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path: root/3rdparty/bgfx/scripts/genie.lua
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--
-- Copyright 2010-2016 Branimir Karadzic. All rights reserved.
-- License: https://github.com/bkaradzic/bgfx#license-bsd-2-clause
--

newoption {
	trigger = "with-amalgamated",
	description = "Enable amalgamated build.",
}

newoption {
	trigger = "with-ovr",
	description = "Enable OculusVR integration.",
}

newoption {
	trigger = "with-sdl",
	description = "Enable SDL entry.",
}

newoption {
	trigger = "with-glfw",
	description = "Enable GLFW entry.",
}

newoption {
	trigger = "with-profiler",
	description = "Enable build with intrusive profiler.",
}

newoption {
	trigger = "with-scintilla",
	description = "Enable building with Scintilla editor.",
}

newoption {
	trigger = "with-shared-lib",
	description = "Enable building shared library.",
}

newoption {
	trigger = "with-tools",
	description = "Enable building tools.",
}

newoption {
	trigger = "with-examples",
	description = "Enable building examples.",
}

solution "bgfx"
	configurations {
		"Debug",
		"Release",
	}

	if _ACTION == "xcode4" then
		platforms {
			"Universal",
		}
	else
		platforms {
			"x32",
			"x64",
--			"Xbox360",
			"Native", -- for targets where bitness is not specified
		}
	end

	language "C++"
	startproject "example-00-helloworld"

MODULE_DIR = path.getabsolute("../")
BGFX_DIR   = path.getabsolute("..")
BX_DIR     = os.getenv("BX_DIR")

local BGFX_BUILD_DIR = path.join(BGFX_DIR, ".build")
local BGFX_THIRD_PARTY_DIR = path.join(BGFX_DIR, "3rdparty")
if not BX_DIR then
	BX_DIR = path.getabsolute(path.join(BGFX_DIR, "../bx"))
end

if not os.isdir(BX_DIR) then
	print("bx not found at " .. BX_DIR)
	print("For more info see: https://bkaradzic.github.io/bgfx/build.html")
	os.exit()
end

defines {
	"BX_CONFIG_ENABLE_MSVC_LEVEL4_WARNINGS=1"
}

dofile (path.join(BX_DIR, "scripts/toolchain.lua"))
if not toolchain(BGFX_BUILD_DIR, BGFX_THIRD_PARTY_DIR) then
	return -- no action specified
end

function copyLib()
end

if _OPTIONS["with-sdl"] then
	if os.is("windows") then
		if not os.getenv("SDL2_DIR") then
			print("Set SDL2_DIR enviroment variable.")
		end
	end
end

if _OPTIONS["with-profiler"] then
	defines {
		"ENTRY_CONFIG_PROFILER=1",
		"BGFX_CONFIG_PROFILER_REMOTERY=1",
        "_WINSOCKAPI_"
	}
end

function exampleProject(_name)

	project ("example-" .. _name)
		uuid (os.uuid("example-" .. _name))
		kind "WindowedApp"

	configuration {}

	debugdir (path.join(BGFX_DIR, "examples/runtime"))

	includedirs {
		path.join(BX_DIR,   "include"),
		path.join(BGFX_DIR, "include"),
		path.join(BGFX_DIR, "3rdparty"),
		path.join(BGFX_DIR, "examples/common"),
	}

	files {
		path.join(BGFX_DIR, "examples", _name, "**.c"),
		path.join(BGFX_DIR, "examples", _name, "**.cpp"),
		path.join(BGFX_DIR, "examples", _name, "**.h"),
	}

	removefiles {
		path.join(BGFX_DIR, "examples", _name, "**.bin.h"),
	}

	links {
		"bgfx",
		"example-common",
	}

	if _OPTIONS["with-sdl"] then
		defines { "ENTRY_CONFIG_USE_SDL=1" }
		links   { "SDL2" }

		configuration { "osx" }
			libdirs { "$(SDL2_DIR)/lib" }

		configuration {}
	end

	if _OPTIONS["with-glfw"] then
		defines { "ENTRY_CONFIG_USE_GLFW=1" }
		links   { "glfw3" }

