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a812a1f938
Given how the lambda doesn't capture anything, we can move this to a internally linked function, which prevents any name shadowing.
356 lines
14 KiB
C++
356 lines
14 KiB
C++
// Copyright 2016 Dolphin Emulator Project
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// SPDX-License-Identifier: GPL-2.0-or-later
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#include "VideoCommon/LightingShaderGen.h"
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#include "Common/Assert.h"
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#include "Common/CommonTypes.h"
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#include "VideoCommon/NativeVertexFormat.h"
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#include "VideoCommon/ShaderGenCommon.h"
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#include "VideoCommon/XFMemory.h"
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static void GenerateLightShader(ShaderCode& object, const LightingUidData& uid_data, int index,
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int litchan_index, bool alpha)
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{
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const char* swizzle = alpha ? "a" : "rgb";
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const char* swizzle_components = (alpha) ? "" : "3";
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const auto attnfunc =
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static_cast<AttenuationFunc>((uid_data.attnfunc >> (2 * litchan_index)) & 0x3);
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const auto diffusefunc =
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static_cast<DiffuseFunc>((uid_data.diffusefunc >> (2 * litchan_index)) & 0x3);
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switch (attnfunc)
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{
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case AttenuationFunc::None:
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case AttenuationFunc::Dir:
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object.Write("ldir = normalize(" LIGHT_POS ".xyz - pos.xyz);\n", LIGHT_POS_PARAMS(index));
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object.Write("attn = 1.0;\n");
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object.Write("if (length(ldir) == 0.0)\n\t ldir = _normal;\n");
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break;
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case AttenuationFunc::Spec:
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object.Write("ldir = normalize(" LIGHT_POS ".xyz - pos.xyz);\n", LIGHT_POS_PARAMS(index));
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object.Write("attn = (dot(_normal, ldir) >= 0.0) ? max(0.0, dot(_normal, " LIGHT_DIR
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".xyz)) : 0.0;\n",
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LIGHT_DIR_PARAMS(index));
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object.Write("cosAttn = " LIGHT_COSATT ".xyz;\n", LIGHT_COSATT_PARAMS(index));
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object.Write("distAttn = {}(" LIGHT_DISTATT ".xyz);\n",
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(diffusefunc == DiffuseFunc::None) ? "" : "normalize",
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LIGHT_DISTATT_PARAMS(index));
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object.Write("attn = max(0.0f, dot(cosAttn, float3(1.0, attn, attn*attn))) / dot(distAttn, "
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"float3(1.0, attn, attn*attn));\n");
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break;
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case AttenuationFunc::Spot:
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object.Write("ldir = " LIGHT_POS ".xyz - pos.xyz;\n", LIGHT_POS_PARAMS(index));
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object.Write("dist2 = dot(ldir, ldir);\n"
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"dist = sqrt(dist2);\n"
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"ldir = ldir / dist;\n"
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"attn = max(0.0, dot(ldir, " LIGHT_DIR ".xyz));\n",
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LIGHT_DIR_PARAMS(index));
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// attn*attn may overflow
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object.Write("attn = max(0.0, " LIGHT_COSATT ".x + " LIGHT_COSATT ".y*attn + " LIGHT_COSATT
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".z*attn*attn) / dot(" LIGHT_DISTATT ".xyz, float3(1.0,dist,dist2));\n",
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LIGHT_COSATT_PARAMS(index), LIGHT_COSATT_PARAMS(index), LIGHT_COSATT_PARAMS(index),
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LIGHT_DISTATT_PARAMS(index));
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break;
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}
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switch (diffusefunc)
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{
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case DiffuseFunc::None:
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object.Write("lacc.{} += int{}(round(attn * float{}(" LIGHT_COL ")));\n", swizzle,
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swizzle_components, swizzle_components, LIGHT_COL_PARAMS(index, swizzle));
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break;
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case DiffuseFunc::Sign:
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case DiffuseFunc::Clamp:
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object.Write("lacc.{} += int{}(round(attn * {}dot(ldir, _normal)) * float{}(" LIGHT_COL
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")));\n",
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swizzle, swizzle_components, diffusefunc != DiffuseFunc::Sign ? "max(0.0," : "(",
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swizzle_components, LIGHT_COL_PARAMS(index, swizzle));
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break;
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default:
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ASSERT(false);
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}
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object.Write("\n");
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}
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// vertex shader
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// lights/colors
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// materials name is I_MATERIALS in vs and I_PMATERIALS in ps
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// inColorName is color in vs and colors_ in ps
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// dest is o.colors_ in vs and colors_ in ps
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void GenerateLightingShaderCode(ShaderCode& object, const LightingUidData& uid_data,
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std::string_view in_color_name, std::string_view dest)
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{
