Improve ZSM backend

This commit is contained in:
Zachary Hall 2024-10-24 11:33:08 -07:00
parent 4290d851a4
commit 21f6d7da45
16 changed files with 893 additions and 18 deletions

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assets/test_loud.fur Normal file

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assets/test_loud.zsm Normal file

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set(BACKEND_FLUIDSYNTH_SRC ${CMAKE_CURRENT_SOURCE_DIR}/fluidsynth_backend.cpp)
set(BACKEND_FLUIDSYNTH_INC ${CMAKE_CURRENT_BINARY_DIR} ${CMAKE_CURRENT_SOURCE_DIR})
add_playback_backend(fluidsynth_backend ${BACKEND_FLUIDSYNTH_SRC})
target_include_directories(fluidsynth_backend PRIVATE ${BACKEND_FLUIDSYNTH_INC})
find_package(OpenMP)
find_package(FluidSynth)
target_link_libraries(fluidsynth_backend PUBLIC OpenMP::OpenMP_CXX FluidSynth::libfluidsynth)

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{
"class_name": "FluidSynthBackend",
"include_path": "fluidsynth_backend.hpp"
}

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#include "fluidsynth_backend.hpp"
#include <algorithm>
#include <ipc/common.pb.h>
#include <exception>
#include <filesystem>
#include "file_backend.hpp"
#include <stddef.h>
#include <string.h>
#include <file_backend.hpp>
#include <util.hpp>
type FluidSynthBackend::name() { \
std::optional<google::protobuf::Any> value_maybe = get(#name); \
if (value_maybe.has_value()) { \
return resolve_value<type>(value_maybe.value()); \
} \
return default_value; \
}
void fluidsynth_get_property_list_wrapper(void *udata, const char *name, int type) {
((FluidSynthBackend*)udata)->fluidsynth_get_property_list(name, type);
}
std::vector<Property> FluidSynthBackend::get_property_list() {
fluid_settings_foreach(settings, (void*)this, &fluidsynth_get_property_list_wrapper);
return properties;
}
void FluidSynthBackend::load(const char *filename) {
memset(&spec, 0, sizeof(spec));
current_file = filename;
spec.format = AUDIO_S16SYS;
spec.samples = 100;
spec.channels = 2;
spec.freq = PSG_FREQ;
spec.size = 100 * 2 * sizeof(int16_t);
file = open_file(filename);
char magic[2];
file->read(magic, 2, 1);
if (magic[0] != 0x7a || magic[1] != 0x6d) {
throw std::exception();
}
uint8_t version;
file->read(&version, 1, 1);
uint8_t loop_point[3];
file->read(loop_point, 3, 1);
this->loop_point = loop_point[0] | ((uint32_t)(loop_point[1]) << 8) | ((uint32_t)(loop_point[2]) << 16);
file->read(loop_point, 3, 1);
this->pcm_offset = loop_point[0] | ((uint32_t)(loop_point[1]) << 8) | ((uint32_t)(loop_point[2]) << 16);
pcm_offset += 3;
file->read(&fm_mask, 1, 1);
file->read(loop_point, 2, 1);
this->psg_channel_mask = loop_point[0] | ((uint16_t)(loop_point[1]) << 8);
file->read(loop_point, 2, 1);
this->tick_rate = loop_point[0] | ((uint16_t)(loop_point[1]) << 8);
file->read(loop_point, 2, 1); // Reserved.
music_data_start = file->get_pos();
this->loop_point += music_data_start;
file->seek(pcm_offset, SeekType::SET);
file->read(loop_point, 1, 1);
pcm_offset++;
pcm_data_offs = ((((uint16_t)loop_point[0]) + 1) * 16) + pcm_offset;
for (uint8_t i = 0; i <= loop_point[0]; i++) {
uint16_t instdef = (i * 16) + 1;
pcm_instrument *inst = new pcm_instrument();
file->seek(pcm_offset + instdef, SeekType::SET);
file->read(&inst->geom, 1, 1);
uint8_t bytes[10];
file->read(bytes, 10, 1);
inst->loop_rem = bytes[9];
inst->loop_rem <<= 8;
inst->loop_rem |= bytes[8];
inst->loop_rem <<= 8;
inst->loop_rem |= bytes[7];
inst->loop = loop_rem;
inst->islooped = bytes[6] & 0x80;
inst->remain = bytes[5];
inst->remain <<= 8;
inst->remain |= bytes[4];
inst->remain <<= 8;
inst->remain |= bytes[3];
uint32_t cur = bytes[2];
cur <<= 8;
cur |= bytes[1];
cur <<= 8;
cur |= bytes[0];
cur += pcm_data_offs;
inst->data = (uint8_t*)malloc(inst->remain);
file->seek(cur, SeekType::SET);
file->read(inst->data, 1, inst->remain);
inst->loop_rem = inst->remain - inst->loop_rem;
instruments.push_back(inst);
}
file->seek(music_data_start, SeekType::SET);
this->loop_point = std::max(this->loop_point, (uint32_t)music_data_start);
double prev_time = 0.0;
double time = 0.0;
double tmpDelayTicks = 0.0;
loop_pos = -1.0;
uint32_t prev_pos = music_data_start;
while (true) {
tmpDelayTicks -= get_delay_per_frame();
if (tmpDelayTicks < 0.0) {
ZsmCommand cmd = get_command();
size_t cur_pos = file->get_pos();
if (cur_pos >= this->loop_point && this->loop_pos < 0) {
loop_pos = time;
this->loop_point = cur_pos;
}
if (cmd.id == ZsmEOF) {
break;
} else if (cmd.id == Delay) {
time += ((double)cmd.delay) / ((double)(tick_rate));
tmpDelayTicks += cmd.delay;
}
prev_pos = file->get_pos();
prev_time = time;
}
}
if (this->loop_pos < 0.0) {
