Merge pull request #10672 from Pokechu22/xf-invtxspec

Show panic alerts if the CP configuration doesn't match the XF configuration
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Pokechu22 2022-05-19 13:13:53 -07:00 committed by GitHub
commit 2aa0ae097b
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GPG Key ID: 4AEE18F83AFDEB23
13 changed files with 170 additions and 81 deletions

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@ -136,7 +136,7 @@ void DolphinAnalytics::ReportGameStart()
}
// Keep in sync with enum class GameQuirk definition.
constexpr std::array<const char*, 24> GAME_QUIRKS_NAMES{
constexpr std::array<const char*, 28> GAME_QUIRKS_NAMES{
"icache-matters",
"directly-reads-wiimote-input",
"uses-DVDLowStopLaser",
@ -161,6 +161,10 @@ constexpr std::array<const char*, 24> GAME_QUIRKS_NAMES{
"sets-xf-clipdisable-bit-0",
"sets-xf-clipdisable-bit-1",
"sets-xf-clipdisable-bit-2",
"mismatched-gpu-colors-between-cp-and-xf",
"mismatched-gpu-normals-between-cp-and-xf",
"mismatched-gpu-tex-coords-between-cp-and-xf",
"mismatched-gpu-matrix-indices-between-cp-and-xf",
};
static_assert(GAME_QUIRKS_NAMES.size() == static_cast<u32>(GameQuirk::COUNT),
"Game quirks names and enum definition are out of sync.");

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@ -81,6 +81,17 @@ enum class GameQuirk
SETS_XF_CLIPDISABLE_BIT_1,
SETS_XF_CLIPDISABLE_BIT_2,
// Similar to the XF-BP mismatch, CP and XF might be configured with different vertex formats.
// Real hardware seems to hang in this case, so games probably don't do this, but it would
// be good to know if anything does it.
MISMATCHED_GPU_COLORS_BETWEEN_CP_AND_XF,
MISMATCHED_GPU_NORMALS_BETWEEN_CP_AND_XF,
MISMATCHED_GPU_TEX_COORDS_BETWEEN_CP_AND_XF,
// Both CP and XF have normally-identical matrix index information. We currently always
// use the CP one in the hardware renderers and the XF one in the software renderer,
// but testing is needed to find out which of these is actually used for what.
MISMATCHED_GPU_MATRIX_INDICES_BETWEEN_CP_AND_XF,
COUNT,
};

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@ -677,10 +677,9 @@ public:
}
process_component(vtx_desc.low.Position, vtx_attr.g0.PosFormat,
vtx_attr.g0.PosElements == CoordComponentCount::XY ? 2 : 3);
// TODO: Is this calculation correct?
const u32 normal_component_count =
vtx_desc.low.Normal == VertexComponentFormat::Direct ? 3 : 1;
const u32 normal_elements = vtx_attr.g0.NormalElements == NormalComponentCount::NBT ? 3 : 1;
const u32 normal_elements = vtx_attr.g0.NormalElements == NormalComponentCount::NTB ? 3 : 1;
process_component(vtx_desc.low.Normal, vtx_attr.g0.NormalFormat,
normal_component_count * normal_elements,
vtx_attr.g0.NormalIndex3 ? normal_elements : 1);

