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bsnes/higan/sfc/cartridge/markup.cpp
Tim Allen d59ae34e12 Update to higan v091r14 and ananke v00r03 releases. 
byuu says:

higan changelog:
- generates title displayed in emulator window by asking the core
- core builds title solely from "information/title" ... if it's not
  there, you don't get a title at all
- sub-system load menu is gone ... since there are multiple revisions of
  the SGB, this never really worked well anyway
- to load an SGB, BS-X or ST cartridge, load the base cartridge first
- "File->Load Game" moved to "Load->Import Game" ... may cause a bit of
  confusion to new users, but I don't like having a single-item menu,
  we'll just have to explain it to new users
- browser window redone to look like ananke
  - home button here goes to ~/Emulation rather than just ~ like ananke,
    since this is the home of game folders
  - game folder icon is now the executable icon for the Tango theme
    (orange diamond), meant to represent a complete game rather than
    a game file or archive

ananke changelog:
- outputs GBC games to "Game Boy Color/" instead of "Game Boy/"
- adds the file basename to "information/title"

Known issues:
- using ananke to load a GB game trips the Super Famicom SGB mode and
  fails (need to make the full-path auto-detection ignore non-bootable
  systems)
- need to dump and test some BS-X media before releasing
- ananke lacks BS-X Satellaview cartridge support
- v092 isn't going to let you retarget the ananke/higan game folder path
  of ~/Emulation, you will have to wait for a future version if that
  bothers you so greatly

[Later, after the v092 release, byuu posted this additional changelog:
    - kill laevateinn
    - add title()
    - add bootable, remove load
    - combine file, library
    - combine [][][] paths
    - fix SFC subtype handling XML->BML
    - update file browser to use buttons
    - update file browser keyboard handling
    - update system XML->BML
    - fix sufami turbo hashing
    - remove Cartridge::manifest
]
2013-01-14 23:13:48 +11:00

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#ifdef CARTRIDGE_CPP
void Cartridge::parse_markup(const char *markup) {
auto document = Markup::Document(markup);
auto cartridge = document["cartridge"];
auto information = document["information"];
region = cartridge["region"].data != "PAL" ? Region::NTSC : Region::PAL;
this->information.title.cartridge = information["title"].text();
mapping.reset();
parse_markup_cartridge(cartridge);
parse_markup_icd2(cartridge["icd2"]);
parse_markup_bsx(cartridge["bsx"]);
parse_markup_bsxslot(cartridge["bsxslot"]);
parse_markup_sufamiturbo(cartridge["sufamiturbo"]);
parse_markup_nss(cartridge["nss"]);
parse_markup_event(cartridge["event"]);
parse_markup_sa1(cartridge["sa1"]);
parse_markup_superfx(cartridge["superfx"]);
parse_markup_armdsp(cartridge["armdsp"]);
parse_markup_hitachidsp(cartridge["hitachidsp"], cartridge["board/type"].data.wildcard("2DC*") ? 2 : 1);
parse_markup_necdsp(cartridge["necdsp"]);
parse_markup_epsonrtc(cartridge["epsonrtc"]);
parse_markup_sharprtc(cartridge["sharprtc"]);
parse_markup_spc7110(cartridge["spc7110"]);
parse_markup_sdd1(cartridge["sdd1"]);
parse_markup_obc1(cartridge["obc1"]);
parse_markup_hsu1(cartridge["hsu1"]);
parse_markup_msu1(cartridge["msu1"]);
}
//
void Cartridge::parse_markup_map(Mapping &m, Markup::Node map) {
m.addr = map["address"].data;
m.size = numeral(map["size"].data);
m.base = numeral(map["base"].data);
m.mask = numeral(map["mask"].data);
}
void Cartridge::parse_markup_memory(MappedRAM &ram, Markup::Node node, unsigned id, bool writable) {
string name = node["name"].data;
unsigned size = numeral(node["size"].data);