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for (u32 j = 0; j < NUM_XF_COLOR_CHANNELS; j++)
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{
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object.Write("{{\n");
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const bool colormatsource = !!(uid_data.matsource & (1 << j));
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if (colormatsource) // from vertex
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object.Write("int4 mat = int4(round({}{} * 255.0));\n", in_color_name, j);
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else // from color
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object.Write("int4 mat = {}[{}];\n", I_MATERIALS, j + 2);
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if ((uid_data.enablelighting & (1 << j)) != 0)
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{
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if ((uid_data.ambsource & (1 << j)) != 0) // from vertex
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object.Write("lacc = int4(round({}{} * 255.0));\n", in_color_name, j);
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else // from color
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object.Write("lacc = {}[{}];\n", I_MATERIALS, j);
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}
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else
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{
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object.Write("lacc = int4(255, 255, 255, 255);\n");
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}
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// check if alpha is different
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const bool alphamatsource = !!(uid_data.matsource & (1 << (j + 2)));
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if (alphamatsource != colormatsource)
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{
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if (alphamatsource) // from vertex
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object.Write("mat.w = int(round({}{}.w * 255.0));\n", in_color_name, j);
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else // from color
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object.Write("mat.w = {}[{}].w;\n", I_MATERIALS, j + 2);
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}
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if ((uid_data.enablelighting & (1 << (j + 2))) != 0)
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{
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if ((uid_data.ambsource & (1 << (j + 2))) != 0) // from vertex
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object.Write("lacc.w = int(round({}{}.w * 255.0));\n", in_color_name, j);
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else // from color
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object.Write("lacc.w = {}[{}].w;\n", I_MATERIALS, j);
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}
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else
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{
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object.Write("lacc.w = 255;\n");
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}
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if ((uid_data.enablelighting & (1 << j)) != 0) // Color lights
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{
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for (int i = 0; i < 8; ++i)
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{
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if ((uid_data.light_mask & (1 << (i + 8 * j))) != 0)
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GenerateLightShader(object, uid_data, i, j, false);
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}
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}
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if ((uid_data.enablelighting & (1 << (j + 2))) != 0) // Alpha lights
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{
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for (int i = 0; i < 8; ++i)
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{
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if ((uid_data.light_mask & (1 << (i + 8 * (j + 2)))) != 0)
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GenerateLightShader(object, uid_data, i, j + 2, true);
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}
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}
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object.Write("lacc = clamp(lacc, 0, 255);\n");
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object.Write("{}{} = float4((mat * (lacc + (lacc >> 7))) >> 8) / 255.0;\n", dest, j);
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object.Write("}}\n");
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}
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}
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void GetLightingShaderUid(LightingUidData& uid_data)
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{
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for (u32 j = 0; j < NUM_XF_COLOR_CHANNELS; j++)
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{
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uid_data.matsource |= static_cast<u32>(xfmem.color[j].matsource.Value()) << j;
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uid_data.matsource |= static_cast<u32>(xfmem.alpha[j].matsource.Value()) << (j + 2);
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uid_data.enablelighting |= xfmem.color[j].enablelighting << j;
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uid_data.enablelighting |= xfmem.alpha[j].enablelighting << (j + 2);
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if ((uid_data.enablelighting & (1 << j)) != 0) // Color lights
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{
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uid_data.ambsource |= static_cast<u32>(xfmem.color[j].ambsource.Value()) << j;
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uid_data.attnfunc |= static_cast<u32>(xfmem.color[j].attnfunc.Value()) << (2 * j);
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uid_data.diffusefunc |= static_cast<u32>(xfmem.color[j].diffusefunc.Value()) << (2 * j);
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uid_data.light_mask |= xfmem.color[j].GetFullLightMask() << (8 * j);
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}
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if ((uid_data.enablelighting & (1 << (j + 2))) != 0) // Alpha lights
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{
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uid_data.ambsource |= static_cast<u32>(xfmem.alpha[j].ambsource.Value()) << (j + 2);
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uid_data.attnfunc |= static_cast<u32>(xfmem.alpha[j].attnfunc.Value()) << (2 * (j + 2));
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uid_data.diffusefunc |= static_cast<u32>(xfmem.alpha[j].diffusefunc.Value()) << (2 * (j + 2));
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uid_data.light_mask |= xfmem.alpha[j].GetFullLightMask() << (8 * (j + 2));
