightmap coefficients to ensure that the
 directional lightmap mode looks correct

Also remove the metallic option from directional lightmap as it is guaranteed to return negative numbers in many cases
---
 drivers/gles3/shaders/scene.glsl              | 14 +++------
 modules/lightmapper_rd/lightmapper_rd.cpp     | 17 +++++++++--
 modules/lightmapper_rd/lightmapper_rd.h       |  2 +-
 modules/lightmapper_rd/lm_compute.glsl        | 30 ++++++++++++-------
 .../scene_forward_clustered.glsl              | 14 +++------
 .../forward_mobile/scene_forward_mobile.glsl  | 15 +++-------
 6 files changed, 48 insertions(+), 44 deletions(-)

diff --git a/drivers/gles3/shaders/scene.glsl b/drivers/gles3/shaders/scene.glsl
index 04ba98a4205..955f3e02060 100644
--- a/drivers/gles3/shaders/scene.glsl
+++ b/drivers/gles3/shaders/scene.glsl
@@ -1729,16 +1729,10 @@ void main() {
 
 		vec3 n = normalize(lightmap_normal_xform * normal);
 
-		ambient_light += lm_light_l0 * 0.282095f;
-		ambient_light += lm_light_l1n1 * 0.32573 * n.y * lightmap_exposure_normalization;
-		ambient_light += lm_light_l1_0 * 0.32573 * n.z * lightmap_exposure_normalization;
-		ambient_light += lm_light_l1p1 * 0.32573 * n.x * lightmap_exposure_normalization;
-		if (metallic > 0.01) { // Since the more direct bounced light is lost, we can kind of fake it with this trick.
-			vec3 r = reflect(normalize(-vertex), normal);
-			specular_light += lm_light_l1n1 * 0.32573 * r.y * lightmap_exposure_normalization;
-			specular_light += lm_light_l1_0 * 0.32573 * r.z * lightmap_exposure_normalization;
-			specular_light += lm_light_l1p1 * 0.32573 * r.x * lightmap_exposure_normalization;
-		}
+		ambient_light += lm_light_l0 * lightmap_exposure_normalization;
+		ambient_light += lm_light_l1n1 * n.y * lightmap_exposure_normalization;
+		ambient_light += lm_light_l1_0 * n.z * lightmap_exposure_normalization;
+		ambient_light += lm_light_l1p1 * n.x * lightmap_exposure_normalization;
 #else
 		ambient_light += textureLod(lightmap_textures, uvw, 0.0).rgb * lightmap_exposure_normalization;
 #endif
diff --git a/modules/lightmapper_rd/lightmapper_rd.cpp b/modules/lightmapper_rd/lightmapper_rd.cpp
index 33b0b0d0152..41ac6ee0ec8 100644
--- a/modules/lightmapper_rd/lightmapper_rd.cpp
+++ b/modules/lightmapper_rd/lightmapper_rd.cpp
@@ -915,7 +915,7 @@ LightmapperRD::BakeError LightmapperRD::_denoise_oidn(RenderingDevice *p_rd, RID
 	return BAKE_OK;
 }
 
-LightmapperRD::BakeError LightmapperRD::_denoise(RenderingDevice *p_rd, Ref<RDShaderFile> &p_compute_shader, const RID &p_compute_base_uniform_set, PushConstant &p_push_constant, RID p_source_light_tex, RID p_source_normal_tex, RID p_dest_light_tex, float p_denoiser_strength, int p_denoiser_range, const Size2i &p_atlas_size, int p_atlas_slices, bool p_bake_sh, BakeStepFunc p_step_function) {
+LightmapperRD::BakeError LightmapperRD::_denoise(RenderingDevice *p_rd, Ref<RDShaderFile> &p_compute_shader, const RID &p_compute_base_uniform_set, PushConstant &p_push_constant, RID p_source_light_tex, RID p_source_normal_tex, RID p_dest_light_tex, float p_denoiser_strength, int p_denoiser_range, const Size2i &p_atlas_size, int p_atlas_slices, bool p_bake_sh, BakeStepFunc p_step_function, void *p_bake_userdata) {
 	RID denoise_params_buffer = p_rd->uniform_buffer_create(sizeof(DenoiseParams));
 	DenoiseParams denoise_params;
 	denoise_params.spatial_bandwidth = 5.0f;
@@ -978,6 +978,11 @@ LightmapperRD::BakeError LightmapperRD::_denoise(RenderingDevice *p_rd, Ref<RDSh
 				p_rd->sync();
 			}
 		}
+		if (p_step_function) {
+			int percent = (s + 1) * 100 / p_atlas_slices;
+			float p = float(s) / p_atlas_slices * 0.1;
+			p_step_function(0.8 + p, vformat(RTR("Denoising %d%%"), percent), p_bake_userdata, false);
+		}
 	}
 