this->loop_pos = 0.0;
this->loop_point = music_data_start;
}
length = time;
music_data_len = file->get_pos();
switch_stream(0);
loop_end = length;
loop_start = this->loop_pos;
fm_stream = SDL_NewAudioStream(AUDIO_S16SYS, 2, YM_FREQ, AUDIO_S16SYS, 2, PSG_FREQ);
DEBUG.writefln("fm_stream: %ld -> %ld", YM_FREQ, PSG_FREQ);
#define _PROPERTY(name, type, default_value) \
{ \
std::string type_str = #type; \
google::protobuf::Any value; \
if (type_str == "bool") { \
BooleanProperty value_b; \
value_b.set_value(default_value); \
value.PackFrom(value_b); \
} else if (type_str == "double") { \
DoubleProperty value_d; \
value_d.set_value(default_value); \
value.PackFrom(value_d); \
} \
property_defaults[#name] = value; \
}
#include "properties.inc"
}
extern SDL_AudioSpec obtained;
void ZsmBackend::switch_stream(int idx) {
YM_Create(YM_FREQ);
YM_init(YM_FREQ/64, 60);
YM_reset();
psg_reset();
pcm_reset();
for (uint8_t i = 0; i < 16; i++) {
psg_writereg(i * 4 + 2, 0);
}
file->seek(music_data_start, SeekType::SET);
this->cpuClocks = 0.0;
this->delayTicks = 0.0;
this->ticks = 0.0;
}
void ZsmBackend::cleanup() {
delete file;
file = nullptr;
audio_buf.clear();
SDL_FreeAudioStream(fm_stream);
fm_stream = nullptr;
audio_sample = nullptr;
for (auto inst : instruments) {
delete inst;
}
instruments.clear();
}
void ZsmBackend::tick(bool step) {
delayTicks -= 1;
const double ClocksPerTick = ((double)HZ) / ((double)tick_rate);
double prevCpuClocks = cpuClocks;
double nextCpuClocks = cpuClocks + ClocksPerTick;
double ticks_remaining = ClocksPerTick;
while (delayTicks <= 0) {
ZsmCommand cmd = get_command();
switch (cmd.id) {
case ZsmEOF: {
if (step) {
file->seek(this->loop_point, SeekType::SET);
this->position = loop_pos;
} else {
throw std::exception();
}
} break;
case PsgWrite: {
psg_writereg(cmd.psg_write.reg, cmd.psg_write.val);
} break;
case FmWrite: {
for (uint8_t i = 0; i < cmd.fm_write.len; i++) {
YM_write_reg(cmd.fm_write.regs[i].reg, cmd.fm_write.regs[i].val);
while (YM_read_status()) {
size_t clocksToAddForYm = 1;
ticks_remaining -= clocksToAddForYm;
if (ticks_remaining < 0) {
delayTicks -= 1;
nextCpuClocks += ClocksPerTick;
ticks_remaining += ClocksPerTick;
}
audio_step(clocksToAddForYm);
}
}
} break;
case Delay: {
delayTicks += cmd.delay;
position += ((double)cmd.delay) / ((double)(tick_rate));
} break;
case ExtCmd: {
//cmd.extcmd.channel
switch (cmd.extcmd.channel) {
case 0: {
for (size_t i = 0; i < cmd.extcmd.bytes; i += 2) {
switch (cmd.extcmd.pcm[i]) {
case 0: { // ctrl
uint8_t ctrl = cmd.extcmd.pcm[i + 1];
if (ctrl & 0x80) {
remain = 0;
}
pcm_write_ctrl(ctrl);
} break;
case 1: { // rate
pcm_write_rate(cmd.extcmd.pcm[i + 1]);
} break;
default: { // trigger
size_t file_pos = file->get_pos();
uint8_t ctrl = pcm_read_ctrl();
pcm_write_ctrl(ctrl | 0x80);
uint16_t pcm_idx = cmd.extcmd.pcm[i + 1];
pcm_instrument *inst = instruments[pcm_idx];
ctrl = pcm_read_ctrl() & 0x0F;
ctrl |= inst->geom & 0x30;
pcm_write_ctrl(ctrl);
audio_sample = inst->data;
loop = inst->loop;
loop_rem = inst->loop_rem;
remain = inst->remain;
islooped = inst->islooped;
cur = 0;
} break;
}
} break;
}
// Nothing handled yet.
}
} break;
}
}
size_t nextCpuClocksInt = std::floor(nextCpuClocks);
size_t prevCpuClocksInt = std::floor(prevCpuClocks);
size_t cpuClocksIntDelta = nextCpuClocksInt - prevCpuClocksInt;
audio_step(ticks_remaining);
cpuClocks = std::fmod(nextCpuClocks, ClocksPerTick);
}
size_t ZsmBackend::render(void *buf, size_t maxlen) {
size_t sample_type_len = 2;
maxlen /= sample_type_len;
while (audio_buf.size() <= maxlen) {
tick(true);
}
size_t copied = copy_out(buf, maxlen) * sample_type_len;
maxlen *= sample_type_len;
return copied;
}
uint64_t ZsmBackend::get_min_samples() {
return spec.size;
}
std::optional<uint64_t> ZsmBackend::get_max_samples() {
return get_min_samples();
}
ZsmCommand ZsmBackend::get_command() {
ZsmCommandId cmdid;
uint8_t cmd_byte;
file->read(&cmd_byte, 1, 1);
if (cmd_byte == 0x80) {
cmdid = ZsmEOF;
} else {
if ((cmd_byte >> 6) == 0) {
cmdid = PsgWrite;
} else if ((cmd_byte >> 6) == 0b01) {
if (cmd_byte == 0b01000000) {
cmdid = ExtCmd;
} else {
cmdid = FmWrite;
}
} else {
cmdid = Delay;
}
}
ZsmCommand output;
output.id = cmdid;
if (cmdid == ZsmEOF) {
return output;
} else if (cmdid == PsgWrite) {
uint8_t value;
file->read(&value, 1, 1);
output.psg_write.reg = cmd_byte & 0x3F;
output.psg_write.val = value;
} else if (cmdid == FmWrite) {
uint16_t _value;
uint8_t *value = (uint8_t*)(void*)(&_value);
uint8_t pairs = cmd_byte & 0b111111;
output.fm_write.len = pairs;
output.fm_write.regs = (reg_pair*)malloc((sizeof(reg_pair))*pairs);
for (uint8_t i = 0; i < pairs; i++) {