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}
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}
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}
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void GenerateCustomLightingHeaderDetails(ShaderCode* out, u32 enablelighting, u32 light_mask)
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{
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u32 light_count = 0;
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for (u32 j = 0; j < NUM_XF_COLOR_CHANNELS; j++)
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{
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if ((enablelighting & (1 << j)) != 0) // Color lights
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{
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for (int i = 0; i < 8; ++i)
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{
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if ((light_mask & (1 << (i + 8 * j))) != 0)
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{
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light_count++;
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}
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}
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}
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if ((enablelighting & (1 << (j + 2))) != 0) // Alpha lights
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{
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for (int i = 0; i < 8; ++i)
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{
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if ((light_mask & (1 << (i + 8 * (j + 2)))) != 0)
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{
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light_count++;
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}
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}
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}
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}
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if (light_count > 0)
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{
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out->Write("\tCustomShaderLightData[{}] light;\n", light_count);
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}
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else
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{
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// Cheat so shaders compile
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out->Write("\tCustomShaderLightData[1] light;\n", light_count);
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}
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out->Write("\tint light_count;\n");
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}
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static void GenerateLighting(ShaderCode* out, const LightingUidData& uid_data, int index,
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int litchan_index, u32 channel_index, u32 custom_light_index,
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bool alpha)
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{
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const auto attnfunc =
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static_cast<AttenuationFunc>((uid_data.attnfunc >> (2 * litchan_index)) & 0x3);
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const std::string_view light_type = alpha ? "alpha" : "color";
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const std::string name = fmt::format("lights_chan{}_{}", channel_index, light_type);
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out->Write("\t{{\n");
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out->Write("\t\tcustom_data.{}[{}].direction = " LIGHT_DIR ".xyz;\n", name, custom_light_index,
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LIGHT_DIR_PARAMS(index));
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out->Write("\t\tcustom_data.{}[{}].position = " LIGHT_POS ".xyz;\n", name, custom_light_index,
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LIGHT_POS_PARAMS(index));
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out->Write("\t\tcustom_data.{}[{}].cosatt = " LIGHT_COSATT ";\n", name, custom_light_index,
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LIGHT_COSATT_PARAMS(index));
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out->Write("\t\tcustom_data.{}[{}].distatt = " LIGHT_DISTATT ";\n", name, custom_light_index,
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LIGHT_DISTATT_PARAMS(index));
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out->Write("\t\tcustom_data.{}[{}].attenuation_type = {};\n", name, custom_light_index,
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static_cast<u32>(attnfunc));
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if (alpha)
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{
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out->Write("\t\tcustom_data.{}[{}].color = float3(" LIGHT_COL
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") / float3(255.0, 255.0, 255.0);\n",
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name, custom_light_index, LIGHT_COL_PARAMS(index, alpha ? "a" : "rgb"));
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}
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else
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{
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out->Write("\t\tcustom_data.{}[{}].color = " LIGHT_COL " / float3(255.0, 255.0, 255.0);\n",
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name, custom_light_index, LIGHT_COL_PARAMS(index, alpha ? "a" : "rgb"));
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}
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out->Write("\t}}\n");
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}
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void GenerateCustomLightingImplementation(ShaderCode* out, const LightingUidData& uid_data,
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std::string_view in_color_name)
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{
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for (u32 i = 0; i < 8; i++)
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{
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for (u32 channel_index = 0; channel_index < NUM_XF_COLOR_CHANNELS; channel_index++)
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{
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out->Write("\tcustom_data.lights_chan{}_color[{}].direction = float3(0, 0, 0);\n",
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channel_index, i);
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out->Write("\tcustom_data.lights_chan{}_color[{}].position = float3(0, 0, 0);\n",
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channel_index, i);
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out->Write("\tcustom_data.lights_chan{}_color[{}].color = float3(0, 0, 0);\n", channel_index,
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i);
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out->Write("\tcustom_data.lights_chan{}_color[{}].cosatt = float4(0, 0, 0, 0);\n",
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channel_index, i);