		configuration { "linux or freebsd" }
			links {
				"Xrandr",
				"Xinerama",
				"Xi",
				"Xxf86vm",
				"Xcursor",
			}

		configuration { "osx" }
			linkoptions {
				"-framework CoreVideo",
				"-framework IOKit",
			}

		configuration {}
	end

	if _OPTIONS["with-ovr"] then
		configuration { "x32" }
			libdirs { path.join("$(OVR_DIR)/LibOVR/Lib/Windows/Win32/Release", _ACTION) }

		configuration { "x64" }
			libdirs { path.join("$(OVR_DIR)/LibOVR/Lib/Windows/x64/Release", _ACTION) }

		configuration { "x32 or x64" }
			links { "libovr" }

		configuration {}
	end

	configuration { "vs*", "x32 or x64" }
		linkoptions {
			"/ignore:4199", -- LNK4199: /DELAYLOAD:*.dll ignored; no imports found from *.dll
		}
		links { -- this is needed only for testing with GLES2/3 on Windows with VS2008
			"DelayImp",
		}

	configuration { "vs201*", "x32 or x64" }
		linkoptions { -- this is needed only for testing with GLES2/3 on Windows with VS201x
			"/DELAYLOAD:\"libEGL.dll\"",
			"/DELAYLOAD:\"libGLESv2.dll\"",
		}

	configuration { "mingw*" }
		targetextension ".exe"
		links {
			"gdi32",
			"psapi",
		}

	configuration { "vs20*", "x32 or x64" }
		links {
			"gdi32",
			"psapi",
		}

	configuration { "durango" }
		links {
			"d3d11_x",
			"d3d12_x",
			"combase",
			"kernelx",
		}

	configuration { "winphone8* or winstore8*" }
		removelinks {
			"DelayImp",
			"gdi32",
			"psapi"
		}
		links {
			"d3d11",
			"dxgi"
		}
		linkoptions {
			"/ignore:4264" -- LNK4264: archiving object file compiled with /ZW into a static library; note that when authoring Windows Runtime types it is not recommended to link with a static library that contains Windows Runtime metadata
		}

	-- WinRT targets need their own output directories or build files stomp over each other
	configuration { "x32", "winphone8* or winstore8*" }
		targetdir (path.join(BGFX_BUILD_DIR, "win32_" .. _ACTION, "bin", _name))
		objdir (path.join(BGFX_BUILD_DIR, "win32_" .. _ACTION, "obj", _name))

	configuration { "x64", "winphone8* or winstore8*" }
		targetdir (path.join(BGFX_BUILD_DIR, "win64_" .. _ACTION, "bin", _name))
		objdir (path.join(BGFX_BUILD_DIR, "win64_" .. _ACTION, "obj", _name))

	configuration { "ARM", "winphone8* or winstore8*" }
		targetdir (path.join(BGFX_BUILD_DIR, "arm_" .. _ACTION, "bin", _name))
		objdir (path.join(BGFX_BUILD_DIR, "arm_" .. _ACTION, "obj", _name))

	configuration { "mingw-clang" }
		kind "ConsoleApp"

	configuration { "android*" }
		kind "ConsoleApp"
		targetextension ".so"
		linkoptions {
			"-shared",
		}
		links {
			"EGL",
			"GLESv2",
		}

	configuration { "nacl*" }
		kind "ConsoleApp"
		targetextension ".nexe"
		links {
			"ppapi",
			"ppapi_gles2",
			"pthread",
		}

	configuration { "pnacl" }
		kind "ConsoleApp"
		targetextension ".pexe"
		links {
			"ppapi",
			"ppapi_gles2",
			"pthread",
		}

	configuration { "asmjs" }
		kind "ConsoleApp"
		targetextension ".bc"

	configuration { "linux-* or freebsd", "not linux-steamlink" }
		links {
			"X11",
			"GL",
			"pthread",
		}

	configuration { "linux-steamlink" }
		links {
			"EGL",
			"GLESv2",
			"SDL2",
			"pthread",
		}

	configuration { "rpi" }
		links {
			"X11",
			"GLESv2",
			"EGL",
			"bcm_host",
			"vcos",
			"vchiq_arm",
			"pthread",
		}