ram.map(allocate<uint8>(size, 0xff), size);
if(name.empty() == false) {
interface->loadRequest(id, name);
if(writable) memory.append({id, name});
}
}
//
void Cartridge::parse_markup_cartridge(Markup::Node root) {
if(root.exists() == false) return;
parse_markup_memory(rom, root["rom"], ID::ROM, false);
parse_markup_memory(ram, root["ram"], ID::RAM, true);
for(auto &node : root) {
if(node.name != "map") continue;
if(node["id"].data == "rom") {
Mapping m(rom);
parse_markup_map(m, node);
if(m.size == 0) m.size = rom.size();
mapping.append(m);
}
if(node["id"].data == "ram") {
Mapping m(ram);
parse_markup_map(m, node);
if(m.size == 0) m.size = ram.size();
mapping.append(m);
}
}
}
void Cartridge::parse_markup_icd2(Markup::Node root) {
if(root.exists() == false) return;
has_gb_slot = true;
icd2.revision = max(1, numeral(root["revision"].data));
interface->loadRequest(ID::SuperGameBoy, "Game Boy", "gb");
string bootROMName = root["rom"]["name"].data;
interface->loadRequest(ID::SuperGameBoyBootROM, bootROMName);
for(auto &node : root) {
if(node.name != "map") continue;
if(node["id"].data == "io") {
Mapping m({&ICD2::read, &icd2}, {&ICD2::write, &icd2});
parse_markup_map(m, node);
mapping.append(m);
}
}
}
void Cartridge::parse_markup_bsx(Markup::Node root) {
if(root.exists() == false) return;
has_bs_cart = true;
has_bs_slot = true;
interface->loadRequest(ID::Satellaview, "BS-X Satellaview", "bs");
parse_markup_memory(bsxcartridge.rom, root["rom"], ID::BsxROM, false);
parse_markup_memory(bsxcartridge.ram, root["ram"], ID::BsxRAM, true);
parse_markup_memory(bsxcartridge.psram, root["psram"], ID::BsxPSRAM, true);
for(auto &node : root) {
if(node.name != "map") continue;
if(node["id"].data == "rom"
|| node["id"].data == "ram") {
Mapping m({&BSXCartridge::mcu_read, &bsxcartridge}, {&BSXCartridge::mcu_write, &bsxcartridge});
parse_markup_map(m, node);
mapping.append(m);
}
if(node["id"].data == "io") {
Mapping m({&BSXCartridge::mmio_read, &bsxcartridge}, {&BSXCartridge::mmio_write, &bsxcartridge});
parse_markup_map(m, node);
mapping.append(m);
}
}
}
void Cartridge::parse_markup_bsxslot(Markup::Node root) {
if(root.exists() == false) return;
has_bs_slot = true;
interface->loadRequest(ID::Satellaview, "BS-X Satellaview", "bs");
for(auto &node : root) {
if(node.name != "map") continue;
if(node["id"].data == "rom") {
if(bsxflash.memory.size() == 0) continue;
Mapping m(bsxflash.memory);
parse_markup_map(m, node);
mapping.append(m);
}
}
}
void Cartridge::parse_markup_sufamiturbo(Markup::Node root) {
if(root.exists() == false) return;
has_st_slots = true;
//load required slot A (will request slot B if slot A cartridge is linkable)
interface->loadRequest(ID::SufamiTurboSlotA, "Sufami Turbo - Slot A", "st");
for(auto &slot : root) {
if(slot.name != "slot") continue;
bool slotid = slot["id"].data == "A" ? 0 : slot["id"].data == "B" ? 1 : 0;
for(auto &node : slot) {
if(node.name != "map") continue;
if(node["id"].data == "rom") {
SuperFamicom::Memory &memory = slotid == 0 ? sufamiturbo.slotA.rom : sufamiturbo.slotB.rom;
if(memory.size() == 0) continue;
Mapping m(memory);
parse_markup_map(m, node);
if(m.size == 0) m.size = memory.size();
if(m.size) mapping.append(m);
}
if(node["id"].data == "ram") {
SuperFamicom::Memory &memory = slotid == 0 ? sufamiturbo.slotA.ram : sufamiturbo.slotB.ram;
if(memory.size() == 0) continue;
Mapping m(memory);
parse_markup_map(m, node);
if(m.size == 0) m.size = memory.size();
if(m.size) mapping.append(m);
}
}
}
}
void Cartridge::parse_markup_nss(Markup::Node root) {
if(root.exists() == false) return;
has_nss_dip = true;
nss.dip = interface->dipSettings(root);
for(auto &node : root) {
if(node.name != "map") continue;
if(node["id"].data == "io") {
Mapping m({&NSS::read, &nss}, {&NSS::write, &nss});