file->read(value, 2, 1);
output.fm_write.regs[i].reg = value[0];
output.fm_write.regs[i].val = value[1];
}
} else if (cmdid == ExtCmd) {
uint8_t ext_cmd_byte;
file->read(&ext_cmd_byte, 1, 1);
uint8_t bytes = ext_cmd_byte & 0x3F;
uint8_t ch = ext_cmd_byte >> 6;
output.extcmd.channel = ch;
output.extcmd.bytes = bytes;
if (ch == 1) {
output.extcmd.expansion.write_bytes = NULL;
} else {
output.extcmd.pcm = (uint8_t*)malloc(bytes); // Handles all other cases due to them being in a union, and each having the same type.
}
for (size_t i = 0; i < bytes; i++) {
uint8_t byte;
file->read(&byte, 1, 1);
switch (ch) {
case 0: {
output.extcmd.pcm[i] = byte;
} break;
case 1: {
if (i == 0) {
output.extcmd.expansion.chip_id = byte;
} else if (i == 1) {
output.extcmd.expansion.writes = byte;
output.extcmd.expansion.write_bytes = (uint8_t*)malloc(byte);
} else {
output.extcmd.expansion.write_bytes[i - 2] = byte;
}
} break;
case 2: {
output.extcmd.sync[i] = byte;
} break;
case 3: {
output.extcmd.custom[i] = byte;
} break;
}
}
} else if (cmdid == Delay) {
output.delay = cmd_byte & 0x7F;
}
return output;
}
ZsmCommand::~ZsmCommand() {
switch (id) {
case ExtCmd: {
if (extcmd.channel == 1) {
if (extcmd.expansion.write_bytes != NULL) {
free(extcmd.expansion.write_bytes);
}
} else {
free(extcmd.pcm);
}
} break;
case FmWrite: {
free(fm_write.regs);
}
}
}
void ZsmBackend::seek_internal(double position, bool loop) {
this->position = std::floor(this->position * PSG_FREQ) / PSG_FREQ;
position = std::floor(position * PSG_FREQ) / PSG_FREQ;
if (this->position > position) {
switch_stream(0);
file->seek(music_data_start, SeekType::SET);
this->cpuClocks = 0.0;
this->delayTicks = 0;
this->ticks = 0.0;
this->position = 0.0;
} else if (this->position == position) {
audio_buf.clear();
return;
}
while (this->position < position) {
audio_buf.clear();
try {
tick(false);
} catch (std::exception) {
switch_stream(0);
file->seek(music_data_start, SeekType::SET);
this->cpuClocks = 0.0;
this->delayTicks = 0;
this->ticks = 0.0;
this->position = 0.0;
audio_buf.clear();
return;
}
}
size_t samples = std::min((size_t)((this->position - position) * PSG_FREQ), audio_buf.size());
while (samples--) {
audio_buf.pop();
}
this->position = position;
}
void ZsmBackend::seek(double position) {
seek_internal(position, false);
}
double ZsmBackend::get_position() {
return position;
}
int ZsmBackend::get_stream_idx() {
return 0;
}
void ZsmBackend::audio_step(size_t samples) {
if (samples == 0) return;
while (remain != 0 && pcm_fifo_avail() < samples) {
if (pcm_read_rate() == 0) break;
if ((--remain) == 0) {
if (islooped) {
cur = loop;
remain = loop_rem;
} else {
break;
}
}
size_t oldpos = file->get_pos();
uint8_t sample = audio_sample[cur++];
pcm_write_fifo(sample);
}
samples *= 2;
int16_t *psg_ptr = psg_buf.get_item_sized<int16_t>(samples);
int16_t *pcm_ptr = pcm_buf.get_item_sized<int16_t>(samples);
psg_render(psg_ptr, samples / 2);
pcm_render(pcm_ptr, samples / 2);
int16_t *out_ptr = out_buf.get_item_sized<int16_t>(samples);
// The exact amount of samples needed for the stream.
double ratio = ((double)YM_FREQ) / ((double)PSG_FREQ);
size_t needed_samples = ((size_t)std::floor(samples * ratio)) / 2;
int16_t *ym_ptr = ym_buf.get_item_sized<int16_t>(needed_samples * 2);
YM_stream_update(ym_ptr, needed_samples);
assert(SDL_AudioStreamPut(fm_stream, ym_ptr, needed_samples * 2 * sizeof(int16_t)) == 0);
while (SDL_AudioStreamAvailable(fm_stream) < ((samples + 2) * sizeof(int16_t))) {
YM_stream_update(ym_ptr, 1);
assert(SDL_AudioStreamPut(fm_stream, ym_ptr, 2 * sizeof(int16_t)) == 0);
}
int16_t *ym_resample_ptr = ym_resample_buf.get_item_sized<int16_t>(samples);
ssize_t ym_resample_len = SDL_AudioStreamGet(fm_stream, ym_resample_ptr, (samples + 2) * sizeof(int16_t));
assert(ym_resample_len >= 0);
ym_resample_len /= sizeof(int16_t);
for (size_t i = 0; i < samples / 2; i++) {
size_t j = i * 2;
int16_t psg[2] = {(int16_t)(psg_ptr[j] >> 1), (int16_t)(psg_ptr[j + 1] >> 1)};
int16_t pcm[2] = {(int16_t)(pcm_ptr[j] >> 2), (int16_t)(pcm_ptr[j + 1] >> 2)};
if (!pcm_enable()) memset(pcm, 0, sizeof(pcm));
if (!psg_enable()) memset(psg, 0, sizeof(psg));
pcm[0] *= pcm_volume();
pcm[1] *= pcm_volume();
psg[0] *= psg_volume();
psg[1] *= psg_volume();
int16_t vera[2] = {(int16_t)(psg[0] + pcm[0]), (int16_t)(psg[1] + pcm[1])};
int16_t fm[2] = {ym_resample_ptr[j], ym_resample_ptr[j + 1]};
if (!fm_enable()) memset(fm, 0, sizeof(fm));
fm[0] *= fm_volume();
fm[1] *= fm_volume();
int16_t mix[2] = {(int16_t)(vera[0] + (fm[0] >> 1)), (int16_t)(vera[1] + (fm[1] >> 1))};
out_ptr[j++] = mix[0];
out_ptr[j++] = mix[1];
}
audio_buf.push(out_ptr, samples);
}

