loader: format code

This commit is contained in:
souldbminersmwc
2025-12-11 16:10:02 -05:00
parent 0e032f67be
commit d5bf7b0432
3 changed files with 611 additions and 536 deletions

View File

@@ -14,20 +14,23 @@
* along with this program. If not, see <http://www.gnu.org/licenses/>. * along with this program. If not, see <http://www.gnu.org/licenses/>.
*/ */
#include "../oc_common.hpp"
#include "../mtc_timing_value.hpp" #include "../mtc_timing_value.hpp"
#include "../oc_common.hpp"
#include "timing_tables.hpp" #include "timing_tables.hpp"
namespace ams::ldr::oc::pcv::mariko { namespace ams::ldr::oc::pcv::mariko
{
s32 FixEinput(s32 val) { s32 FixEinput(s32 val)
{
if (auto patch = FindEinput()) { if (auto patch = FindEinput()) {
return patch->correct; return patch->correct;
} }
return val; return val;
} }
u32 GetRext() { u32 GetRext()
{
if (auto r = FindRext()) { if (auto r = FindRext()) {
return r->correct; return r->correct;
} }
@@ -35,7 +38,8 @@ namespace ams::ldr::oc::pcv::mariko {
} }
/* TODO: This function is quite uggly, refactor! */ /* TODO: This function is quite uggly, refactor! */
void CalculateMiscTimings() { void CalculateMiscTimings()
{
tW2P = 0x2d; tW2P = 0x2d;
rdv = 0x39 + C.mem_burst_read_latency; rdv = 0x39 + C.mem_burst_read_latency;
einput_duration = 0x1C; einput_duration = 0x1C;
@@ -45,21 +49,28 @@ namespace ams::ldr::oc::pcv::mariko {
const auto &e = g_misc_table[i]; const auto &e = g_misc_table[i];
if (C.marikoEmcMaxClock >= e.min_freq) { if (C.marikoEmcMaxClock >= e.min_freq) {
rdv += e.rdv_inc; rdv += e.rdv_inc;
if (e.einput) einput_duration = e.einput; if (e.einput)
if (e.quse_width) quse_width = e.quse_width; einput_duration = e.einput;
if (e.quse_width)
quse_width = e.quse_width;
} }
} }
if (WL >= 16) tW2P += 6; if (WL >= 16)
if (WL >= 18) tW2P += 8; tW2P += 6;
if (WL >= 18)
tW2P += 8;
s32 einput_calc = quse_width - (0.010182 * (C.marikoEmcMaxClock / 1000.0) - 0.0879) + 0.5; s32 einput_calc =
quse_width - (0.010182 * (C.marikoEmcMaxClock / 1000.0) - 0.0879) + 0.5;
einput = FixEinput(einput_calc); einput = FixEinput(einput_calc);
rext = GetRext(); rext = GetRext();
} }
void CalculateIbdly() { void CalculateIbdly()
/* Ibdly is so inconsistent, I am using the most common value and then checking with a lookup table. */ {
/* Ibdly is so inconsistent, I am using the most common value and then
* checking with a lookup table. */
ibdly = 0x1000001D + C.mem_burst_read_latency; ibdly = 0x1000001D + C.mem_burst_read_latency;
if (auto patch = FindIbdlyPatch()) { if (auto patch = FindIbdlyPatch()) {
@@ -67,7 +78,8 @@ namespace ams::ldr::oc::pcv::mariko {
} }
} }
void CalculateObdly() { void CalculateObdly()
{
obdly = 0x10000002 + C.mem_burst_write_latency; obdly = 0x10000002 + C.mem_burst_write_latency;
if (auto patch = FindObdlyPatch()) { if (auto patch = FindObdlyPatch()) {
@@ -75,25 +87,33 @@ namespace ams::ldr::oc::pcv::mariko {