parse_markup_map(m, node);
mapping.append(m);
}
}
}
void Cartridge::parse_markup_event(Markup::Node root) {
if(root.exists() == false) return;
has_event = true;
for(auto &node : root) {
if(node.name != "rom") continue;
unsigned id = numeral(node["id"].data);
if(id > 3) continue;
parse_markup_memory(event.rom[id], node, ID::EventROM0 + id, false);
}
parse_markup_memory(event.ram, root["ram"], ID::EventRAM, true);
event.board = Event::Board::CampusChallenge92;
if(root["name"].data == "Campus Challenge '92") event.board = Event::Board::CampusChallenge92;
if(root["name"].data == "Powerfest '94") event.board = Event::Board::Powerfest94;
event.revision = root["revision"].data == "B" ? 2 : 1;
lstring part = root["timer"].data.split<1>(":");
if(part.size() == 1) event.timer = decimal(part(0));
if(part.size() == 2) event.timer = decimal(part(0)) * 60 + decimal(part(1));
for(auto &node : root) {
if(node.name != "map") continue;
if(node["id"].data == "rom") {
Mapping m({&Event::rom_read, &event}, [](unsigned, uint8) {});
parse_markup_map(m, node);
mapping.append(m);
}
if(node["id"].data == "ram") {
Mapping m({&Event::ram_read, &event}, {&Event::ram_write, &event});
parse_markup_map(m, node);
mapping.append(m);
}
if(node["id"].data == "dr") {
Mapping m([](unsigned) -> uint8 { return cpu.regs.mdr; }, {&Event::dr, &event});
parse_markup_map(m, node);
mapping.append(m);
}
if(node["id"].data == "sr") {
Mapping m({&Event::sr, &event}, [](unsigned, uint8) {});
parse_markup_map(m, node);
mapping.append(m);
}
}
}
void Cartridge::parse_markup_sa1(Markup::Node root) {
if(root.exists() == false) return;
has_sa1 = true;
parse_markup_memory(sa1.rom, root["rom"], ID::SA1ROM, false);
parse_markup_memory(sa1.bwram, root["ram(id=bitmap)"], ID::SA1BWRAM, true);
parse_markup_memory(sa1.iram, root["ram(id=internal)"], ID::SA1IRAM, true);
for(auto &node : root) {
if(node.name != "map") continue;
if(node["id"].data == "io") {
Mapping m({&SA1::mmio_read, &sa1}, {&SA1::mmio_write, &sa1});
parse_markup_map(m, node);
mapping.append(m);
}
if(node["id"].data == "rom") {
Mapping m({&SA1::mmcrom_read, &sa1}, {&SA1::mmcrom_write, &sa1});
parse_markup_map(m, node);
mapping.append(m);
}
if(node["id"].data == "bwram") {
Mapping m({&SA1::mmcbwram_read, &sa1}, {&SA1::mmcbwram_write, &sa1});
parse_markup_map(m, node);
mapping.append(m);
}
if(node["id"].data == "iram") {
Mapping m(sa1.cpuiram);
parse_markup_map(m, node);
if(m.size == 0) m.size = sa1.cpuiram.size();
mapping.append(m);
}
}
}
void Cartridge::parse_markup_superfx(Markup::Node root) {
if(root.exists() == false) return;
has_superfx = true;
parse_markup_memory(superfx.rom, root["rom"], ID::SuperFXROM, false);
parse_markup_memory(superfx.ram, root["ram"], ID::SuperFXRAM, true);
for(auto &node : root) {
if(node.name != "map") continue;
if(node["id"].data == "io") {
Mapping m({&SuperFX::mmio_read, &superfx}, {&SuperFX::mmio_write, &superfx});
parse_markup_map(m, node);
mapping.append(m);
}
if(node["id"].data == "rom") {
Mapping m(superfx.cpurom);
parse_markup_map(m, node);
if(m.size == 0) m.size = superfx.rom.size();
mapping.append(m);
}
if(node["id"].data == "ram") {
Mapping m(superfx.cpuram);
parse_markup_map(m, node);
if(m.size == 0) m.size = superfx.ram.size();
mapping.append(m);
}
}
}
void Cartridge::parse_markup_armdsp(Markup::Node root) {
if(root.exists() == false) return;
has_armdsp = true;
string programROMName = root["rom(id=program)/name"].data;
string dataROMName = root["rom(id=data)/name"].data;
string dataRAMName = root["ram(id=data)/name"].data;
interface->loadRequest(ID::ArmDSPPROM, programROMName);
interface->loadRequest(ID::ArmDSPDROM, dataROMName);
if(dataRAMName.empty() == false) {
interface->loadRequest(ID::ArmDSPRAM, dataRAMName);