	configuration { "osx" }
		linkoptions {
			"-framework Cocoa",
			"-framework QuartzCore",
			"-framework OpenGL",
			"-weak_framework Metal",
		}

	configuration { "ios* or tvos*" }
		kind "ConsoleApp"
		linkoptions {
			"-framework CoreFoundation",
			"-framework Foundation",
			"-framework OpenGLES",
			"-framework UIKit",
			"-framework QuartzCore",
			"-weak_framework Metal",
		}

	configuration { "xcode4", "ios" }
		kind "WindowedApp"
		files {
			path.join(BGFX_DIR, "examples/runtime/iOS-Info.plist"),
		}

	configuration { "xcode4", "tvos" }
		kind "WindowedApp"
		files {
			path.join(BGFX_DIR, "examples/runtime/tvOS-Info.plist"),
		}

	configuration { "qnx*" }
		targetextension ""
		links {
			"EGL",
			"GLESv2",
		}

	configuration {}

	strip()
end

dofile "bgfx.lua"

group "libs"
bgfxProject("", "StaticLib", {})

if _OPTIONS["with-examples"] or _OPTIONS["with-tools"] then
	group "examples"
	dofile "example-common.lua"
end

if _OPTIONS["with-examples"] then
	group "examples"
	exampleProject("00-helloworld")
	exampleProject("01-cubes")
	exampleProject("02-metaballs")
	exampleProject("03-raymarch")
	exampleProject("04-mesh")
	exampleProject("05-instancing")
	exampleProject("06-bump")
	exampleProject("07-callback")
	exampleProject("08-update")
	exampleProject("09-hdr")
	exampleProject("10-font")
	exampleProject("11-fontsdf")
	exampleProject("12-lod")
	exampleProject("13-stencil")
	exampleProject("14-shadowvolumes")
	exampleProject("15-shadowmaps-simple")
	exampleProject("16-shadowmaps")
	exampleProject("17-drawstress")
	exampleProject("18-ibl")
	exampleProject("19-oit")
	exampleProject("20-nanovg")
	exampleProject("21-deferred")
	exampleProject("22-windows")
	exampleProject("23-vectordisplay")
	exampleProject("24-nbody")
	exampleProject("26-occlusion")
	exampleProject("27-terrain")
	exampleProject("28-wireframe")
	exampleProject("29-debugdraw")
	exampleProject("30-picking")
	exampleProject("31-rsm")

	-- C99 source doesn't compile under WinRT settings
	if not premake.vstudio.iswinrt() then
		exampleProject("25-c99")
	end
end

if _OPTIONS["with-shared-lib"] then
	group "libs"
	bgfxProject("-shared-lib", "SharedLib", {})
end