 	p_rd->free(compute_shader_denoise);
@@ -1581,6 +1586,14 @@ LightmapperRD::BakeError LightmapperRD::bake(BakeQuality p_quality, bool p_use_d
 		Ref<Image> img = Image::create_from_data(atlas_size.width, atlas_size.height, false, Image::FORMAT_RGBAH, s);
 		img->save_exr("res://2_light_primary_" + itos(i) + ".exr", false);
 	}
+
+	if (p_bake_sh) {
+		for (int i = 0; i < atlas_slices * 4; i++) {
+			Vector<uint8_t> s = rd->texture_get_data(light_accum_tex, i);
+			Ref<Image> img = Image::create_from_data(atlas_size.width, atlas_size.height, false, Image::FORMAT_RGBAH, s);
+			img->save_exr("res://2_light_primary_accum_" + itos(i) + ".exr", false);
+		}
+	}
 #endif
 
 	/* SECONDARY (indirect) LIGHT PASS(ES) */
@@ -1803,7 +1816,7 @@ LightmapperRD::BakeError LightmapperRD::bake(BakeQuality p_quality, bool p_use_d
 			} else {
 				// JNLM (built-in).
 				SWAP(light_accum_tex, light_accum_tex2);
-				error = _denoise(rd, compute_shader, compute_base_uniform_set, push_constant, light_accum_tex2, normal_tex, light_accum_tex, p_denoiser_strength, p_denoiser_range, atlas_size, atlas_slices, p_bake_sh, p_step_function);
+				error = _denoise(rd, compute_shader, compute_base_uniform_set, push_constant, light_accum_tex2, normal_tex, light_accum_tex, p_denoiser_strength, p_denoiser_range, atlas_size, atlas_slices, p_bake_sh, p_step_function, p_bake_userdata);
 			}
 			if (unlikely(error != BAKE_OK)) {
 				return error;
diff --git a/modules/lightmapper_rd/lightmapper_rd.h b/modules/lightmapper_rd/lightmapper_rd.h
index 487c44a480a..59c2d52e697 100644
--- a/modules/lightmapper_rd/lightmapper_rd.h
+++ b/modules/lightmapper_rd/lightmapper_rd.h
@@ -272,7 +272,7 @@ class LightmapperRD : public Lightmapper {
 	void _raster_geometry(RenderingDevice *rd, Size2i atlas_size, int atlas_slices, int grid_size, AABB bounds, float p_bias, Vector<int> slice_triangle_count, RID position_tex, RID unocclude_tex, RID normal_tex, RID raster_depth_buffer, RID rasterize_shader, RID raster_base_uniform);
 