memory.append({ID::ArmDSPRAM, dataRAMName});
}
for(auto &node : root) {
if(node.name != "map") continue;
if(node["id"].data == "io") {
Mapping m({&ArmDSP::mmio_read, &armdsp}, {&ArmDSP::mmio_write, &armdsp});
parse_markup_map(m, node);
mapping.append(m);
}
}
}
void Cartridge::parse_markup_hitachidsp(Markup::Node root, unsigned roms) {
if(root.exists() == false) return;
has_hitachidsp = true;
for(auto &n : hitachidsp.dataROM) hitachidsp.dataROM[n] = 0x000000;
for(auto &n : hitachidsp.dataRAM) hitachidsp.dataRAM[n] = 0x00;
hitachidsp.Frequency = numeral(root["frequency"].data);
if(hitachidsp.Frequency == 0) hitachidsp.frequency = 20000000;
hitachidsp.Roms = roms;
string dataROMName = root["rom(id=data)/name"].data;
string dataRAMName = root["ram(id=data)/name"].data;
interface->loadRequest(ID::HitachiDSPDROM, dataROMName);
if(dataRAMName.empty() == false) {
interface->loadRequest(ID::HitachiDSPDRAM, dataRAMName);
}
parse_markup_memory(hitachidsp.rom, root["rom(id=program)"], ID::HitachiDSPROM, false);
parse_markup_memory(hitachidsp.ram, root["ram(id=program)"], ID::HitachiDSPRAM, true);
for(auto &node : root) {
if(node.name != "map") continue;
if(node["id"].data == "io") {
Mapping m({&HitachiDSP::dsp_read, &hitachidsp}, {&HitachiDSP::dsp_write, &hitachidsp});
parse_markup_map(m, node);
mapping.append(m);
}
if(node["id"].data == "rom") {
Mapping m({&HitachiDSP::rom_read, &hitachidsp}, {&HitachiDSP::rom_write, &hitachidsp});
parse_markup_map(m, node);
if(m.size == 0) m.size = hitachidsp.rom.size();
mapping.append(m);
}
if(node["id"].data == "ram") {
Mapping m({&HitachiDSP::ram_read, &hitachidsp}, {&HitachiDSP::ram_write, &hitachidsp});
parse_markup_map(m, node);
if(m.size == 0) m.size = hitachidsp.ram.size();
mapping.append(m);
}
}
}
void Cartridge::parse_markup_necdsp(Markup::Node root) {
if(root.exists() == false) return;
has_necdsp = true;
for(auto &n : necdsp.programROM) n = 0x000000;
for(auto &n : necdsp.dataROM) n = 0x0000;
for(auto &n : necdsp.dataRAM) n = 0x0000;
necdsp.frequency = numeral(root["frequency"].data);
if(necdsp.frequency == 0) necdsp.frequency = 8000000;
necdsp.revision
= root["model"].data == "uPD7725" ? NECDSP::Revision::uPD7725
: root["model"].data == "uPD96050" ? NECDSP::Revision::uPD96050
: NECDSP::Revision::uPD7725;
string programROMName = root["rom(id=program)/name"].data;
string dataROMName = root["rom(id=data)/name"].data;
string dataRAMName = root["ram(id=data)/name"].data;
if(necdsp.revision == NECDSP::Revision::uPD7725) {
interface->loadRequest(ID::Nec7725DSPPROM, programROMName);
interface->loadRequest(ID::Nec7725DSPDROM, dataROMName);
if(dataRAMName.empty() == false) {
interface->loadRequest(ID::Nec7725DSPRAM, dataRAMName);
memory.append({ID::Nec7725DSPRAM, dataRAMName});
}
}
if(necdsp.revision == NECDSP::Revision::uPD96050) {
interface->loadRequest(ID::Nec96050DSPPROM, programROMName);
interface->loadRequest(ID::Nec96050DSPDROM, dataROMName);
if(dataRAMName.empty() == false) {
interface->loadRequest(ID::Nec96050DSPRAM, dataRAMName);
memory.append({ID::Nec96050DSPRAM, dataRAMName});
}
}
for(auto &node : root) {
if(node.name != "map") continue;
if(node["id"].data == "io") {
Mapping m({&NECDSP::read, &necdsp}, {&NECDSP::write, &necdsp});
parse_markup_map(m, node);
mapping.append(m);
necdsp.Select = numeral(node["select"].data);
}
if(node["id"].data == "ram") {
Mapping m({&NECDSP::ram_read, &necdsp}, {&NECDSP::ram_write, &necdsp});
parse_markup_map(m, node);
mapping.append(m);
}
}
}
void Cartridge::parse_markup_epsonrtc(Markup::Node root) {
if(root.exists() == false) return;
has_epsonrtc = true;
string name = root["ram"]["name"].data;
interface->loadRequest(ID::EpsonRTC, name);
memory.append({ID::EpsonRTC, name});