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#pragma once
#include "playback_backend.hpp"
#include <omp.h>
#include <cstdint>
#include <stddef.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include <streambuf>
#include <vector>
#include <util.hpp>
#include <SDL.h>
#include "file_backend.hpp"
class FluidSynthBackend : public PlaybackBackend {
File *file;
void seek_internal(double position, bool loop = true);
std::vector<Property> fluidsynth_properties;
fluid_settings_t *settings;
void fluidsynth_get_property_list(const char *name, int type);
public:
uint64_t get_min_samples() override;
void set_fluidsynth_property_str(std::string path, std::string val);
void set_fluidsynth_property_num(std::string path, double val);
void set_fluidsynth_property_int(std::string path, int val);
std::string get_fluidsynth_property_str(std::string path);
double get_fluidsynth_property_num(std::string path);
int get_fluidsynth_property_int(std::string path);
std::optional<uint64_t> get_max_samples() override;
inline std::string get_id() override {
return "fluidsynth";
}
inline std::string get_name() override {
return "MIDI player";
}
std::vector<Property> get_property_list() override;
void seek(double position) override;
void load(const char *filename) override;
void switch_stream(int idx) override;
void cleanup() override;
int get_stream_idx() override;
size_t render(void *buf, size_t maxlen) override;
double get_position() override;
inline double get_length() override {
return length;
}
inline ~ZsmBackend() override { }
};