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@ -106,20 +106,6 @@ void SWVertexLoader::DrawCurrentBatch(u32 base_index, u32 num_indices, u32 base_
void SWVertexLoader::SetFormat()
{
// matrix index from xf regs or cp memory?
if (xfmem.MatrixIndexA.PosNormalMtxIdx != g_main_cp_state.matrix_index_a.PosNormalMtxIdx ||
xfmem.MatrixIndexA.Tex0MtxIdx != g_main_cp_state.matrix_index_a.Tex0MtxIdx ||
xfmem.MatrixIndexA.Tex1MtxIdx != g_main_cp_state.matrix_index_a.Tex1MtxIdx ||
xfmem.MatrixIndexA.Tex2MtxIdx != g_main_cp_state.matrix_index_a.Tex2MtxIdx ||
xfmem.MatrixIndexA.Tex3MtxIdx != g_main_cp_state.matrix_index_a.Tex3MtxIdx ||
xfmem.MatrixIndexB.Tex4MtxIdx != g_main_cp_state.matrix_index_b.Tex4MtxIdx ||
xfmem.MatrixIndexB.Tex5MtxIdx != g_main_cp_state.matrix_index_b.Tex5MtxIdx ||
xfmem.MatrixIndexB.Tex6MtxIdx != g_main_cp_state.matrix_index_b.Tex6MtxIdx ||
xfmem.MatrixIndexB.Tex7MtxIdx != g_main_cp_state.matrix_index_b.Tex7MtxIdx)
{
ERROR_LOG_FMT(VIDEO, "Matrix indices don't match");
}
m_vertex.posMtx = xfmem.MatrixIndexA.PosNormalMtxIdx;
m_vertex.texMtx[0] = xfmem.MatrixIndexA.Tex0MtxIdx;
m_vertex.texMtx[1] = xfmem.MatrixIndexA.Tex1MtxIdx;

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@ -162,12 +162,12 @@ struct fmt::formatter<CoordComponentCount> : EnumFormatter<CoordComponentCount::
enum class NormalComponentCount
{
N = 0,
NBT = 1,
NTB = 1,
};
template <>
struct fmt::formatter<NormalComponentCount> : EnumFormatter<NormalComponentCount::NBT>
struct fmt::formatter<NormalComponentCount> : EnumFormatter<NormalComponentCount::NTB>
{
constexpr formatter() : EnumFormatter({"1 (n)", "3 (n, b, t)"}) {}
constexpr formatter() : EnumFormatter({"1 (normal)", "3 (normal, tangent, binormal)"}) {}
};
enum class ColorComponentCount
@ -348,8 +348,9 @@ struct fmt::formatter<UVAT_group0>
{
static constexpr std::array<const char*, 2> byte_dequant = {
"shift does not apply to u8/s8 components", "shift applies to u8/s8 components"};
static constexpr std::array<const char*, 2> normalindex3 = {"single index per normal",
"triple-index per nine-normal"};
static constexpr std::array<const char*, 2> normalindex3 = {
"single index shared by normal, tangent, and binormal",
"three indices, one each for normal, tangent, and binormal"};
return fmt::format_to(ctx.out(),
"Position elements: {}\n"

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@ -129,7 +129,7 @@ void VertexLoader::CompileVertexTranslator()
}
WriteCall(pFunc);
for (int i = 0; i < (m_VtxAttr.g0.NormalElements == NormalComponentCount::NBT ? 3 : 1); i++)
for (int i = 0; i < (m_VtxAttr.g0.NormalElements == NormalComponentCount::NTB ? 3 : 1); i++)
{
m_native_vtx_decl.normals[i].components = 3;
m_native_vtx_decl.normals[i].enable = true;

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@ -472,7 +472,7 @@ void VertexLoaderARM64::GenerateVertexLoader()
{
static const u8 map[8] = {7, 6, 15, 14};
const u8 scaling_exponent = map[u32(m_VtxAttr.g0.NormalFormat.Value())];
const int limit = m_VtxAttr.g0.NormalElements == NormalComponentCount::NBT ? 3 : 1;
const int limit = m_VtxAttr.g0.NormalElements == NormalComponentCount::NTB ? 3 : 1;
s32 offset = -1;
for (int i = 0; i < limit; i++)