 	BakeError _dilate(RenderingDevice *rd, Ref<RDShaderFile> &compute_shader, RID &compute_base_uniform_set, PushConstant &push_constant, RID &source_light_tex, RID &dest_light_tex, const Size2i &atlas_size, int atlas_slices);
-	BakeError _denoise(RenderingDevice *p_rd, Ref<RDShaderFile> &p_compute_shader, const RID &p_compute_base_uniform_set, PushConstant &p_push_constant, RID p_source_light_tex, RID p_source_normal_tex, RID p_dest_light_tex, float p_denoiser_strength, int p_denoiser_range, const Size2i &p_atlas_size, int p_atlas_slices, bool p_bake_sh, BakeStepFunc p_step_function);
+	BakeError _denoise(RenderingDevice *p_rd, Ref<RDShaderFile> &p_compute_shader, const RID &p_compute_base_uniform_set, PushConstant &p_push_constant, RID p_source_light_tex, RID p_source_normal_tex, RID p_dest_light_tex, float p_denoiser_strength, int p_denoiser_range, const Size2i &p_atlas_size, int p_atlas_slices, bool p_bake_sh, BakeStepFunc p_step_function, void *p_bake_userdata);
 
 	Error _store_pfm(RenderingDevice *p_rd, RID p_atlas_tex, int p_index, const Size2i &p_atlas_size, const String &p_name);
 	Ref<Image> _read_pfm(const String &p_name);
diff --git a/modules/lightmapper_rd/lm_compute.glsl b/modules/lightmapper_rd/lm_compute.glsl
index 9424d5a4c11..6320d3afa7d 100644
--- a/modules/lightmapper_rd/lm_compute.glsl
+++ b/modules/lightmapper_rd/lm_compute.glsl
@@ -588,15 +588,20 @@ void main() {
 			light_for_texture += light;
 
 #ifdef USE_SH_LIGHTMAPS
+			// These coefficients include the factored out SH evaluation, diffuse convolution, and final application, as well as the BRDF 1/PI and the spherical monte carlo factor.
+			// LO: 1/(2*sqrtPI) * 1/(2*sqrtPI) * PI * PI * 1/PI = 0.25
+			// L1: sqrt(3/(4*pi)) * sqrt(3/(4*pi)) * (PI*2/3) * (2 * PI) * 1/PI = 1.0
+			// Note: This only works because we aren't scaling, rotating, or combing harmonics, we are just directing applying them in the shader.
+
 			float c[4] = float[](
-					0.282095, //l0
-					0.488603 * light_dir.y, //l1n1
-					0.488603 * light_dir.z, //l1n0
-					0.488603 * light_dir.x //l1p1
+					0.25, //l0
+					light_dir.y, //l1n1
+					light_dir.z, //l1n0
+					light_dir.x //l1p1
 			);
 
 			for (uint j = 0; j < 4; j++) {
-				sh_accum[j].rgb += light * c[j] * 8.0;
+				sh_accum[j].rgb += light * c[j] * bake_params.exposure_normalization;
 			}
 #endif
 		}
@@ -646,15 +651,20 @@ void main() {
 		vec3 light = trace_indirect_light(position, ray_dir, noise);
 
 #ifdef USE_SH_LIGHTMAPS
+		// These coefficients include the factored out SH evaluation, diffuse convolution, and final application, as well as the BRDF 1/PI and the spherical monte carlo factor.
+		// LO: 1/(2*sqrtPI) * 1/(2*sqrtPI) * PI * PI * 1/PI = 0.25
+		// L1: sqrt(3/(4*pi)) * sqrt(3/(4*pi)) * (PI*2/3) * (2 * PI) * 1/PI = 1.0
+		// Note: This only works because we aren't scaling, rotating, or combing harmonics, we are just directing applying them in the shader.
+
 		float c[4] = float[](
-				0.282095, //l0
-				0.488603 * ray_dir.y, //l1n1
-				0.488603 * ray_dir.z, //l1n0
-				0.488603 * ray_dir.x //l1p1
+				0.25, //l0
+				ray_dir.y, //l1n1
+				ray_dir.z, //l1n0
+				ray_dir.x //l1p1
 		);
 