} }
} }
void CalculateTWTPDEN() { void CalculateTWTPDEN()
tWTPDEN = tW2P + 1 + CEIL(tDQSS_max / tCK_avg) + CEIL(tDQS2DQ_max / tCK_avg) + 6; {
if (C.marikoEmcMaxClock >= 2'233'000 && C.marikoEmcMaxClock < 2'533'000) tWTPDEN++; tWTPDEN =
if (C.marikoEmcMaxClock >= 2'433'000 && C.marikoEmcMaxClock < 2'800'000) tWTPDEN--; tW2P + 1 + CEIL(tDQSS_max / tCK_avg) + CEIL(tDQS2DQ_max / tCK_avg) + 6;
if (C.marikoEmcMaxClock >= 2'233'000 && C.marikoEmcMaxClock < 2'533'000)
tWTPDEN++;
if (C.marikoEmcMaxClock >= 2'433'000 && C.marikoEmcMaxClock < 2'800'000)
tWTPDEN--;
} }
void CalculateTR2W() { void CalculateTR2W()
tR2W = CEIL(RL_DBI + (tDQSCK_max / tCK_avg) + (BL / 2) - WL + tWPRE + FLOOR(tRPST) + 9.0); {
tR2W = CEIL(RL_DBI + (tDQSCK_max / tCK_avg) + (BL / 2) - WL + tWPRE +
FLOOR(tRPST) + 9.0);
if (auto patch = FindTR2WPatch()) { if (auto patch = FindTR2WPatch()) {
tR2W += patch->adjust; tR2W += patch->adjust;
} }
} }
void CalculateTW2R() { void CalculateTW2R()
{
tW2R = WL + (BL / 2) - 6 + CEIL(tWTR / tCK_avg); tW2R = WL + (BL / 2) - 6 + CEIL(tWTR / tCK_avg);
const FreqTW2R *t = FindTW2R(); const FreqTW2R *t = FindTW2R();
if (!t) return; if (!t)
return;
tW2R += t->adjust; tW2R += t->adjust;
@@ -106,17 +126,21 @@ namespace ams::ldr::oc::pcv::mariko {
} }
} }
void CalculateQuse() { void CalculateQuse()
quse = ROUND(0.002266 * (C.marikoEmcMaxClock / 1000.0) + 31.88) + C.mem_burst_read_latency; {
quse = ROUND(0.002266 * (C.marikoEmcMaxClock / 1000.0) + 31.88) +
C.mem_burst_read_latency;
if (auto patch = FindQusePatch()) { if (auto patch = FindQusePatch()) {
quse += patch->adjust; quse += patch->adjust;
} }
} }
void CalculateQrst() { void CalculateQrst()
{
qrst = 0x00070000; qrst = 0x00070000;
u32 qrst_calc = ROUND(22.1 - (C.marikoEmcMaxClock / 1000000.0) * 8.0) + C.mem_burst_read_latency; u32 qrst_calc = ROUND(22.1 - (C.marikoEmcMaxClock / 1000000.0) * 8.0) +
C.mem_burst_read_latency;
u32 qrst_low = MAX(static_cast<u32>(0), qrst_calc); u32 qrst_low = MAX(static_cast<u32>(0), qrst_calc);
if (C.marikoEmcMaxClock >= 2'533'000) { if (C.marikoEmcMaxClock >= 2'533'000) {
@@ -132,42 +156,53 @@ namespace ams::ldr::oc::pcv::mariko {
} }
} }
void CalculateQsafe() { void CalculateQsafe()
qsafe = ROUND((C.marikoEmcMaxClock / 1000.0) / 138.0 + 37.4) + C.mem_burst_read_latency; {
qsafe = ROUND((C.marikoEmcMaxClock / 1000.0) / 138.0 + 37.4) +
C.mem_burst_read_latency;
if (auto patch = FindQsafePatch()) { if (auto patch = FindQsafePatch()) {
qsafe += patch->adjust; qsafe += patch->adjust;
} }
} }
void CalculateQpop() { void CalculateQpop()
qpop = FLOOR(((C.marikoEmcMaxClock / 1000.0) - 2133 + 167) / 200.0) + 0x2D + C.mem_burst_read_latency; {
qpop = FLOOR(((C.marikoEmcMaxClock / 1000.0) - 2133 + 167) / 200.0) + 0x2D +
C.mem_burst_read_latency;
if (C.marikoEmcMaxClock >= 3'133'000) qpop++; if (C.marikoEmcMaxClock >= 3'133'000)
qpop++;
} }