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@ -152,7 +152,7 @@ u32 VertexLoaderBase::GetVertexComponents(const TVtxDesc& vtx_desc, const VAT& v
if (vtx_desc.low.Normal != VertexComponentFormat::NotPresent)
{
components |= VB_HAS_NORMAL;
if (vtx_attr.g0.NormalElements == NormalComponentCount::NBT)
if (vtx_attr.g0.NormalElements == NormalComponentCount::NTB)
components |= VB_HAS_TANGENT | VB_HAS_BINORMAL;
}
for (u32 i = 0; i < vtx_desc.low.Color.Size(); i++)

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@ -16,6 +16,7 @@
#include "Common/EnumMap.h"
#include "Common/Logging/Log.h"
#include "Core/DolphinAnalytics.h"
#include "Core/HW/Memmap.h"
#include "VideoCommon/BPMemory.h"
@ -28,6 +29,7 @@
#include "VideoCommon/VertexLoaderBase.h"
#include "VideoCommon/VertexManagerBase.h"
#include "VideoCommon/VertexShaderManager.h"
#include "VideoCommon/XFMemory.h"
namespace VertexLoaderManager
{
@ -249,6 +251,90 @@ static VertexLoaderBase* RefreshLoader(int vtx_attr_group, bool preprocess = fal
return loader;
}
static void CheckCPConfiguration(int vtx_attr_group)
{
// Validate that the XF input configuration matches the CP configuration
u32 num_cp_colors = std::count_if(
g_main_cp_state.vtx_desc.low.Color.begin(), g_main_cp_state.vtx_desc.low.Color.end(),
[](auto format) { return format != VertexComponentFormat::NotPresent; });
u32 num_cp_tex_coords = std::count_if(
g_main_cp_state.vtx_desc.high.TexCoord.begin(), g_main_cp_state.vtx_desc.high.TexCoord.end(),
[](auto format) { return format != VertexComponentFormat::NotPresent; });
u32 num_cp_normals;
if (g_main_cp_state.vtx_desc.low.Normal == VertexComponentFormat::NotPresent)
num_cp_normals = 0;
else if (g_main_cp_state.vtx_attr[vtx_attr_group].g0.NormalElements == NormalComponentCount::NTB)
num_cp_normals = 3;
else
num_cp_normals = 1;
std::optional<u32> num_xf_normals;
switch (xfmem.invtxspec.numnormals)
{
case NormalCount::None:
num_xf_normals = 0;
break;
case NormalCount::Normal:
num_xf_normals = 1;
break;
case NormalCount::NormalTangentBinormal:
num_xf_normals = 3;
break;
default:
PanicAlertFmt("xfmem.invtxspec.numnormals is invalid: {}", xfmem.invtxspec.numnormals);
break;
}
if (num_cp_colors != xfmem.invtxspec.numcolors || num_cp_normals != num_xf_normals ||
num_cp_tex_coords != xfmem.invtxspec.numtextures)
{
PanicAlertFmt("Mismatched configuration between CP and XF stages - {}/{} colors, {}/{} "
"normals, {}/{} texture coordinates. Please report on the issue tracker.\n\n"
"VCD: {:08x} {:08x}\nVAT {}: {:08x} {:08x} {:08x}\nXF vertex spec: {:08x}",
num_cp_colors, xfmem.invtxspec.numcolors, num_cp_normals,
num_xf_normals.has_value() ? fmt::to_string(num_xf_normals.value()) : "invalid",
num_cp_tex_coords, xfmem.invtxspec.numtextures, g_main_cp_state.vtx_desc.low.Hex,
g_main_cp_state.vtx_desc.high.Hex, vtx_attr_group,
g_main_cp_state.vtx_attr[vtx_attr_group].g0.Hex,
g_main_cp_state.vtx_attr[vtx_attr_group].g1.Hex,
g_main_cp_state.vtx_attr[vtx_attr_group].g2.Hex, xfmem.invtxspec.hex);
// Analytics reporting so we can discover which games have this problem, that way when we
// eventually simulate the behavior we have test cases for it.
if (num_cp_colors != xfmem.invtxspec.numcolors)
{
DolphinAnalytics::Instance().ReportGameQuirk(
GameQuirk::MISMATCHED_GPU_COLORS_BETWEEN_CP_AND_XF);
}
if (num_cp_normals != num_xf_normals)
{
DolphinAnalytics::Instance().ReportGameQuirk(
GameQuirk::MISMATCHED_GPU_NORMALS_BETWEEN_CP_AND_XF);
}
if (num_cp_tex_coords != xfmem.invtxspec.numtextures)
{
DolphinAnalytics::Instance().ReportGameQuirk(
GameQuirk::MISMATCHED_GPU_TEX_COORDS_BETWEEN_CP_AND_XF);
}
// Don't bail out, though; we can still render something successfully
// (real hardware seems to hang in this case, though)
}
if (g_main_cp_state.matrix_index_a.Hex != xfmem.MatrixIndexA.Hex ||
g_main_cp_state.matrix_index_b.Hex != xfmem.MatrixIndexB.Hex)
{
PanicAlertFmt("Mismatched matrix index configuration between CP and XF stages - "
"index A: {:08x}/{:08x}, index B {:08x}/{:08x}. "
"Please report on the issue tracker.",
g_main_cp_state.matrix_index_a.Hex, xfmem.MatrixIndexA.Hex,
g_main_cp_state.matrix_index_b.Hex, xfmem.MatrixIndexB.Hex);
DolphinAnalytics::Instance().ReportGameQuirk(
GameQuirk::MISMATCHED_GPU_MATRIX_INDICES_BETWEEN_CP_AND_XF);
}
}
int RunVertices(int vtx_attr_group, OpcodeDecoder::Primitive primitive, int count, DataReader src,
bool is_preprocess)
{
@ -265,6 +351,8 @@ int RunVertices(int vtx_attr_group, OpcodeDecoder::Primitive primitive, int coun
if (is_preprocess)
return size;
CheckCPConfiguration(vtx_attr_group);
// If the native vertex format changed, force a flush.
if (loader->m_native_vertex_format != s_current_vtx_fmt ||
loader->m_native_components != g_current_components)

