metaforce/aurora/lib/gfx/gx_shader.cpp

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#include "common.hpp"
#include "../gpu.hpp"
#include "gx.hpp"
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#include <unordered_map>
namespace aurora::gfx::gx {
using namespace fmt::literals;
static logvisor::Module Log("aurora::gfx::gx");
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std::unordered_map<ShaderRef, std::pair<wgpu::ShaderModule, gx::ShaderInfo>> g_gxCachedShaders;
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static std::string color_arg_reg(GX::TevColorArg arg, size_t stageIdx, const STevStage& stage, ShaderInfo& info) {
switch (arg) {
case GX::CC_CPREV:
return "prev.rgb";
case GX::CC_APREV:
return "prev.a";
case GX::CC_C0:
case GX::CC_A0:
case GX::CC_C1:
case GX::CC_A1:
case GX::CC_C2:
case GX::CC_A2:
Log.report(logvisor::Fatal, FMT_STRING("TODO {}"), arg);
unreachable();
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case GX::CC_TEXC: {
if (stage.texMapId == GX::TEXMAP_NULL) {
Log.report(logvisor::Fatal, FMT_STRING("unmapped texture for stage {}"), stageIdx);
unreachable();
} else if (stage.texMapId < GX::TEXMAP0 || stage.texMapId > GX::TEXMAP7) {
Log.report(logvisor::Fatal, FMT_STRING("invalid texture {} for stage {}"), stage.texMapId, stageIdx);
unreachable();
}
info.sampledTextures.set(stage.texMapId);
return fmt::format(FMT_STRING("sampled{}.rgb"), stage.texMapId);
}
case GX::CC_TEXA: {
if (stage.texMapId == GX::TEXMAP_NULL) {
Log.report(logvisor::Fatal, FMT_STRING("unmapped texture for stage {}"), stageIdx);
unreachable();
} else if (stage.texMapId < GX::TEXMAP0 || stage.texMapId > GX::TEXMAP7) {
Log.report(logvisor::Fatal, FMT_STRING("invalid texture {} for stage {}"), stage.texMapId, stageIdx);
unreachable();
}
info.sampledTextures.set(stage.texMapId);
return fmt::format(FMT_STRING("sampled{}.a"), stage.texMapId);
}
case GX::CC_RASC: {
if (stage.channelId == GX::COLOR_NULL) {
Log.report(logvisor::Fatal, FMT_STRING("unmapped color channel for stage {}"), stageIdx);
unreachable();
} else if (stage.channelId < GX::COLOR0A0 || stage.channelId > GX::COLOR1A1) {
Log.report(logvisor::Fatal, FMT_STRING("invalid color channel {} for stage {}"), stage.channelId, stageIdx);
unreachable();
}
u32 idx = stage.channelId - GX::COLOR0A0;
info.sampledColorChannels.set(idx);
return fmt::format(FMT_STRING("rast{}.rgb"), idx);
}
case GX::CC_RASA: {
if (stage.channelId == GX::COLOR_NULL) {
Log.report(logvisor::Fatal, FMT_STRING("unmapped color channel for stage {}"), stageIdx);
unreachable();
} else if (stage.channelId < GX::COLOR0A0 || stage.channelId > GX::COLOR1A1) {
Log.report(logvisor::Fatal, FMT_STRING("invalid color channel {} for stage {}"), stage.channelId, stageIdx);
unreachable();
}
u32 idx = stage.channelId - GX::COLOR0A0;
info.sampledColorChannels.set(idx);
return fmt::format(FMT_STRING("rast{}.a"), idx);
}
case GX::CC_ONE:
return "1.0";
case GX::CC_HALF:
return "0.5";
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case GX::CC_KONST: {
switch (stage.kcSel) {
case GX::TEV_KCSEL_8_8:
return "1.0";
case GX::TEV_KCSEL_7_8:
return "(7.0/8.0)";
case GX::TEV_KCSEL_6_8:
return "(6.0/8.0)";
case GX::TEV_KCSEL_5_8:
return "(5.0/8.0)";
case GX::TEV_KCSEL_4_8:
return "(4.0/8.0)";
case GX::TEV_KCSEL_3_8:
return "(3.0/8.0)";
case GX::TEV_KCSEL_2_8:
return "(2.0/8.0)";
case GX::TEV_KCSEL_1_8:
return "(1.0/8.0)";
case GX::TEV_KCSEL_K0:
info.sampledKcolors.set(0);
return "ubuf.kcolor0.rgb";
case GX::TEV_KCSEL_K1:
info.sampledKcolors.set(1);
return "ubuf.kcolor1.rgb";
case GX::TEV_KCSEL_K2:
info.sampledKcolors.set(2);
return "ubuf.kcolor2.rgb";
case GX::TEV_KCSEL_K3:
info.sampledKcolors.set(3);
return "ubuf.kcolor3.rgb";
case GX::TEV_KCSEL_K0_R:
info.sampledKcolors.set(0);
return "ubuf.kcolor0.r";
case GX::TEV_KCSEL_K1_R:
info.sampledKcolors.set(1);
return "ubuf.kcolor1.r";
case GX::TEV_KCSEL_K2_R:
info.sampledKcolors.set(2);
return "ubuf.kcolor2.r";
case GX::TEV_KCSEL_K3_R:
info.sampledKcolors.set(3);
return "ubuf.kcolor3.r";
case GX::TEV_KCSEL_K0_G:
info.sampledKcolors.set(0);
return "ubuf.kcolor0.g";
case GX::TEV_KCSEL_K1_G:
info.sampledKcolors.set(1);
return "ubuf.kcolor1.g";
case GX::TEV_KCSEL_K2_G:
info.sampledKcolors.set(2);
return "ubuf.kcolor2.g";
case GX::TEV_KCSEL_K3_G:
info.sampledKcolors.set(3);
return "ubuf.kcolor3.g";
case GX::TEV_KCSEL_K0_B:
info.sampledKcolors.set(0);
return "ubuf.kcolor0.b";
case GX::TEV_KCSEL_K1_B:
info.sampledKcolors.set(1);
return "ubuf.kcolor1.b";
case GX::TEV_KCSEL_K2_B:
info.sampledKcolors.set(2);
return "ubuf.kcolor2.b";
case GX::TEV_KCSEL_K3_B:
info.sampledKcolors.set(3);
return "ubuf.kcolor3.b";
case GX::TEV_KCSEL_K0_A:
info.sampledKcolors.set(0);
return "ubuf.kcolor0.a";
case GX::TEV_KCSEL_K1_A:
info.sampledKcolors.set(1);
return "ubuf.kcolor1.a";
case GX::TEV_KCSEL_K2_A:
info.sampledKcolors.set(2);
return "ubuf.kcolor2.a";
case GX::TEV_KCSEL_K3_A:
info.sampledKcolors.set(3);
return "ubuf.kcolor3.a";
default:
Log.report(logvisor::Fatal, FMT_STRING("invalid kcSel {}"), stage.kcSel);
unreachable();
}
}
case GX::CC_ZERO:
return "0.0";
}
}
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static std::string alpha_arg_reg(GX::TevAlphaArg arg, size_t stageIdx, const STevStage& stage, ShaderInfo& info) {
switch (arg) {
case GX::CA_APREV:
return "prev.a";
case GX::CA_A0:
case GX::CA_A1:
case GX::CA_A2:
Log.report(logvisor::Fatal, FMT_STRING("TODO {}"), arg);
unreachable();
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case GX::CA_TEXA: {
if (stage.texMapId == GX::TEXMAP_NULL) {
Log.report(logvisor::Fatal, FMT_STRING("unmapped texture for stage {}"), stageIdx);
unreachable();
} else if (stage.texMapId < GX::TEXMAP0 || stage.texMapId > GX::TEXMAP7) {
Log.report(logvisor::Fatal, FMT_STRING("invalid texture {} for stage {}"), stage.texMapId, stageIdx);
unreachable();
}
info.sampledTextures.set(stage.texMapId);
return fmt::format(FMT_STRING("sampled{}.a"), stage.texMapId);
}
case GX::CA_RASA: {
if (stage.channelId == GX::COLOR_NULL) {
Log.report(logvisor::Fatal, FMT_STRING("unmapped color channel for stage {}"), stageIdx);
unreachable();
} else if (stage.channelId < GX::COLOR0A0 || stage.channelId > GX::COLOR1A1) {
Log.report(logvisor::Fatal, FMT_STRING("invalid color channel {} for stage {}"), stage.channelId, stageIdx);
unreachable();
}
u32 idx = stage.channelId - GX::COLOR0A0;
info.sampledColorChannels.set(idx);
return fmt::format(FMT_STRING("rast{}.a"), idx);
}
case GX::CA_KONST: {
switch (stage.kaSel) {
case GX::TEV_KASEL_8_8:
return "1.0";
case GX::TEV_KASEL_7_8:
return "(7.0/8.0)";