 		for (uint j = 0; j < 4; j++) {
-			sh_accum[j].rgb += light * c[j] * 8.0;
+			sh_accum[j].rgb += light * c[j];
 		}
 #else
 		light_accum += light;
diff --git a/servers/rendering/renderer_rd/shaders/forward_clustered/scene_forward_clustered.glsl b/servers/rendering/renderer_rd/shaders/forward_clustered/scene_forward_clustered.glsl
index cf15497c8c6..203ddd6610c 100644
--- a/servers/rendering/renderer_rd/shaders/forward_clustered/scene_forward_clustered.glsl
+++ b/servers/rendering/renderer_rd/shaders/forward_clustered/scene_forward_clustered.glsl
@@ -1450,16 +1450,10 @@ void fragment_shader(in SceneData scene_data) {
 			vec3 n = normalize(lightmaps.data[ofs].normal_xform * normal);
 			float en = lightmaps.data[ofs].exposure_normalization;
 
-			ambient_light += lm_light_l0 * 0.282095f * en;
-			ambient_light += lm_light_l1n1 * 0.32573 * n.y * en;
-			ambient_light += lm_light_l1_0 * 0.32573 * n.z * en;
-			ambient_light += lm_light_l1p1 * 0.32573 * n.x * en;
-			if (metallic > 0.01) { // since the more direct bounced light is lost, we can kind of fake it with this trick
-				vec3 r = reflect(normalize(-vertex), normal);
-				specular_light += lm_light_l1n1 * 0.32573 * r.y * en;
-				specular_light += lm_light_l1_0 * 0.32573 * r.z * en;
-				specular_light += lm_light_l1p1 * 0.32573 * r.x * en;
-			}
+			ambient_light += lm_light_l0 * en;
+			ambient_light += lm_light_l1n1 * n.y * en;
+			ambient_light += lm_light_l1_0 * n.z * en;
+			ambient_light += lm_light_l1p1 * n.x * en;
 
 		} else {
 			ambient_light += textureLod(sampler2DArray(lightmap_textures[ofs], SAMPLER_LINEAR_CLAMP), uvw, 0.0).rgb * lightmaps.data[ofs].exposure_normalization;
diff --git a/servers/rendering/renderer_rd/shaders/forward_mobile/scene_forward_mobile.glsl b/servers/rendering/renderer_rd/shaders/forward_mobile/scene_forward_mobile.glsl
index e7623e0062e..2a250bfb342 100644
--- a/servers/rendering/renderer_rd/shaders/forward_mobile/scene_forward_mobile.glsl
+++ b/servers/rendering/renderer_rd/shaders/forward_mobile/scene_forward_mobile.glsl
@@ -1210,17 +1210,10 @@ void main() {
 			vec3 n = normalize(lightmaps.data[ofs].normal_xform * normal);
 			float exposure_normalization = lightmaps.data[ofs].exposure_normalization;
 
-			ambient_light += lm_light_l0 * 0.282095f;
-			ambient_light += lm_light_l1n1 * 0.32573 * n.y * exposure_normalization;
-			ambient_light += lm_light_l1_0 * 0.32573 * n.z * exposure_normalization;
-			ambient_light += lm_light_l1p1 * 0.32573 * n.x * exposure_normalization;
-			if (metallic > 0.01) { // since the more direct bounced light is lost, we can kind of fake it with this trick
-				vec3 r = reflect(normalize(-vertex), normal);
-				specular_light += lm_light_l1n1 * 0.32573 * r.y * exposure_normalization;
-				specular_light += lm_light_l1_0 * 0.32573 * r.z * exposure_normalization;
-				specular_light += lm_light_l1p1 * 0.32573 * r.x * exposure_normalization;
-			}
-
+			ambient_light += lm_light_l0 * exposure_normalization;
+			ambient_light += lm_light_l1n1 * n.y * exposure_normalization;
+			ambient_light += lm_light_l1_0 * n.z * exposure_normalization;
+			ambient_light += lm_light_l1p1 * n.x * exposure_normalization;
 		} else {
 			ambient_light += textureLod(sampler2DArray(lightmap_textures[ofs], SAMPLER_LINEAR_CLAMP), uvw, 0.0).rgb * lightmaps.data[ofs].exposure_normalization;
 		}