for(auto &node : root) {
if(node.name != "map") continue;
if(node["id"].data == "io") {
Mapping m({&EpsonRTC::read, &epsonrtc}, {&EpsonRTC::write, &epsonrtc});
parse_markup_map(m, node);
mapping.append(m);
}
}
}
void Cartridge::parse_markup_sharprtc(Markup::Node root) {
if(root.exists() == false) return;
has_sharprtc = true;
string name = root["ram"]["name"].data;
interface->loadRequest(ID::SharpRTC, name);
memory.append({ID::SharpRTC, name});
for(auto &node : root) {
if(node.name != "map") continue;
if(node["id"].data == "io") {
Mapping m({&SharpRTC::read, &sharprtc}, {&SharpRTC::write, &sharprtc});
parse_markup_map(m, node);
mapping.append(m);
}
}
}
void Cartridge::parse_markup_spc7110(Markup::Node root) {
if(root.exists() == false) return;
has_spc7110 = true;
parse_markup_memory(spc7110.prom, root["rom(id=program)"], ID::SPC7110PROM, false);
parse_markup_memory(spc7110.drom, root["rom(id=data)"], ID::SPC7110DROM, false);
parse_markup_memory(spc7110.ram, root["ram"], ID::SPC7110RAM, true);
for(auto &node : root) {
if(node.name != "map") continue;
if(node["id"].data == "io") {
Mapping m({&SPC7110::read, &spc7110}, {&SPC7110::write, &spc7110});
parse_markup_map(m, node);
mapping.append(m);
}
if(node["id"].data == "rom") {
Mapping m({&SPC7110::mcurom_read, &spc7110}, {&SPC7110::mcurom_write, &spc7110});
parse_markup_map(m, node);
mapping.append(m);
}
if(node["id"].data == "ram") {
Mapping m({&SPC7110::mcuram_read, &spc7110}, {&SPC7110::mcuram_write, &spc7110});
parse_markup_map(m, node);
mapping.append(m);
}
}
}
void Cartridge::parse_markup_sdd1(Markup::Node root) {
if(root.exists() == false) return;
has_sdd1 = true;
parse_markup_memory(sdd1.rom, root["rom"], ID::SDD1ROM, false);
parse_markup_memory(sdd1.ram, root["ram"], ID::SDD1RAM, true);
for(auto &node : root) {
if(node.name != "map") continue;
if(node["id"].data == "io") {
Mapping m({&SDD1::read, &sdd1}, {&SDD1::write, &sdd1});
parse_markup_map(m, node);
mapping.append(m);
}
if(node["id"].data == "rom") {
Mapping m({&SDD1::mcurom_read, &sdd1}, {&SDD1::mcurom_write, &sdd1});
parse_markup_map(m, node);
mapping.append(m);
}
if(node["id"].data == "ram") {
Mapping m({&SDD1::mcuram_read, &sdd1}, {&SDD1::mcuram_write, &sdd1});
parse_markup_map(m, node);
mapping.append(m);
}
}
}
void Cartridge::parse_markup_obc1(Markup::Node root) {
if(root.exists() == false) return;
has_obc1 = true;
parse_markup_memory(obc1.ram, root["ram"], ID::OBC1RAM, true);
for(auto &node : root) {
if(node.name != "map") continue;
if(node["id"].data == "io") {
Mapping m({&OBC1::read, &obc1}, {&OBC1::write, &obc1});
parse_markup_map(m, node);
mapping.append(m);
}
}
}
void Cartridge::parse_markup_hsu1(Markup::Node root) {
if(root.exists() == false) return;
has_hsu1 = true;
for(auto &node : root) {
if(node.name != "map") continue;
if(node["id"].data == "io") {
Mapping m({&HSU1::read, &hsu1}, {&HSU1::write, &hsu1});
parse_markup_map(m, node);
mapping.append(m);
}
}
}
void Cartridge::parse_markup_msu1(Markup::Node root) {
if(root.exists() == false) return;
has_msu1 = true;
for(auto &node : root) {
if(node.name != "map") continue;
if(node["id"].data == "io") {
Mapping m({&MSU1::mmio_read, &msu1}, {&MSU1::mmio_write, &msu1});
parse_markup_map(m, node);
mapping.append(m);
}
}
}
Cartridge::Mapping::Mapping() {
size = base = mask = 0;
}
Cartridge::Mapping::Mapping(SuperFamicom::Memory &memory) {
reader = {&SuperFamicom::Memory::read, &memory};
writer = {&SuperFamicom::Memory::write, &memory};
size = base = mask = 0;
}
Cartridge::Mapping::Mapping(const function<uint8 (unsigned)> &reader, const function<void (unsigned, uint8)> &writer) {
this->reader = reader;
this->writer = writer;
size = base = mask = 0;
}
#endif
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