case GX::TEV_KASEL_6_8:
return "(6.0/8.0)";
case GX::TEV_KASEL_5_8:
return "(5.0/8.0)";
case GX::TEV_KASEL_4_8:
return "(4.0/8.0)";
case GX::TEV_KASEL_3_8:
return "(3.0/8.0)";
case GX::TEV_KASEL_2_8:
return "(2.0/8.0)";
case GX::TEV_KASEL_1_8:
return "(1.0/8.0)";
case GX::TEV_KASEL_K0_R:
info.sampledKcolors.set(0);
return "ubuf.kcolor0.r";
case GX::TEV_KASEL_K1_R:
info.sampledKcolors.set(1);
return "ubuf.kcolor1.r";
case GX::TEV_KASEL_K2_R:
info.sampledKcolors.set(2);
return "ubuf.kcolor2.r";
case GX::TEV_KASEL_K3_R:
info.sampledKcolors.set(3);
return "ubuf.kcolor3.r";
case GX::TEV_KASEL_K0_G:
info.sampledKcolors.set(0);
return "ubuf.kcolor0.g";
case GX::TEV_KASEL_K1_G:
info.sampledKcolors.set(1);
return "ubuf.kcolor1.g";
case GX::TEV_KASEL_K2_G:
info.sampledKcolors.set(2);
return "ubuf.kcolor2.g";
case GX::TEV_KASEL_K3_G:
info.sampledKcolors.set(3);
return "ubuf.kcolor3.g";
case GX::TEV_KASEL_K0_B:
info.sampledKcolors.set(0);
return "ubuf.kcolor0.b";
case GX::TEV_KASEL_K1_B:
info.sampledKcolors.set(1);
return "ubuf.kcolor1.b";
case GX::TEV_KASEL_K2_B:
info.sampledKcolors.set(2);
return "ubuf.kcolor2.b";
case GX::TEV_KASEL_K3_B:
info.sampledKcolors.set(3);
return "ubuf.kcolor3.b";
case GX::TEV_KASEL_K0_A:
info.sampledKcolors.set(0);
return "ubuf.kcolor0.a";
case GX::TEV_KASEL_K1_A:
info.sampledKcolors.set(1);
return "ubuf.kcolor1.a";
case GX::TEV_KASEL_K2_A:
info.sampledKcolors.set(2);
return "ubuf.kcolor2.a";
case GX::TEV_KASEL_K3_A:
info.sampledKcolors.set(3);
return "ubuf.kcolor3.a";
default:
Log.report(logvisor::Fatal, FMT_STRING("invalid kaSel {}"), stage.kaSel);
unreachable();
}
}
case GX::CA_ZERO:
return "0.0";
}
}
static std::string_view tev_op(GX::TevOp op) {
switch (op) {
case GX::TEV_ADD:
return "+";
case GX::TEV_SUB:
return "-";
default:
Log.report(logvisor::Fatal, FMT_STRING("TODO {}"), op);
unreachable();
}
}
static std::string_view tev_bias(GX::TevBias bias) {
switch (bias) {
case GX::TB_ZERO:
return " + 0.0";
case GX::TB_ADDHALF:
return " + 0.5";
case GX::TB_SUBHALF:
return " - 0.5";
}
}
static std::string_view tev_scale(GX::TevScale scale) {
switch (scale) {
case GX::CS_SCALE_1:
return " * 1.0";
case GX::CS_SCALE_2:
return " * 2.0";
case GX::CS_SCALE_4:
return " * 4.0";
case GX::CS_DIVIDE_2:
return " / 2.0";
}
}
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std::pair<wgpu::ShaderModule, ShaderInfo> build_shader(const ShaderConfig& config) noexcept {
const auto hash = xxh3_hash(config);
if (g_gxCachedShaders.contains(hash)) {
return g_gxCachedShaders[hash];
}
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Log.report(logvisor::Info, FMT_STRING("Shader config (hash {:x}):"), hash);
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ShaderInfo info{
.uniformSize = 64, // MVP MTX
};
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{
for (int i = 0; i < config.tevStages.size(); ++i) {
const auto& stage = config.tevStages[i];
if (!stage) {
break;
}
Log.report(logvisor::Info, FMT_STRING(" tevStages[{}]:"), i);
Log.report(logvisor::Info, FMT_STRING(" color_a: {}"), stage->colorPass.x0_a);
Log.report(logvisor::Info, FMT_STRING(" color_b: {}"), stage->colorPass.x4_b);
Log.report(logvisor::Info, FMT_STRING(" color_c: {}"), stage->colorPass.x8_c);
Log.report(logvisor::Info, FMT_STRING(" color_d: {}"), stage->colorPass.xc_d);