if _OPTIONS["with-tools"] then
	group "tools"
	dofile "shaderc.lua"
	dofile "texturec.lua"
	dofile "texturev.lua"
	dofile "geometryc.lua"
end
an class="se">\t\t<!ATTLIST __XML_TOP__ romof CDATA #IMPLIED>\n" "\t\t<!ATTLIST __XML_TOP__ sampleof CDATA #IMPLIED>\n" "\t\t<!ELEMENT description (#PCDATA)>\n" "\t\t<!ELEMENT year (#PCDATA)>\n" "\t\t<!ELEMENT manufacturer (#PCDATA)>\n" "\t\t<!ELEMENT biosset EMPTY>\n" "\t\t\t<!ATTLIST biosset name CDATA #REQUIRED>\n" "\t\t\t<!ATTLIST biosset description CDATA #REQUIRED>\n" "\t\t\t<!ATTLIST biosset default (yes|no) \"no\">\n" "\t\t<!ELEMENT rom EMPTY>\n" "\t\t\t<!ATTLIST rom name CDATA #REQUIRED>\n" "\t\t\t<!ATTLIST rom bios CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST rom size CDATA #REQUIRED>\n" "\t\t\t<!ATTLIST rom crc CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST rom sha1 CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST rom merge CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST rom region CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST rom offset CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST rom status (baddump|nodump|good) \"good\">\n" "\t\t\t<!ATTLIST rom optional (yes|no) \"no\">\n" "\t\t<!ELEMENT disk EMPTY>\n" "\t\t\t<!ATTLIST disk name CDATA #REQUIRED>\n" "\t\t\t<!ATTLIST disk sha1 CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST disk merge CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST disk region CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST disk index CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST disk writable (yes|no) \"no\">\n" "\t\t\t<!ATTLIST disk status (baddump|nodump|good) \"good\">\n" "\t\t\t<!ATTLIST disk optional (yes|no) \"no\">\n" "\t\t<!ELEMENT device_ref EMPTY>\n" "\t\t\t<!ATTLIST device_ref name CDATA #REQUIRED>\n" "\t\t<!ELEMENT sample EMPTY>\n" "\t\t\t<!ATTLIST sample name CDATA #REQUIRED>\n" "\t\t<!ELEMENT chip EMPTY>\n" "\t\t\t<!ATTLIST chip name CDATA #REQUIRED>\n" "\t\t\t<!ATTLIST chip tag CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST chip type (cpu|audio) #REQUIRED>\n" "\t\t\t<!ATTLIST chip clock CDATA #IMPLIED>\n" "\t\t<!ELEMENT display EMPTY>\n" "\t\t\t<!ATTLIST display tag CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST display type (raster|vector|lcd|unknown) #REQUIRED>\n" "\t\t\t<!ATTLIST display rotate (0|90|180|270) #REQUIRED>\n" "\t\t\t<!ATTLIST display flipx (yes|no) \"no\">\n" "\t\t\t<!ATTLIST display width CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST display height CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST display refresh CDATA #REQUIRED>\n" "\t\t\t<!ATTLIST display pixclock CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST display htotal CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST display hbend CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST display hbstart CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST display vtotal CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST display vbend CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST display vbstart CDATA #IMPLIED>\n" "\t\t<!ELEMENT sound EMPTY>\n" "\t\t\t<!ATTLIST sound channels CDATA #REQUIRED>\n" "\t\t<!ELEMENT input (control*)>\n" "\t\t\t<!ATTLIST input service (yes|no) \"no\">\n" "\t\t\t<!ATTLIST input tilt (yes|no) \"no\">\n" "\t\t\t<!ATTLIST input players CDATA #REQUIRED>\n" "\t\t\t<!ATTLIST input buttons CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST input coins CDATA #IMPLIED>\n" "\t\t\t<!ELEMENT control EMPTY>\n" "\t\t\t\t<!ATTLIST control type CDATA #REQUIRED>\n" "\t\t\t\t<!ATTLIST control minimum CDATA #IMPLIED>\n" "\t\t\t\t<!ATTLIST control maximum CDATA #IMPLIED>\n" "\t\t\t\t<!ATTLIST control sensitivity CDATA #IMPLIED>\n" "\t\t\t\t<!ATTLIST control keydelta CDATA #IMPLIED>\n" "\t\t\t\t<!ATTLIST control reverse (yes|no) \"no\">\n" "\t\t\t\t<!ATTLIST control ways CDATA #IMPLIED>\n" "\t\t\t\t<!ATTLIST control ways2 CDATA #IMPLIED>\n" "\t\t\t\t<!ATTLIST control ways3 CDATA #IMPLIED>\n" "\t\t<!ELEMENT dipswitch (dipvalue*)>\n" "\t\t\t<!ATTLIST dipswitch name CDATA #REQUIRED>\n" "\t\t\t<!ATTLIST dipswitch tag CDATA #REQUIRED>\n" "\t\t\t<!ATTLIST dipswitch mask CDATA #REQUIRED>\n" "\t\t\t<!ELEMENT dipvalue EMPTY>\n" "\t\t\t\t<!ATTLIST dipvalue name CDATA #REQUIRED>\n" "\t\t\t\t<!ATTLIST dipvalue value CDATA #REQUIRED>\n" "\t\t\t\t<!ATTLIST dipvalue default (yes|no) \"no\">\n" "\t\t<!ELEMENT configuration (confsetting*)>\n" "\t\t\t<!ATTLIST configuration name CDATA #REQUIRED>\n" "\t\t\t<!ATTLIST configuration tag CDATA #REQUIRED>\n" "\t\t\t<!ATTLIST configuration mask CDATA #REQUIRED>\n" "\t\t\t<!ELEMENT confsetting EMPTY>\n" "\t\t\t\t<!ATTLIST confsetting name CDATA #REQUIRED>\n" "\t\t\t\t<!ATTLIST confsetting value CDATA #REQUIRED>\n" "\t\t\t\t<!ATTLIST confsetting default (yes|no) \"no\">\n" "\t\t<!ELEMENT port (analog*)>\n" "\t\t\t<!ATTLIST port tag CDATA #REQUIRED>\n" "\t\t\t<!ELEMENT analog EMPTY>\n" "\t\t\t\t<!ATTLIST analog mask CDATA #REQUIRED>\n" "\t\t<!ELEMENT adjuster EMPTY>\n" "\t\t\t<!ATTLIST adjuster name CDATA #REQUIRED>\n" "\t\t\t<!ATTLIST adjuster default CDATA #REQUIRED>\n" "\t\t<!ELEMENT driver EMPTY>\n" "\t\t\t<!ATTLIST driver status (good|imperfect|preliminary) #REQUIRED>\n" "\t\t\t<!ATTLIST driver emulation (good|imperfect|preliminary) #REQUIRED>\n" "\t\t\t<!ATTLIST driver color (good|imperfect|preliminary) #REQUIRED>\n" "\t\t\t<!ATTLIST driver sound (good|imperfect|preliminary) #REQUIRED>\n" "\t\t\t<!ATTLIST driver graphic (good|imperfect|preliminary) #REQUIRED>\n" "\t\t\t<!ATTLIST driver cocktail (good|imperfect|preliminary) #IMPLIED>\n" "\t\t\t<!ATTLIST driver protection (good|imperfect|preliminary) #IMPLIED>\n" "\t\t\t<!ATTLIST driver savestate (supported|unsupported) #REQUIRED>\n" "\t\t<!ELEMENT device (instance*, extension*)>\n" "\t\t\t<!ATTLIST device type CDATA #REQUIRED>\n" "\t\t\t<!ATTLIST device tag CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST device mandatory CDATA #IMPLIED>\n" "\t\t\t<!ATTLIST device interface CDATA #IMPLIED>\n" "\t\t\t<!ELEMENT instance EMPTY>\n" "\t\t\t\t<!ATTLIST instance name CDATA #REQUIRED>\n" "\t\t\t\t<!ATTLIST instance briefname CDATA #REQUIRED>\n" "\t\t\t<!ELEMENT extension EMPTY>\n" "\t\t\t\t<!ATTLIST extension name CDATA #REQUIRED>\n" "\t\t<!ELEMENT slot (slotoption*)>\n" "\t\t\t<!ATTLIST slot name CDATA #REQUIRED>\n" "\t\t\t<!ELEMENT slotoption EMPTY>\n" "\t\t\t\t<!ATTLIST slotoption name CDATA #REQUIRED>\n" "\t\t\t\t<!ATTLIST slotoption devname CDATA #REQUIRED>\n" "\t\t\t\t<!ATTLIST slotoption default (yes|no) \"no\">\n" "\t\t<!ELEMENT softwarelist EMPTY>\n" "\t\t\t<!ATTLIST softwarelist name CDATA #REQUIRED>\n" "\t\t\t<!ATTLIST softwarelist status (original|compatible) #REQUIRED>\n" "\t\t\t<!ATTLIST softwarelist filter CDATA #IMPLIED>\n" "\t\t<!ELEMENT ramoption (#PCDATA)>\n" "\t\t\t<!ATTLIST ramoption default CDATA #IMPLIED>\n" "]>"; //************************************************************************** // INFO XML CREATOR //************************************************************************** //------------------------------------------------- // info_xml_creator - constructor //------------------------------------------------- info_xml_creator::info_xml_creator(driver_enumerator &drivlist) : m_output(NULL), m_drivlist(drivlist), m_lookup_options(m_drivlist.options()) { m_lookup_options.remove_device_options(); } //------------------------------------------------- // output_mame_xml - print the XML information // for all known games //------------------------------------------------- void info_xml_creator::output(FILE *out) { m_output = out; // output the DTD fprintf(m_output, "<?xml version=\"1.0\"?