void CalculatePdex2rw() { void CalculatePdex2rw()
{
double freq_mhz = C.marikoEmcMaxClock / 1000.0; double freq_mhz = C.marikoEmcMaxClock / 1000.0;
double pdex_local = (0.011 * freq_mhz) - 1.443; double pdex_local = (0.011 * freq_mhz) - 1.443;
pdex2rw = static_cast<u32>(ROUND(pdex_local)); pdex2rw = static_cast<u32>(ROUND(pdex_local));
if (pdex2rw < 22) pdex2rw = 22; if (pdex2rw < 22)
if (pdex2rw > 33) pdex2rw = 33; pdex2rw = 22;
if (pdex2rw > 33)
pdex2rw = 33;
if (auto patch = FindPdex2rwPatch()) { if (auto patch = FindPdex2rwPatch()) {
pdex2rw += patch->adjust; pdex2rw += patch->adjust;
} }
} }
void CalculateCke2pden() { void CalculateCke2pden()
cke2pden = (static_cast<double>((C.marikoEmcMaxClock / 1000.0) * 0.00875) - 0.65); {
cke2pden =
(static_cast<double>((C.marikoEmcMaxClock / 1000.0) * 0.00875) - 0.65);
if (auto patch = FindCke2pdenPatch()) { if (auto patch = FindCke2pdenPatch()) {
cke2pden += patch->adjust; cke2pden += patch->adjust;
} }
} }
void CalculateTimings() { void CalculateTimings()
{
CalculateMiscTimings(); CalculateMiscTimings();
CalculateIbdly(); CalculateIbdly();
CalculateObdly(); CalculateObdly();
@@ -182,4 +217,4 @@ namespace ams::ldr::oc::pcv::mariko {
CalculateCke2pden(); CalculateCke2pden();
} }
} } // namespace ams::ldr::oc::pcv::mariko

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@@ -17,7 +17,8 @@
#include "../mtc_timing_value.hpp" #include "../mtc_timing_value.hpp"
#include "timing_tables.hpp" #include "timing_tables.hpp"
namespace ams::ldr::oc::pcv::mariko { namespace ams::ldr::oc::pcv::mariko
{
const MiscTimings g_misc_table[] = { const MiscTimings g_misc_table[] = {
{ 1'866'000, 1, 0x20, 0x9, 0 }, { 1'866'000, 1, 0x20, 0x9, 0 },
@@ -47,23 +48,23 @@ namespace ams::ldr::oc::pcv::mariko {
const u32 g_misc_table_size = sizeof(g_misc_table) / sizeof(g_misc_table[0]); const u32 g_misc_table_size = sizeof(g_misc_table) / sizeof(g_misc_table[0]);
const ReplacePatch g_einput_patches[] = { const ReplacePatch g_einput_patches[] = { { 2'133'000, 0x16 },
{2'133'000, 0x16}, {2'166'000, 0x17}, {2'200'000, 0x17}, { 2'166'000, 0x17 }, { 2'200'000, 0x17 }, { 2'233'000, 0x16 },
{2'233'000, 0x16}, {2'266'000, 0x16}, {2'300'000, 0x15}, { 2'266'000, 0x16 }, { 2'300'000, 0x15 }, { 2'333'000, 0x14 },
{2'333'000, 0x14}, {2'366'000, 0x16}, {2'400'000, 0x16}, { 2'366'000, 0x16 }, { 2'400'000, 0x16 }, { 2'433'000, 0x15 },
{2'433'000, 0x15}, {2'466'000, 0x15}, {2'500'000, 0x14}, { 2'466'000, 0x15 }, { 2'500'000, 0x14 }, { 2'533'000, 0x13 },
{2'533'000, 0x13}, {2'566'000, 0x14}, {2'600'000, 0x14}, { 2'566'000, 0x14 }, { 2'600'000, 0x14 }, { 2'633'000, 0x13 },
{2'633'000, 0x13}, {2'666'000, 0x13}, {2'700'000, 0x12}, { 2'666'000, 0x13 }, { 2'700'000, 0x12 }, { 2'733'000, 0x11 },
{2'733'000, 0x11}, {2'766'000, 0x13}, {2'800'000, 0x13}, { 2'766'000, 0x13 }, { 2'800'000, 0x13 }, { 2'833'000, 0x12 },