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@ -461,7 +461,7 @@ void VertexLoaderX64::GenerateVertexLoader()
{
static const u8 map[8] = {7, 6, 15, 14};
const u8 scaling_exponent = map[u32(m_VtxAttr.g0.NormalFormat.Value())];
const int limit = m_VtxAttr.g0.NormalElements == NormalComponentCount::NBT ? 3 : 1;
const int limit = m_VtxAttr.g0.NormalElements == NormalComponentCount::NTB ? 3 : 1;
for (int i = 0; i < limit; i++)
{

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@ -123,7 +123,7 @@ struct Set
using Common::EnumMap;
using Formats = EnumMap<Set, ComponentFormat::Float>;
using Elements = EnumMap<Formats, NormalComponentCount::NBT>;
using Elements = EnumMap<Formats, NormalComponentCount::NTB>;
using Indices = std::array<Elements, 2>;
using Types = EnumMap<Indices, VertexComponentFormat::Index16>;
@ -140,11 +140,11 @@ constexpr Types InitializeTable()
table[VCF::Direct][false][NCC::N][FMT::UShort] = Normal_Direct<u16, 1>();
table[VCF::Direct][false][NCC::N][FMT::Short] = Normal_Direct<s16, 1>();
table[VCF::Direct][false][NCC::N][FMT::Float] = Normal_Direct<float, 1>();
table[VCF::Direct][false][NCC::NBT][FMT::UByte] = Normal_Direct<u8, 3>();
table[VCF::Direct][false][NCC::NBT][FMT::Byte] = Normal_Direct<s8, 3>();
table[VCF::Direct][false][NCC::NBT][FMT::UShort] = Normal_Direct<u16, 3>();
table[VCF::Direct][false][NCC::NBT][FMT::Short] = Normal_Direct<s16, 3>();
table[VCF::Direct][false][NCC::NBT][FMT::Float] = Normal_Direct<float, 3>();
table[VCF::Direct][false][NCC::NTB][FMT::UByte] = Normal_Direct<u8, 3>();
table[VCF::Direct][false][NCC::NTB][FMT::Byte] = Normal_Direct<s8, 3>();
table[VCF::Direct][false][NCC::NTB][FMT::UShort] = Normal_Direct<u16, 3>();
table[VCF::Direct][false][NCC::NTB][FMT::Short] = Normal_Direct<s16, 3>();
table[VCF::Direct][false][NCC::NTB][FMT::Float] = Normal_Direct<float, 3>();
// Same as above, since there are no indices
table[VCF::Direct][true][NCC::N][FMT::UByte] = Normal_Direct<u8, 1>();
@ -152,57 +152,57 @@ constexpr Types InitializeTable()
table[VCF::Direct][true][NCC::N][FMT::UShort] = Normal_Direct<u16, 1>();
table[VCF::Direct][true][NCC::N][FMT::Short] = Normal_Direct<s16, 1>();
table[VCF::Direct][true][NCC::N][FMT::Float] = Normal_Direct<float, 1>();
table[VCF::Direct][true][NCC::NBT][FMT::UByte] = Normal_Direct<u8, 3>();
table[VCF::Direct][true][NCC::NBT][FMT::Byte] = Normal_Direct<s8, 3>();
table[VCF::Direct][true][NCC::NBT][FMT::UShort] = Normal_Direct<u16, 3>();
table[VCF::Direct][true][NCC::NBT][FMT::Short] = Normal_Direct<s16, 3>();
table[VCF::Direct][true][NCC::NBT][FMT::Float] = Normal_Direct<float, 3>();
table[VCF::Direct][true][NCC::NTB][FMT::UByte] = Normal_Direct<u8, 3>();