Log.report(logvisor::Info, FMT_STRING(" alpha_a: {}"), stage->alphaPass.x0_a);
Log.report(logvisor::Info, FMT_STRING(" alpha_b: {}"), stage->alphaPass.x4_b);
Log.report(logvisor::Info, FMT_STRING(" alpha_c: {}"), stage->alphaPass.x8_c);
Log.report(logvisor::Info, FMT_STRING(" alpha_d: {}"), stage->alphaPass.xc_d);
Log.report(logvisor::Info, FMT_STRING(" color_op_clamp: {}"), stage->colorOp.x0_clamp);
Log.report(logvisor::Info, FMT_STRING(" color_op_op: {}"), stage->colorOp.x4_op);
Log.report(logvisor::Info, FMT_STRING(" color_op_bias: {}"), stage->colorOp.x8_bias);
Log.report(logvisor::Info, FMT_STRING(" color_op_scale: {}"), stage->colorOp.xc_scale);
Log.report(logvisor::Info, FMT_STRING(" color_op_reg_id: {}"), stage->colorOp.x10_regId);
Log.report(logvisor::Info, FMT_STRING(" alpha_op_clamp: {}"), stage->alphaOp.x0_clamp);
Log.report(logvisor::Info, FMT_STRING(" alpha_op_op: {}"), stage->alphaOp.x4_op);
Log.report(logvisor::Info, FMT_STRING(" alpha_op_bias: {}"), stage->alphaOp.x8_bias);
Log.report(logvisor::Info, FMT_STRING(" alpha_op_scale: {}"), stage->alphaOp.xc_scale);
Log.report(logvisor::Info, FMT_STRING(" alpha_op_reg_id: {}"), stage->alphaOp.x10_regId);
Log.report(logvisor::Info, FMT_STRING(" kc_sel: {}"), stage->kcSel);
Log.report(logvisor::Info, FMT_STRING(" ka_sel: {}"), stage->kaSel);
Log.report(logvisor::Info, FMT_STRING(" texCoordId: {}"), stage->texCoordId);
Log.report(logvisor::Info, FMT_STRING(" texMapId: {}"), stage->texMapId);
Log.report(logvisor::Info, FMT_STRING(" channelId: {}"), stage->channelId);
}
for (int i = 0; i < config.channelMatSrcs.size(); ++i) {
Log.report(logvisor::Info, FMT_STRING(" channelMatSrcs[{}]: {}"), i, config.channelMatSrcs[i]);
}
Log.report(logvisor::Info, FMT_STRING(" alphaDiscard: {}"), config.alphaDiscard);
Log.report(logvisor::Info, FMT_STRING(" denormalizedVertexAttributes: {}"), config.denormalizedVertexAttributes);
}
std::string uniBufAttrs;
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std::string uniformBindings;
std::string sampBindings;
std::string texBindings;
std::string vtxOutAttrs;
std::string vtxInAttrs;
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std::string vtxXfrAttrsPre;
std::string vtxXfrAttrs;
size_t locIdx = 0;
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if (config.denormalizedVertexAttributes) {
vtxInAttrs += "\n @location(0) in_pos: vec3<f32>";
vtxOutAttrs += "\n @builtin(position) pos: vec4<f32>;";
vtxXfrAttrsPre += "\n out.pos = ubuf.xf * vec4<f32>(in_pos, 1.0);";
if (config.denormalizedHasNrm) {
vtxOutAttrs += fmt::format(FMT_STRING("\n @location({}) nrm: vec3<f32>;"), locIdx);
vtxInAttrs += fmt::format(FMT_STRING("\n , @location({}) in_nrm: vec3<f32>"), ++locIdx);
vtxXfrAttrs += fmt::format(FMT_STRING("\n out.nrm = in_nrm;"));
info.usesNormal = true;
}
} else {
uniformBindings += R"""(
struct Vec3Block {
data: array<vec3<f32>>;
};
struct Vec2Block {
data: array<vec2<f32>>;
};
@group(0) @binding(1)
var<storage, read> v_verts: Vec3Block;
@group(0) @binding(2)
var<storage, read> v_norms: Vec3Block;
@group(0) @binding(3)
var<storage, read> v_uvs: Vec2Block;
@group(0) @binding(4)
var<storage, read> v_packed_uvs: Vec2Block;
)""";
vtxInAttrs +=
"\n @location(0) in_pos_nrm_idx: vec2<i32>"
"\n , @location(1) in_uv_0_4_idx: vec4<i32>"