{2'833'000, 0x12}, {2'866'000, 0x12}, {2'900'000, 0x12}, { 2'866'000, 0x12 }, { 2'900'000, 0x12 }, { 2'933'000, 0x10 },
{2'933'000, 0x10}, {2'966'000, 0x11}, {3'000'000, 0x11}, { 2'966'000, 0x11 }, { 3'000'000, 0x11 }, { 3'033'000, 0x10 },
{3'033'000, 0x10}, {3'066'000, 0x10}, {3'100'000, 0x10}, { 3'066'000, 0x10 }, { 3'100'000, 0x10 }, { 3'133'000, 0x0F } };
{3'133'000, 0x0F}
};
const u32 g_einput_patches_size = sizeof(g_einput_patches) / sizeof(g_einput_patches[0]); const u32 g_einput_patches_size =
sizeof(g_einput_patches) / sizeof(g_einput_patches[0]);
const ReplacePatch *FindEinput() { const ReplacePatch *FindEinput()
{
for (u32 i = 0; i < g_einput_patches_size; i++) for (u32 i = 0; i < g_einput_patches_size; i++)
if (g_einput_patches[i].freq == C.marikoEmcMaxClock) if (g_einput_patches[i].freq == C.marikoEmcMaxClock)
return &g_einput_patches[i]; return &g_einput_patches[i];
@@ -71,22 +72,43 @@ namespace ams::ldr::oc::pcv::mariko {
} }
const ReplacePatch g_rext_table[] = { const ReplacePatch g_rext_table[] = {
{2'133'000, 0x1A}, {2'166'000, 0x19}, {2'200'000, 0x19}, { 2'133'000, 0x1A },
{2'233'000, 0x19}, {2'266'000, 0x1A}, {2'300'000, 0x1B}, { 2'166'000, 0x19 },
{2'333'000, 0x1B}, {2'366'000, 0x1B}, {2'400'000, 0x1B}, { 2'200'000, 0x19 },
{2'433'000, 0x1B}, {2'466'000, 0x1B}, {2'500'000, 0x1A}, { 2'233'000, 0x19 },
{2'533'000, 0x1C}, {2'566'000, 0x1B}, {2'600'000, 0x17}, { 2'266'000, 0x1A },
{2'633'000, 0x1B}, {2'666'000, 0x1B}, {2'700'000, 0x1C}, { 2'300'000, 0x1B },
{2'733'000, 0x1C}, {2'766'000, 0x1D}, {2'800'000, 0x1D}, { 2'333'000, 0x1B },
{2'833'000, 0x1D}, {2'866'000, 0x1D}, {2'900'000, 0x1D}, { 2'366'000, 0x1B },
{2'933'000, 0x1C}, {2'966'000, 0x1D}, {3'000'000, 0x1D}, { 2'400'000, 0x1B },
{3'033'000, 0x1D}, {3'066'000, 0x1D}, {3'100'000, 0x1D}, { 2'433'000, 0x1B },
{ 2'466'000, 0x1B },
{ 2'500'000, 0x1A },
{ 2'533'000, 0x1C },
{ 2'566'000, 0x1B },
{ 2'600'000, 0x17 },
{ 2'633'000, 0x1B },
{ 2'666'000, 0x1B },
{ 2'700'000, 0x1C },
{ 2'733'000, 0x1C },
{ 2'766'000, 0x1D },
{ 2'800'000, 0x1D },
{ 2'833'000, 0x1D },
{ 2'866'000, 0x1D },
{ 2'900'000, 0x1D },
{ 2'933'000, 0x1C },
{ 2'966'000, 0x1D },
{ 3'000'000, 0x1D },
{ 3'033'000, 0x1D },
{ 3'066'000, 0x1D },
{ 3'100'000, 0x1D },
{ 3'133'000, 0x1D }, { 3'133'000, 0x1D },
}; };
const u32 g_rext_table_size = sizeof(g_rext_table) / sizeof(g_rext_table[0]); const u32 g_rext_table_size = sizeof(g_rext_table) / sizeof(g_rext_table[0]);
const ReplacePatch *FindRext() { const ReplacePatch *FindRext()
{
for (u32 i = 0; i < g_rext_table_size; i++) for (u32 i = 0; i < g_rext_table_size; i++)
if (g_rext_table[i].freq == C.marikoEmcMaxClock) if (g_rext_table[i].freq == C.marikoEmcMaxClock)
return &g_rext_table[i]; return &g_rext_table[i];
@@ -108,7 +130,8 @@ namespace ams::ldr::oc::pcv::mariko {
const u32 g_tw2r_table_size = sizeof(g_tw2r_table) / sizeof(g_tw2r_table[0]); const u32 g_tw2r_table_size = sizeof(g_tw2r_table) / sizeof(g_tw2r_table[0]);