>\n"); std::string dtd(s_dtd_string); strreplace(dtd, "__XML_ROOT__", emulator_info::get_xml_root()); strreplace(dtd, "__XML_TOP__", emulator_info::get_xml_top()); fprintf(m_output, "%s\n\n", dtd.c_str()); // top-level tag fprintf(m_output, "<%s build=\"%s\" debug=\"" #ifdef MAME_DEBUG "yes" #else "no" #endif "\" mameconfig=\"%d\">\n", emulator_info::get_xml_root(), xml_normalize_string(build_version), CONFIG_VERSION ); // iterate through the drivers, outputting one at a time while (m_drivlist.next()) output_one(); // output devices (both devices with roms and slot devices) output_devices(); // close the top level tag fprintf(m_output, "</%s>\n",emulator_info::get_xml_root()); } //------------------------------------------------- // output_one - print the XML information // for one particular game driver //------------------------------------------------- void info_xml_creator::output_one() { // no action if not a game const game_driver &driver = m_drivlist.driver(); if (driver.flags & GAME_NO_STANDALONE) return; // allocate input ports machine_config &config = m_drivlist.config(); ioport_list portlist; std::string errors; device_iterator iter(config.root_device()); for (device_t *device = iter.first(); device != NULL; device = iter.next()) portlist.append(*device, errors); // print the header and the game name fprintf(m_output, "\t<%s",emulator_info::get_xml_top()); fprintf(m_output, " name=\"%s\"", xml_normalize_string(driver.name)); // strip away any path information from the source_file and output it const char *start = strrchr(driver.source_file, '/'); if (start == NULL) start = strrchr(driver.source_file, '\\'); if (start == NULL) start = driver.source_file - 1; fprintf(m_output, " sourcefile=\"%s\"", xml_normalize_string(start + 1)); // append bios and runnable flags if (driver.flags & GAME_IS_BIOS_ROOT) fprintf(m_output, " isbios=\"yes\""); if (driver.flags & GAME_NO_STANDALONE) fprintf(m_output, " runnable=\"no\""); if (driver.flags & GAME_MECHANICAL) fprintf(m_output, " ismechanical=\"yes\""); // display clone information int clone_of = m_drivlist.find(driver.parent); if (clone_of != -1 && !(m_drivlist.driver(clone_of).flags & GAME_IS_BIOS_ROOT)) fprintf(m_output, " cloneof=\"%s\"", xml_normalize_string(m_drivlist.driver(clone_of).name)); if (clone_of != -1) fprintf(m_output, " romof=\"%s\"", xml_normalize_string(m_drivlist.driver(clone_of).name)); // display sample information and close the game tag output_sampleof(); fprintf(m_output, ">\n"); // output game description if (driver.description != NULL) fprintf(m_output, "\t\t<description>%s</description>\n", xml_normalize_string(driver.description)); // print the year only if is a number or another allowed character (? or +) if (driver.year != NULL && strspn(driver.year, "0123456789?+") == strlen(driver.year)) fprintf(m_output, "\t\t<year>%s</year>\n", xml_normalize_string(driver.year)); // print the manufacturer information if (driver.manufacturer != NULL) fprintf(m_output, "\t\t<manufacturer>%s</manufacturer>\n", xml_normalize_string(driver.manufacturer)); // now print various additional information output_bios(); output_rom(m_drivlist.config().root_device()); output_device_roms(); output_sample(m_drivlist.config().root_device()); output_chips(m_drivlist.config().root_device(), ""); output_display(m_drivlist.config().root_device(), ""); output_sound(m_drivlist.config().root_device()); output_input(portlist); output_switches(portlist, "", IPT_DIPSWITCH, "dipswitch", "dipvalue"); output_switches(portlist, "", IPT_CONFIG, "configuration", "confsetting"); output_ports(portlist); output_adjusters(portlist); output_driver(); output_images(m_drivlist.config().root_device(), ""); output_slots(m_drivlist.config().root_device(), ""); output_software_list(); output_ramoptions(); // close the topmost tag fprintf(m_output, "\t</%s>\n",emulator_info::get_xml_top()); } //------------------------------------------------- // output_one_device - print the XML info for // a single device //------------------------------------------------- void info_xml_creator::output_one_device(device_t &device, const char *devtag) { bool has_speaker = FALSE, has_input = FALSE; // check if the device adds speakers to the system sound_interface_iterator snditer(device); if (snditer.first() != NULL) has_speaker = TRUE; // generate input list ioport_list portlist; std::string errors; device_iterator iptiter(device); for (device_t *dev = iptiter.first(); dev != NULL; dev = iptiter.next()) portlist.append(*dev, errors); // check if the device adds player inputs (other than dsw and configs) to the system for (ioport_port *port = portlist.first(); port != NULL; port = port->next()) for (ioport_field *field = port->first_field(); field != NULL; field = field->next()) if (field->type() >= IPT_START1 && field->type() < IPT_UI_FIRST) { has_input = TRUE; break; } // start to output info fprintf(m_output, "\t<%s", emulator_info::get_xml_top()); fprintf(m_output, " name=\"%s\"", xml_normalize_string(device.shortname())); std::string src(device.source()); strreplace(src,"../", ""); fprintf(m_output, " sourcefile=\"%s\"", xml_normalize_string(src.c_str())); fprintf(m_output, " isdevice=\"yes\""); fprintf(m_output, " runnable=\"no\""); output_sampleof(); fprintf(m_output, ">\n"); fprintf(m_output, "\t\t<description>%s</description>\n", xml_normalize_string(device.name())); output_rom(device); samples_device *samples = dynamic_cast<samples_device*>(&device); if (samples==NULL) output_sample(device); // ignore samples_device itself output_chips(device, devtag); output_display(device, devtag); if (has_speaker) output_sound(device); if (has_input) output_input(portlist); output_switches(portlist, devtag, IPT_DIPSWITCH, "dipswitch", "dipvalue"); output_switches(portlist, devtag, IPT_CONFIG, "configuration", "confsetting"); output_adjusters(portlist); output_images(device, devtag); output_slots(device, devtag); fprintf(m_output, "\t</%s>\n", emulator_info::get_xml_top()); } //------------------------------------------------- // output_devices - print the XML info for devices // with roms and for devices that can be mounted // in slots // The current solution works to some extent, but // it is limited by the fact that devices are only // acknowledged when attached to a driver (so that // for instance sub-sub-devices could never appear // in the xml input if they are not also attached // directly to a driver as device or sub-device) //------------------------------------------------- typedef tagmap_t<FPTR> slot_map; void info_xml_creator::output_devices() { m_drivlist.reset(); slot_map shortnames; while (m_drivlist.next()) { // first, run through devices with roms which belongs to the default configuration device_iterator deviter(m_drivlist.config().root_device()); for (device_t *device = deviter.first(); device != NULL; device = deviter.next()) { if (device->owner() != NULL && device->shortname()!= NULL && strlen(device->shortname())!=0) { if (shortnames.add(device->shortname(), 0, FALSE) != TMERR_DUPLICATE) output_one_device(*device, device->tag()); } } // then, run through slot devices slot_interface_iterator iter(m_drivlist.config().root_device()); for (const device_slot_interface *slot = iter.first(); slot != NULL; slot = iter.next()) { for (const device_slot_option *option = slot->first_option(); option != NULL; option = option->next()) { std::string temptag("_"); temptag.append(option->name()); device_t *dev = const_cast<machine_config &>(m_drivlist.config()).device_add(&m_drivlist.config().root_device(), temptag.c_str(), option->devtype(), 0); // notify this device and all its subdevices that they are now configured device_iterator subiter(*dev); for (device_t *device = subiter.first(); device != NULL; device = subiter.next()) if (!device->configured()) device->config_complete(); if (shortnames.add(dev->shortname(), 0, FALSE) != TMERR_DUPLICATE) output_one_device(*dev, temptag.c_str()); // also, check for subdevices with ROMs (a few devices are missed otherwise, e.g. MPU401) device_iterator deviter2(*dev); for (device_t *device = deviter2.first(); device != NULL; device = deviter2.next()) { if (device->owner() == dev && device->shortname()!