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@ -205,17 +205,11 @@ void ZsmBackend::tick(bool step) {
} break;
case FmWrite: {
for (uint8_t i = 0; i < cmd.fm_write.len; i++) {
YM_write_reg(cmd.fm_write.regs[i].reg, cmd.fm_write.regs[i].val);
while (YM_read_status()) {
size_t clocksToAddForYm = 1;
ticks_remaining -= clocksToAddForYm;
if (ticks_remaining < 0) {
delayTicks -= 1;
nextCpuClocks += ClocksPerTick;
ticks_remaining += ClocksPerTick;
}
audio_step(clocksToAddForYm);
}
DEBUG.writefln2("YM Pair index: {0}", ym_pairs.size());
reg_pair pair;
memcpy(&pair, cmd.fm_write.regs + i, sizeof(reg_pair));
ym_pairs.push(pair);
DEBUG.writefln2("Writing {1} to FM reg {0} later.", pair.reg, pair.val);
}
} break;
case Delay: {
@ -262,6 +256,20 @@ void ZsmBackend::tick(bool step) {
} break;
}
}
while (ym_pairs.size() > 0) {
reg_pair pair = ym_pairs.pop();
YM_write_reg(pair.reg, pair.val);
while (YM_read_status()) {
size_t clocksToAddForYm = (size_t)std::ceil(((double)YM_FREQ)/((double)PSG_FREQ));
ticks_remaining -= clocksToAddForYm;
if (ticks_remaining < 0) {
delayTicks -= 1;
nextCpuClocks += ClocksPerTick;
ticks_remaining += ClocksPerTick;
}
audio_step(clocksToAddForYm);
}
}
size_t nextCpuClocksInt = std::floor(nextCpuClocks);
size_t prevCpuClocksInt = std::floor(prevCpuClocks);
size_t cpuClocksIntDelta = nextCpuClocksInt - prevCpuClocksInt;