table[VCF::Direct][true][NCC::NTB][FMT::Byte] = Normal_Direct<s8, 3>();
table[VCF::Direct][true][NCC::NTB][FMT::UShort] = Normal_Direct<u16, 3>();
table[VCF::Direct][true][NCC::NTB][FMT::Short] = Normal_Direct<s16, 3>();
table[VCF::Direct][true][NCC::NTB][FMT::Float] = Normal_Direct<float, 3>();
table[VCF::Index8][false][NCC::N][FMT::UByte] = Normal_Index<u8, u8, 1>();
table[VCF::Index8][false][NCC::N][FMT::Byte] = Normal_Index<u8, s8, 1>();
table[VCF::Index8][false][NCC::N][FMT::UShort] = Normal_Index<u8, u16, 1>();
table[VCF::Index8][false][NCC::N][FMT::Short] = Normal_Index<u8, s16, 1>();
table[VCF::Index8][false][NCC::N][FMT::Float] = Normal_Index<u8, float, 1>();
table[VCF::Index8][false][NCC::NBT][FMT::UByte] = Normal_Index<u8, u8, 3>();
table[VCF::Index8][false][NCC::NBT][FMT::Byte] = Normal_Index<u8, s8, 3>();
table[VCF::Index8][false][NCC::NBT][FMT::UShort] = Normal_Index<u8, u16, 3>();
table[VCF::Index8][false][NCC::NBT][FMT::Short] = Normal_Index<u8, s16, 3>();
table[VCF::Index8][false][NCC::NBT][FMT::Float] = Normal_Index<u8, float, 3>();
table[VCF::Index8][false][NCC::NTB][FMT::UByte] = Normal_Index<u8, u8, 3>();
table[VCF::Index8][false][NCC::NTB][FMT::Byte] = Normal_Index<u8, s8, 3>();
table[VCF::Index8][false][NCC::NTB][FMT::UShort] = Normal_Index<u8, u16, 3>();
table[VCF::Index8][false][NCC::NTB][FMT::Short] = Normal_Index<u8, s16, 3>();
table[VCF::Index8][false][NCC::NTB][FMT::Float] = Normal_Index<u8, float, 3>();
// Same for NormalComponentCount::N; differs for NBT
// Same for NormalComponentCount::N; differs for NTB
table[VCF::Index8][true][NCC::N][FMT::UByte] = Normal_Index<u8, u8, 1>();
table[VCF::Index8][true][NCC::N][FMT::Byte] = Normal_Index<u8, s8, 1>();
table[VCF::Index8][true][NCC::N][FMT::UShort] = Normal_Index<u8, u16, 1>();
table[VCF::Index8][true][NCC::N][FMT::Short] = Normal_Index<u8, s16, 1>();
table[VCF::Index8][true][NCC::N][FMT::Float] = Normal_Index<u8, float, 1>();
table[VCF::Index8][true][NCC::NBT][FMT::UByte] = Normal_Index_Indices3<u8, u8>();
table[VCF::Index8][true][NCC::NBT][FMT::Byte] = Normal_Index_Indices3<u8, s8>();
table[VCF::Index8][true][NCC::NBT][FMT::UShort] = Normal_Index_Indices3<u8, u16>();
table[VCF::Index8][true][NCC::NBT][FMT::Short] = Normal_Index_Indices3<u8, s16>();
table[VCF::Index8][true][NCC::NBT][FMT::Float] = Normal_Index_Indices3<u8, float>();
table[VCF::Index8][true][NCC::NTB][FMT::UByte] = Normal_Index_Indices3<u8, u8>();
table[VCF::Index8][true][NCC::NTB][FMT::Byte] = Normal_Index_Indices3<u8, s8>();
table[VCF::Index8][true][NCC::NTB][FMT::UShort] = Normal_Index_Indices3<u8, u16>();
table[VCF::Index8][true][NCC::NTB][FMT::Short] = Normal_Index_Indices3<u8, s16>();