"\n , @location(2) in_uv_5_7_idx: vec4<i32>";
vtxOutAttrs += "\n @builtin(position) pos: vec4<f32>;";
vtxXfrAttrsPre += "\n out.pos = ubuf.xf * vec4<f32>(v_verts.data[in_pos_nrm_idx[0]], 1.0);";
}
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std::string fragmentFnPre;
std::string fragmentFn;
for (size_t idx = 0; const auto& stage : config.tevStages) {
if (!stage) {
break;
}
{
std::string outReg;
switch (stage->colorOp.x10_regId) {
case GX::TevRegID::TEVPREV:
outReg = "prev";
break;
default:
Log.report(logvisor::Fatal, FMT_STRING("TODO: colorOp outReg {}"), stage->colorOp.x10_regId);
}
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std::string op =
fmt::format(FMT_STRING("({3} {4} ((1.0 - {2}) * {0} + {2} * {1}){5}){6}"),
color_arg_reg(stage->colorPass.x0_a, idx, *stage, info),
color_arg_reg(stage->colorPass.x4_b, idx, *stage, info),
color_arg_reg(stage->colorPass.x8_c, idx, *stage, info),
color_arg_reg(stage->colorPass.xc_d, idx, *stage, info), tev_op(stage->colorOp.x4_op),
tev_bias(stage->colorOp.x8_bias), tev_scale(stage->colorOp.xc_scale));
fragmentFn += fmt::format(FMT_STRING("\n {0} = vec4<f32>({1}, {0}.a);"), outReg, op);
}
{
std::string outReg;
switch (stage->alphaOp.x10_regId) {
case GX::TevRegID::TEVPREV:
outReg = "prev.a";
break;
default:
Log.report(logvisor::Fatal, FMT_STRING("TODO: alphaOp outReg {}"), stage->alphaOp.x10_regId);
}
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std::string op =
fmt::format(FMT_STRING("({3} {4} ((1.0 - {2}) * {0} + {2} * {1}){5}){6}"),
alpha_arg_reg(stage->alphaPass.x0_a, idx, *stage, info),
alpha_arg_reg(stage->alphaPass.x4_b, idx, *stage, info),
alpha_arg_reg(stage->alphaPass.x8_c, idx, *stage, info),
alpha_arg_reg(stage->alphaPass.xc_d, idx, *stage, info), tev_op(stage->alphaOp.x4_op),
tev_bias(stage->alphaOp.x8_bias), tev_scale(stage->alphaOp.xc_scale));
fragmentFn += fmt::format(FMT_STRING("\n {0} = {1};"), outReg, op);
}
idx++;
}
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for (int i = 0; i < info.sampledColorChannels.size(); ++i) {
if (!info.sampledColorChannels.test(i)) {
continue;
}
uniBufAttrs += fmt::format(FMT_STRING("\n cc{0}_amb: vec4<f32>;"), i);
uniBufAttrs += fmt::format(FMT_STRING("\n cc{0}_mat: vec4<f32>;"), i); // TODO not needed for SRC_VTX
info.uniformSize += 32;
if (config.channelMatSrcs[i] == GX::SRC_VTX) {
if (config.denormalizedVertexAttributes) {
if (!info.usesVtxColor) {
vtxOutAttrs += fmt::format(FMT_STRING("\n @location({}) clr: vec4<f32>;"), locIdx);
vtxInAttrs += fmt::format(FMT_STRING("\n , @location({}) in_clr: vec4<f32>"), ++locIdx);
vtxXfrAttrs += fmt::format(FMT_STRING("\n out.clr = in_clr;"));
}
fragmentFnPre += fmt::format(FMT_STRING("\n var rast{} = in.clr; // TODO lighting"), i);
} else {
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Log.report(logvisor::Fatal, FMT_STRING("SRC_VTX unsupported with normalized vertex attributes"));
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}
info.usesVtxColor = true;
} else {
fragmentFnPre += fmt::format(FMT_STRING("\n var rast{0} = ubuf.cc{0}_mat; // TODO lighting"), i);
}
}
for (int i = 0; i < info.sampledKcolors.size(); ++i) {
if (!info.sampledKcolors.test(i)) {
continue;
}
uniBufAttrs += fmt::format(FMT_STRING("\n kcolor{}: vec4<f32>;"), i);
info.uniformSize += 16;