const FreqTW2R *FindTW2R() { const FreqTW2R *FindTW2R()
{
for (u32 i = 0; i < g_tw2r_table_size; i++) for (u32 i = 0; i < g_tw2r_table_size; i++)
if (C.marikoEmcMaxClock <= g_tw2r_table[i].max_freq) if (C.marikoEmcMaxClock <= g_tw2r_table[i].max_freq)
return &g_tw2r_table[i]; return &g_tw2r_table[i];
@@ -134,9 +157,11 @@ namespace ams::ldr::oc::pcv::mariko {
{ 2'933'000, -1 }, { 2'933'000, -1 },
}; };
const u32 g_ibdly_table_size = sizeof(g_ibdly_patches) / sizeof(g_ibdly_patches[0]); const u32 g_ibdly_table_size =
sizeof(g_ibdly_patches) / sizeof(g_ibdly_patches[0]);
const AdjustPatch *FindIbdlyPatch() { const AdjustPatch *FindIbdlyPatch()
{
for (u32 i = 0; i < g_ibdly_table_size; i++) for (u32 i = 0; i < g_ibdly_table_size; i++)
if (g_ibdly_patches[i].freq == C.marikoEmcMaxClock) if (g_ibdly_patches[i].freq == C.marikoEmcMaxClock)
return &g_ibdly_patches[i]; return &g_ibdly_patches[i];
@@ -165,9 +190,11 @@ namespace ams::ldr::oc::pcv::mariko {
{ 3'133'000, -2 }, { 3'133'000, -2 },
}; };
const u32 g_obdly_table_size = sizeof(g_obdly_patches) / sizeof(g_obdly_patches[0]); const u32 g_obdly_table_size =
sizeof(g_obdly_patches) / sizeof(g_obdly_patches[0]);
const AdjustPatch *FindObdlyPatch() { const AdjustPatch *FindObdlyPatch()
{
for (u32 i = 0; i < g_obdly_table_size; i++) for (u32 i = 0; i < g_obdly_table_size; i++)
if (g_obdly_patches[i].freq == C.marikoEmcMaxClock) if (g_obdly_patches[i].freq == C.marikoEmcMaxClock)
return &g_obdly_patches[i]; return &g_obdly_patches[i];
@@ -183,9 +210,11 @@ namespace ams::ldr::oc::pcv::mariko {
{ 3'133'000, 1 }, { 3'133'000, 1 },
}; };
const u32 g_tr2w_table_size = sizeof(g_tr2w_patches) / sizeof(g_tr2w_patches[0]); const u32 g_tr2w_table_size =
sizeof(g_tr2w_patches) / sizeof(g_tr2w_patches[0]);
const AdjustPatch *FindTR2WPatch() { const AdjustPatch *FindTR2WPatch()
{
for (u32 i = 0; i < g_tr2w_table_size; i++) for (u32 i = 0; i < g_tr2w_table_size; i++)
if (g_tr2w_patches[i].freq == C.marikoEmcMaxClock) if (g_tr2w_patches[i].freq == C.marikoEmcMaxClock)
return &g_tr2w_patches[i]; return &g_tr2w_patches[i];
@@ -212,9 +241,11 @@ namespace ams::ldr::oc::pcv::mariko {
{ 2'933'000, -1 }, { 2'933'000, -1 },
}; };
const u32 g_quse_table_size = sizeof(g_quse_patches) / sizeof(g_quse_patches[0]); const u32 g_quse_table_size =
sizeof(g_quse_patches) / sizeof(g_quse_patches[0]);
const AdjustPatch *FindQusePatch() { const AdjustPatch *FindQusePatch()
{
for (u32 i = 0; i < g_quse_table_size; i++) for (u32 i = 0; i < g_quse_table_size; i++)
if (g_quse_patches[i].freq == C.marikoEmcMaxClock) if (g_quse_patches[i].freq == C.marikoEmcMaxClock)
return &g_quse_patches[i]; return &g_quse_patches[i];
@@ -246,9 +277,11 @@ namespace ams::ldr::oc::pcv::mariko {
{ 3'200'000, 1 }, { 3'200'000, 1 },
}; };
const u32 g_qrst_table_size = sizeof(g_qrst_patches) / sizeof(g_qrst_patches[0]); const u32 g_qrst_table_size =