table[VCF::Index8][true][NCC::NTB][FMT::Float] = Normal_Index_Indices3<u8, float>();
table[VCF::Index16][false][NCC::N][FMT::UByte] = Normal_Index<u16, u8, 1>();
table[VCF::Index16][false][NCC::N][FMT::Byte] = Normal_Index<u16, s8, 1>();
table[VCF::Index16][false][NCC::N][FMT::UShort] = Normal_Index<u16, u16, 1>();
table[VCF::Index16][false][NCC::N][FMT::Short] = Normal_Index<u16, s16, 1>();
table[VCF::Index16][false][NCC::N][FMT::Float] = Normal_Index<u16, float, 1>();
table[VCF::Index16][false][NCC::NBT][FMT::UByte] = Normal_Index<u16, u8, 3>();
table[VCF::Index16][false][NCC::NBT][FMT::Byte] = Normal_Index<u16, s8, 3>();
table[VCF::Index16][false][NCC::NBT][FMT::UShort] = Normal_Index<u16, u16, 3>();
table[VCF::Index16][false][NCC::NBT][FMT::Short] = Normal_Index<u16, s16, 3>();
table[VCF::Index16][false][NCC::NBT][FMT::Float] = Normal_Index<u16, float, 3>();
table[VCF::Index16][false][NCC::NTB][FMT::UByte] = Normal_Index<u16, u8, 3>();
table[VCF::Index16][false][NCC::NTB][FMT::Byte] = Normal_Index<u16, s8, 3>();
table[VCF::Index16][false][NCC::NTB][FMT::UShort] = Normal_Index<u16, u16, 3>();
table[VCF::Index16][false][NCC::NTB][FMT::Short] = Normal_Index<u16, s16, 3>();
table[VCF::Index16][false][NCC::NTB][FMT::Float] = Normal_Index<u16, float, 3>();
// Same for NormalComponentCount::N; differs for NBT
// Same for NormalComponentCount::N; differs for NTB
table[VCF::Index16][true][NCC::N][FMT::UByte] = Normal_Index<u16, u8, 1>();
table[VCF::Index16][true][NCC::N][FMT::Byte] = Normal_Index<u16, s8, 1>();
table[VCF::Index16][true][NCC::N][FMT::UShort] = Normal_Index<u16, u16, 1>();
table[VCF::Index16][true][NCC::N][FMT::Short] = Normal_Index<u16, s16, 1>();
table[VCF::Index16][true][NCC::N][FMT::Float] = Normal_Index<u16, float, 1>();
table[VCF::Index16][true][NCC::NBT][FMT::UByte] = Normal_Index_Indices3<u16, u8>();
table[VCF::Index16][true][NCC::NBT][FMT::Byte] = Normal_Index_Indices3<u16, s8>();
table[VCF::Index16][true][NCC::NBT][FMT::UShort] = Normal_Index_Indices3<u16, u16>();
table[VCF::Index16][true][NCC::NBT][FMT::Short] = Normal_Index_Indices3<u16, s16>();
table[VCF::Index16][true][NCC::NBT][FMT::Float] = Normal_Index_Indices3<u16, float>();
table[VCF::Index16][true][NCC::NTB][FMT::UByte] = Normal_Index_Indices3<u16, u8>();
table[VCF::Index16][true][NCC::NTB][FMT::Byte] = Normal_Index_Indices3<u16, s8>();
table[VCF::Index16][true][NCC::NTB][FMT::UShort] = Normal_Index_Indices3<u16, u16>();
table[VCF::Index16][true][NCC::NTB][FMT::Short] = Normal_Index_Indices3<u16, s16>();
table[VCF::Index16][true][NCC::NTB][FMT::Float] = Normal_Index_Indices3<u16, float>();
return table;
}