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out->Write("\tcustom_data.lights_chan{}_color[{}].distatt = float4(0, 0, 0, 0);\n",
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channel_index, i);
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out->Write("\tcustom_data.lights_chan{}_color[{}].attenuation_type = 0;\n", channel_index, i);
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out->Write("\tcustom_data.lights_chan{}_alpha[{}].direction = float3(0, 0, 0);\n",
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channel_index, i);
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out->Write("\tcustom_data.lights_chan{}_alpha[{}].position = float3(0, 0, 0);\n",
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channel_index, i);
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out->Write("\tcustom_data.lights_chan{}_alpha[{}].color = float3(0, 0, 0);\n", channel_index,
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i);
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out->Write("\tcustom_data.lights_chan{}_alpha[{}].cosatt = float4(0, 0, 0, 0);\n",
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channel_index, i);
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out->Write("\tcustom_data.lights_chan{}_alpha[{}].distatt = float4(0, 0, 0, 0);\n",
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channel_index, i);
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out->Write("\tcustom_data.lights_chan{}_alpha[{}].attenuation_type = 0;\n", channel_index, i);
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}
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}
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for (u32 j = 0; j < NUM_XF_COLOR_CHANNELS; j++)
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{
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const bool colormatsource = !!(uid_data.matsource & (1 << j));
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if (colormatsource) // from vertex
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out->Write("custom_data.base_material[{}] = {}{};\n", j, in_color_name, j);
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else // from color
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out->Write("custom_data.base_material[{}] = {}[{}] / 255.0;\n", j, I_MATERIALS, j + 2);
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if ((uid_data.enablelighting & (1 << j)) != 0)
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{
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if ((uid_data.ambsource & (1 << j)) != 0) // from vertex
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out->Write("custom_data.ambient_lighting[{}] = {}{};\n", j, in_color_name, j);
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else // from color
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out->Write("custom_data.ambient_lighting[{}] = {}[{}] / 255.0;\n", j, I_MATERIALS, j);
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}
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else
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{
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out->Write("custom_data.ambient_lighting[{}] = float4(1, 1, 1, 1);\n", j);
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}
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// check if alpha is different
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const bool alphamatsource = !!(uid_data.matsource & (1 << (j + 2)));
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if (alphamatsource != colormatsource)
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{
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if (alphamatsource) // from vertex
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out->Write("custom_data.base_material[{}].w = {}{}.w;\n", j, in_color_name, j);
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else // from color
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out->Write("custom_data.base_material[{}].w = {}[{}].w / 255.0;\n", j, I_MATERIALS, j + 2);
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}
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if ((uid_data.enablelighting & (1 << (j + 2))) != 0)
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{
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if ((uid_data.ambsource & (1 << (j + 2))) != 0) // from vertex
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out->Write("custom_data.ambient_lighting[{}].w = {}{}.w;\n", j, in_color_name, j);
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else // from color
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out->Write("custom_data.ambient_lighting[{}].w = {}[{}].w / 255.0;\n", j, I_MATERIALS, j);
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}
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else
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{
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out->Write("custom_data.ambient_lighting[{}].w = 1;\n", j);
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}
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u32 light_count = 0;
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if ((uid_data.enablelighting & (1 << j)) != 0) // Color lights
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{
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for (int i = 0; i < 8; ++i)
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{
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if ((uid_data.light_mask & (1 << (i + 8 * j))) != 0)
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{
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GenerateLighting(out, uid_data, i, j, j, light_count, false);
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light_count++;
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}
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}
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}
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out->Write("\tcustom_data.light_chan{}_color_count = {};\n", j, light_count);
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light_count = 0;
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if ((uid_data.enablelighting & (1 << (j + 2))) != 0) // Alpha lights
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{
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for (int i = 0; i < 8; ++i)
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{
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if ((uid_data.light_mask & (1 << (i + 8 * (j + 2)))) != 0)
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{
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GenerateLighting(out, uid_data, i, j + 2, j, light_count, true);
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light_count++;
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}
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}
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}
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out->Write("\tcustom_data.light_chan{}_alpha_count = {};\n", j, light_count);
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}
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}
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