sizeof(g_qrst_patches) / sizeof(g_qrst_patches[0]);
const AdjustPatch *FindQrstPatch() { const AdjustPatch *FindQrstPatch()
{
for (u32 i = 0; i < g_qrst_table_size; i++) for (u32 i = 0; i < g_qrst_table_size; i++)
if (g_qrst_patches[i].freq == C.marikoEmcMaxClock) if (g_qrst_patches[i].freq == C.marikoEmcMaxClock)
return &g_qrst_patches[i]; return &g_qrst_patches[i];
@@ -277,9 +310,11 @@ namespace ams::ldr::oc::pcv::mariko {
{ 3'200'000, -1 }, { 3'200'000, -1 },
}; };
const u32 g_qsafe_table_size = sizeof(g_qsafe_patches) / sizeof(g_qsafe_patches[0]); const u32 g_qsafe_table_size =
sizeof(g_qsafe_patches) / sizeof(g_qsafe_patches[0]);
const AdjustPatch *FindQsafePatch() { const AdjustPatch *FindQsafePatch()
{
for (u32 i = 0; i < g_qsafe_table_size; i++) for (u32 i = 0; i < g_qsafe_table_size; i++)
if (g_qsafe_patches[i].freq == C.marikoEmcMaxClock) if (g_qsafe_patches[i].freq == C.marikoEmcMaxClock)
return &g_qsafe_patches[i]; return &g_qsafe_patches[i];
@@ -302,9 +337,11 @@ namespace ams::ldr::oc::pcv::mariko {
{ 3'066'000, 1 }, { 3'066'000, 1 },
}; };
const u32 g_pdex2rw_table_size = sizeof(g_pdex2rw_patches) / sizeof(g_pdex2rw_patches[0]); const u32 g_pdex2rw_table_size =
sizeof(g_pdex2rw_patches) / sizeof(g_pdex2rw_patches[0]);
const AdjustPatch *FindPdex2rwPatch() { const AdjustPatch *FindPdex2rwPatch()
{
for (u32 i = 0; i < g_pdex2rw_table_size; i++) for (u32 i = 0; i < g_pdex2rw_table_size; i++)
if (g_pdex2rw_patches[i].freq == C.marikoEmcMaxClock) if (g_pdex2rw_patches[i].freq == C.marikoEmcMaxClock)
return &g_pdex2rw_patches[i]; return &g_pdex2rw_patches[i];
@@ -328,13 +365,15 @@ namespace ams::ldr::oc::pcv::mariko {
{ 3'100'000, 1 }, { 3'100'000, 1 },
}; };
const u32 g_cke2pden_table_size = sizeof(g_cke2pden_patches) / sizeof(g_cke2pden_patches[0]); const u32 g_cke2pden_table_size =
sizeof(g_cke2pden_patches) / sizeof(g_cke2pden_patches[0]);
const AdjustPatch *FindCke2pdenPatch() { const AdjustPatch *FindCke2pdenPatch()
{
for (u32 i = 0; i < g_cke2pden_table_size; i++) for (u32 i = 0; i < g_cke2pden_table_size; i++)
if (g_cke2pden_patches[i].freq == C.marikoEmcMaxClock) if (g_cke2pden_patches[i].freq == C.marikoEmcMaxClock)
return &g_cke2pden_patches[i]; return &g_cke2pden_patches[i];
return nullptr; return nullptr;
} }
} } // namespace ams::ldr::oc::pcv::mariko

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@@ -17,7 +17,8 @@
#pragma once #pragma once
#include "../mtc_timing_value.hpp" #include "../mtc_timing_value.hpp"
namespace ams::ldr::oc::pcv::mariko { namespace ams::ldr::oc::pcv::mariko
{
struct ReplacePatch { struct ReplacePatch {
u32 freq; u32 freq;
@@ -91,4 +92,4 @@ namespace ams::ldr::oc::pcv::mariko {
extern const u32 g_tw2r_table_size; extern const u32 g_tw2r_table_size;
const FreqTW2R *FindTW2R(); const FreqTW2R *FindTW2R();
} } // namespace ams::ldr::oc::pcv::mariko