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@ -44,13 +44,13 @@ struct fmt::formatter<TexInputForm> : EnumFormatter<TexInputForm::ABC1>
enum class NormalCount : u32
{
None = 0,
Normals = 1,
NormalsBinormals = 2
Normal = 1,
NormalTangentBinormal = 2
};
template <>
struct fmt::formatter<NormalCount> : EnumFormatter<NormalCount::NormalsBinormals>
struct fmt::formatter<NormalCount> : EnumFormatter<NormalCount::NormalTangentBinormal>
{
constexpr formatter() : EnumFormatter({"None", "Normals only", "Normals and binormals"}) {}
constexpr formatter() : EnumFormatter({"None", "Normal only", "Normal, tangent, and binormal"}) {}
};
// Texture generation type
@ -431,7 +431,7 @@ struct XFMemory
ClipDisable clipDisable; // 0x1005
u32 perf0; // 0x1006
u32 perf1; // 0x1007
INVTXSPEC hostinfo; // 0x1008 number of textures,colors,normals from vertex input
INVTXSPEC invtxspec; // 0x1008
NumColorChannel numChan; // 0x1009
u32 ambColor[NUM_XF_COLOR_CHANNELS]; // 0x100a, 0x100b
u32 matColor[NUM_XF_COLOR_CHANNELS]; // 0x100c, 0x100d

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@ -330,7 +330,7 @@ TEST_F(VertexLoaderTest, LargeFloatVertexSpeed)
m_vtx_attr.g0.PosElements = CoordComponentCount::XYZ;
m_vtx_attr.g0.PosFormat = ComponentFormat::Float;
m_vtx_attr.g0.NormalElements = NormalComponentCount::NBT;
m_vtx_attr.g0.NormalElements = NormalComponentCount::NTB;
m_vtx_attr.g0.NormalFormat = ComponentFormat::Float;
m_vtx_attr.g0.Color0Elements = ColorComponentCount::RGBA;
m_vtx_attr.g0.Color0Comp = ColorFormat::RGBA8888;