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@ -81,6 +81,7 @@ class ZsmBackend : public PlaybackBackend {
DynPtr ym_resample_buf;
bool ym_recorded = false;
uint8_t ym_data[256];
Fifo<reg_pair> ym_pairs;
uint32_t loop_rem;
uint32_t pcm_data_offs;
uint8_t pcm_data_instruments;

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@ -0,0 +1,329 @@
<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="DeviceStreaming">
<option name="deviceSelectionList">
<list>
<PersistentDeviceSelectionData>
<option name="api" value="27" />
<option name="brand" value="DOCOMO" />
<option name="codename" value="F01L" />
<option name="id" value="F01L" />
<option name="manufacturer" value="FUJITSU" />
<option name="name" value="F-01L" />
<option name="screenDensity" value="360" />
<option name="screenX" value="720" />
<option name="screenY" value="1280" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="28" />
<option name="brand" value="DOCOMO" />
<option name="codename" value="SH-01L" />
<option name="id" value="SH-01L" />
<option name="manufacturer" value="SHARP" />
<option name="name" value="AQUOS sense2 SH-01L" />
<option name="screenDensity" value="480" />
<option name="screenX" value="1080" />
<option name="screenY" value="2160" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="34" />
<option name="brand" value="Lenovo" />
<option name="codename" value="TB370FU" />
<option name="id" value="TB370FU" />
<option name="manufacturer" value="Lenovo" />
<option name="name" value="Tab P12" />
<option name="screenDensity" value="340" />
<option name="screenX" value="1840" />
<option name="screenY" value="2944" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="31" />
<option name="brand" value="samsung" />
<option name="codename" value="a51" />
<option name="id" value="a51" />
<option name="manufacturer" value="Samsung" />
<option name="name" value="Galaxy A51" />
<option name="screenDensity" value="420" />
<option name="screenX" value="1080" />
<option name="screenY" value="2400" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="34" />
<option name="brand" value="google" />
<option name="codename" value="akita" />
<option name="id" value="akita" />
<option name="manufacturer" value="Google" />
<option name="name" value="Pixel 8a" />
<option name="screenDensity" value="420" />
<option name="screenX" value="1080" />
<option name="screenY" value="2400" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="33" />
<option name="brand" value="samsung" />
<option name="codename" value="b0q" />
<option name="id" value="b0q" />
<option name="manufacturer" value="Samsung" />
<option name="name" value="Galaxy S22 Ultra" />
<option name="screenDensity" value="600" />
<option name="screenX" value="1440" />
<option name="screenY" value="3088" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="32" />
<option name="brand" value="google" />
<option name="codename" value="bluejay" />
<option name="id" value="bluejay" />
<option name="manufacturer" value="Google" />
<option name="name" value="Pixel 6a" />
<option name="screenDensity" value="420" />
<option name="screenX" value="1080" />
<option name="screenY" value="2400" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="34" />
<option name="brand" value="google" />
<option name="codename" value="caiman" />
<option name="id" value="caiman" />
<option name="manufacturer" value="Google" />
<option name="name" value="Pixel 9 Pro" />
<option name="screenDensity" value="360" />
<option name="screenX" value="960" />
<option name="screenY" value="2142" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="34" />
<option name="brand" value="google" />
<option name="codename" value="comet" />
<option name="id" value="comet" />
<option name="manufacturer" value="Google" />
<option name="name" value="Pixel 9 Pro Fold" />
<option name="screenDensity" value="390" />
<option name="screenX" value="2076" />
<option name="screenY" value="2152" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="29" />
<option name="brand" value="samsung" />
<option name="codename" value="crownqlteue" />
<option name="id" value="crownqlteue" />
<option name="manufacturer" value="Samsung" />
<option name="name" value="Galaxy Note9" />
<option name="screenDensity" value="420" />
<option name="screenX" value="2220" />
<option name="screenY" value="1080" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="34" />
<option name="brand" value="samsung" />
<option name="codename" value="dm3q" />
<option name="id" value="dm3q" />
<option name="manufacturer" value="Samsung" />
<option name="name" value="Galaxy S23 Ultra" />
<option name="screenDensity" value="600" />
<option name="screenX" value="1440" />
<option name="screenY" value="3088" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="34" />
<option name="brand" value="samsung" />
<option name="codename" value="e1q" />
<option name="id" value="e1q" />
<option name="manufacturer" value="Samsung" />
<option name="name" value="Galaxy S24" />
<option name="screenDensity" value="480" />
<option name="screenX" value="1080" />
<option name="screenY" value="2340" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="33" />
<option name="brand" value="google" />
<option name="codename" value="felix" />
<option name="id" value="felix" />
<option name="manufacturer" value="Google" />
<option name="name" value="Pixel Fold" />
<option name="screenDensity" value="420" />
<option name="screenX" value="2208" />
<option name="screenY" value="1840" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="34" />
<option name="brand" value="google" />
<option name="codename" value="felix" />
<option name="id" value="felix" />
<option name="manufacturer" value="Google" />
<option name="name" value="Pixel Fold" />
<option name="screenDensity" value="420" />
<option name="screenX" value="2208" />
<option name="screenY" value="1840" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="33" />