}
for (int i = 0; i < info.sampledTextures.size(); ++i) {
if (!info.sampledTextures.test(i)) {
continue;
}
uniBufAttrs += fmt::format(FMT_STRING("\n tex{}_lod: f32;"), i);
info.uniformSize += 4;
sampBindings += fmt::format(FMT_STRING("\n@group(1) @binding({0})\n"
"var tex{0}_samp: sampler;"),
i);
texBindings += fmt::format(FMT_STRING("\n@group(2) @binding({0})\n"
"var tex{0}: texture_2d<f32>;"),
i);
if (config.denormalizedVertexAttributes) {
vtxOutAttrs += fmt::format(FMT_STRING("\n @location({}) tex{}_uv: vec2<f32>;"), locIdx, i);
vtxInAttrs += fmt::format(FMT_STRING("\n , @location({}) in_tex{}_uv: vec2<f32>"), locIdx + 1, i);
vtxXfrAttrs += fmt::format(FMT_STRING("\n out.tex{0}_uv = in_tex{0}_uv;"), i);
} else {
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vtxOutAttrs += fmt::format(FMT_STRING("\n @location({}) tex{}_uv: vec2<f32>;"), locIdx, i);
if (i < 4) {
if (i == 0) {
vtxXfrAttrs += fmt::format(FMT_STRING("\n out.tex{}_uv = v_packed_uvs.data[in_uv_0_4[{}]];"), i, i);
} else {
vtxXfrAttrs += fmt::format(FMT_STRING("\n out.tex{}_uv = v_uvs.data[in_uv_0_4[{}]];"), i, i);
}
} else {
vtxXfrAttrs += fmt::format(FMT_STRING("\n out.tex{}_uv = v_uvs.data[in_uv_5_7[{}]];"), i, i - 4);
}
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}
fragmentFnPre += fmt::format(
FMT_STRING("\n var sampled{0} = textureSampleBias(tex{0}, tex{0}_samp, in.tex{0}_uv, ubuf.tex{0}_lod);"), i);
locIdx++;
}
const auto shaderSource =
fmt::format(FMT_STRING(R"""(
struct Uniform {{
xf: mat4x4<f32>;{uniBufAttrs}
}};
@group(0) @binding(0)
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var<uniform> ubuf: Uniform;{uniformBindings}{sampBindings}{texBindings}
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struct VertexOutput {{{vtxOutAttrs}
}};
@stage(vertex)
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fn vs_main({vtxInAttrs}
) -> VertexOutput {{
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var out: VertexOutput;{vtxXfrAttrsPre}{vtxXfrAttrs}
return out;
}}
@stage(fragment)
fn fs_main(in: VertexOutput) -> @location(0) vec4<f32> {{
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var prev: vec4<f32>;{fragmentFnPre}{fragmentFn}
return prev;
}}
)"""),
"uniBufAttrs"_a = uniBufAttrs, "sampBindings"_a = sampBindings, "texBindings"_a = texBindings,
"vtxOutAttrs"_a = vtxOutAttrs, "vtxInAttrs"_a = vtxInAttrs, "vtxXfrAttrs"_a = vtxXfrAttrs,
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"fragmentFn"_a = fragmentFn, "fragmentFnPre"_a = fragmentFnPre, "vtxXfrAttrsPre"_a = vtxXfrAttrsPre,
"uniformBindings"_a = uniformBindings);
Log.report(logvisor::Info, FMT_STRING("Generated shader: {}"), shaderSource);
wgpu::ShaderModuleWGSLDescriptor wgslDescriptor{};
wgslDescriptor.source = shaderSource.c_str();
const auto shaderDescriptor = wgpu::ShaderModuleDescriptor{
.nextInChain = &wgslDescriptor,
.label = "GX Shader",
};
auto shader = gpu::g_device.CreateShaderModule(&shaderDescriptor);
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info.uniformSize = align_uniform(info.uniformSize);
auto pair = std::make_pair(std::move(shader), info);
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g_gxCachedShaders.emplace(hash, pair);
return pair;
}
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} // namespace aurora::gfx::gx