<option name="brand" value="google" />
<option name="codename" value="felix_camera" />
<option name="id" value="felix_camera" />
<option name="manufacturer" value="Google" />
<option name="name" value="Pixel Fold (Camera-enabled)" />
<option name="screenDensity" value="420" />
<option name="screenX" value="2208" />
<option name="screenY" value="1840" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="33" />
<option name="brand" value="samsung" />
<option name="codename" value="gts8uwifi" />
<option name="id" value="gts8uwifi" />
<option name="manufacturer" value="Samsung" />
<option name="name" value="Galaxy Tab S8 Ultra" />
<option name="screenDensity" value="320" />
<option name="screenX" value="1848" />
<option name="screenY" value="2960" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="34" />
<option name="brand" value="google" />
<option name="codename" value="husky" />
<option name="id" value="husky" />
<option name="manufacturer" value="Google" />
<option name="name" value="Pixel 8 Pro" />
<option name="screenDensity" value="390" />
<option name="screenX" value="1008" />
<option name="screenY" value="2244" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="30" />
<option name="brand" value="motorola" />
<option name="codename" value="java" />
<option name="id" value="java" />
<option name="manufacturer" value="Motorola" />
<option name="name" value="G20" />
<option name="screenDensity" value="280" />
<option name="screenX" value="720" />
<option name="screenY" value="1600" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="34" />
<option name="brand" value="google" />
<option name="codename" value="komodo" />
<option name="id" value="komodo" />
<option name="manufacturer" value="Google" />
<option name="name" value="Pixel 9 Pro XL" />
<option name="screenDensity" value="360" />
<option name="screenX" value="1008" />
<option name="screenY" value="2244" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="33" />
<option name="brand" value="google" />
<option name="codename" value="lynx" />
<option name="id" value="lynx" />
<option name="manufacturer" value="Google" />
<option name="name" value="Pixel 7a" />
<option name="screenDensity" value="420" />
<option name="screenX" value="1080" />
<option name="screenY" value="2400" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="31" />
<option name="brand" value="google" />
<option name="codename" value="oriole" />
<option name="id" value="oriole" />
<option name="manufacturer" value="Google" />
<option name="name" value="Pixel 6" />
<option name="screenDensity" value="420" />
<option name="screenX" value="1080" />
<option name="screenY" value="2400" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="33" />
<option name="brand" value="google" />
<option name="codename" value="panther" />
<option name="id" value="panther" />
<option name="manufacturer" value="Google" />
<option name="name" value="Pixel 7" />
<option name="screenDensity" value="420" />
<option name="screenX" value="1080" />
<option name="screenY" value="2400" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="34" />
<option name="brand" value="samsung" />
<option name="codename" value="q5q" />
<option name="id" value="q5q" />
<option name="manufacturer" value="Samsung" />
<option name="name" value="Galaxy Z Fold5" />
<option name="screenDensity" value="420" />
<option name="screenX" value="1812" />
<option name="screenY" value="2176" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="34" />
<option name="brand" value="samsung" />
<option name="codename" value="q6q" />
<option name="id" value="q6q" />
<option name="manufacturer" value="Samsung" />
<option name="name" value="SM-F956B" />
<option name="screenDensity" value="420" />
<option name="screenX" value="1856" />
<option name="screenY" value="2160" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="30" />
<option name="brand" value="google" />
<option name="codename" value="r11" />
<option name="id" value="r11" />
<option name="manufacturer" value="Google" />
<option name="name" value="Pixel Watch" />
<option name="screenDensity" value="320" />
<option name="screenX" value="384" />
<option name="screenY" value="384" />
<option name="type" value="WEAR_OS" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="30" />
<option name="brand" value="google" />
<option name="codename" value="redfin" />
<option name="id" value="redfin" />
<option name="manufacturer" value="Google" />
<option name="name" value="Pixel 5" />
<option name="screenDensity" value="440" />
<option name="screenX" value="1080" />
<option name="screenY" value="2340" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="34" />
<option name="brand" value="google" />
<option name="codename" value="shiba" />
<option name="id" value="shiba" />
<option name="manufacturer" value="Google" />
<option name="name" value="Pixel 8" />
<option name="screenDensity" value="420" />
<option name="screenX" value="1080" />
<option name="screenY" value="2400" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="33" />
<option name="brand" value="google" />
<option name="codename" value="tangorpro" />
<option name="id" value="tangorpro" />
<option name="manufacturer" value="Google" />
<option name="name" value="Pixel Tablet" />
<option name="screenDensity" value="320" />
<option name="screenX" value="1600" />
<option name="screenY" value="2560" />
</PersistentDeviceSelectionData>
<PersistentDeviceSelectionData>
<option name="api" value="34" />
<option name="brand" value="google" />
<option name="codename" value="tokay" />
<option name="id" value="tokay" />
<option name="manufacturer" value="Google" />
<option name="name" value="Pixel 9" />
<option name="screenDensity" value="420" />
<option name="screenX" value="1080" />
<option name="screenY" value="2424" />
</PersistentDeviceSelectionData>
</list>
</option>
</component>
</project>

View file

@ -1,6 +1,6 @@
<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="CompilerConfiguration">
<bytecodeTargetLevel target="17" />
<bytecodeTargetLevel target="21" />
</component>
</project>

View file

@ -0,0 +1,10 @@
<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="deploymentTargetSelector">
<selectionStates>
<SelectionState runConfigName="app">
<option name="selectionMode" value="DROPDOWN" />
</SelectionState>
</selectionStates>
</component>
</project>

View file

@ -5,7 +5,7 @@
<option name="linkedExternalProjectsSettings">
<GradleProjectSettings>
<option name="externalProjectPath" value="$PROJECT_DIR$" />
<option name="gradleJvm" value="#GRADLE_LOCAL_JAVA_HOME" />
<option name="gradleJvm" value="temurin-21" />
<option name="modules">
<set>
<option value="$PROJECT_DIR$" />

View file

@ -1,7 +1,6 @@
<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="ExternalStorageConfigurationManager" enabled="true" />
<component name="ProjectRootManager" version="2" languageLevel="JDK_17" default="true" project-jdk-name="jbr-17" project-jdk-type="JavaSDK">
<component name="ProjectRootManager" version="2" languageLevel="JDK_21" default="true" project-jdk-name="temurin-21" project-jdk-type="JavaSDK">
<output url="file://$PROJECT_DIR$/build/classes" />
</component>
<component name="ProjectType">

View file

@ -27,7 +27,7 @@ android {
def revParseStdout = new ByteArrayOutputStream();
def versionNameData = ""
exec {
commandLine "git", "rev-parse", "--abbrev-rev", "HEAD"
commandLine "git", "rev-parse", "--abbrev-ref", "HEAD"
standardOutput revParseStdout
}
versionNameData = revParseStdout.toString() + "-"

View file

@ -6,7 +6,7 @@ buildscript {
google()
}
dependencies {
classpath 'com.android.tools.build:gradle:8.3.2'
classpath 'com.android.tools.build:gradle:8.6.1'
// NOTE: Do not place your application dependencies here; they belong
// in the individual module build.gradle files

View file

@ -1,6 +1,6 @@
#Thu Nov 11 18:20:34 PST 2021
distributionBase=GRADLE_USER_HOME
distributionUrl=https\://services.gradle.org/distributions/gradle-8.4-bin.zip
distributionUrl=https\://services.gradle.org/distributions/gradle-8.7-bin.zip
distributionPath=wrapper/dists
zipStorePath=wrapper/dists
zipStoreBase=GRADLE_USER_HOME