= NULL && strlen(device->shortname())!=0) { if (shortnames.add(device->shortname(), 0, FALSE) != TMERR_DUPLICATE) output_one_device(*device, device->tag()); } } const_cast<machine_config &>(m_drivlist.config()).device_remove(&m_drivlist.config().root_device(), temptag.c_str()); } } } } //------------------------------------------------ // output_device_roms - when a driver uses roms // included in a device set, print a reference //------------------------------------------------- void info_xml_creator::output_device_roms() { device_iterator deviter(m_drivlist.config().root_device()); for (device_t *device = deviter.first(); device != NULL; device = deviter.next()) if (device->owner() != NULL && device->shortname()!= NULL && strlen(device->shortname())!=0) fprintf(m_output, "\t\t<device_ref name=\"%s\"/>\n", xml_normalize_string(device->shortname())); } //------------------------------------------------ // output_sampleof - print the 'sampleof' // attribute, if appropriate //------------------------------------------------- void info_xml_creator::output_sampleof() { // iterate over sample devices samples_device_iterator iter(m_drivlist.config().root_device()); for (samples_device *device = iter.first(); device != NULL; device = iter.next()) { samples_iterator sampiter(*device); if (sampiter.altbasename() != NULL) { fprintf(m_output, " sampleof=\"%s\"", xml_normalize_string(sampiter.altbasename())); // must stop here, as there can only be one attribute of the same name return; } } } //------------------------------------------------- // output_bios - print the BIOS set for a // game //------------------------------------------------- void info_xml_creator::output_bios() { // skip if no ROMs if (m_drivlist.driver().rom == NULL) return; // iterate over ROM entries and look for BIOSes for (const rom_entry *rom = m_drivlist.driver().rom; !ROMENTRY_ISEND(rom); rom++) if (ROMENTRY_ISSYSTEM_BIOS(rom)) { // output extracted name and descriptions fprintf(m_output, "\t\t<biosset"); fprintf(m_output, " name=\"%s\"", xml_normalize_string(ROM_GETNAME(rom))); fprintf(m_output, " description=\"%s\"", xml_normalize_string(ROM_GETHASHDATA(rom))); if (ROM_GETBIOSFLAGS(rom) == 1) fprintf(m_output, " default=\"yes\""); fprintf(m_output, "/>\n"); } } //------------------------------------------------- // output_rom - print the roms section of // the XML output //------------------------------------------------- void info_xml_creator::output_rom(device_t &device) { // iterate over 3 different ROM "types": BIOS, ROMs, DISKs for (int rom_type = 0; rom_type < 3; rom_type++) for (const rom_entry *region = rom_first_region(device); region != NULL; region = rom_next_region(region)) { bool is_disk = ROMREGION_ISDISKDATA(region); // disk regions only work for disks if ((is_disk && rom_type != 2) || (!is_disk && rom_type == 2)) continue; // iterate through ROM entries for (const rom_entry *rom = rom_first_file(region); rom != NULL; rom = rom_next_file(rom)) { bool is_bios = ROM_GETBIOSFLAGS(rom); const char *name = ROM_GETNAME(rom); int offset = ROM_GETOFFSET(rom); const char *merge_name = NULL; char bios_name[100]; // BIOS ROMs only apply to bioses if ((is_bios && rom_type != 0) || (!is_bios && rom_type == 0)) continue; // if we have a valid ROM and we are a clone, see if we can find the parent ROM hash_collection hashes(ROM_GETHASHDATA(rom)); if (!hashes.flag(hash_collection::FLAG_NO_DUMP)) merge_name = get_merge_name(hashes); if (&device != &m_drivlist.config().root_device()) merge_name = NULL; // scan for a BIOS name bios_name[0] = 0; if (!is_disk && is_bios) { // scan backwards through the ROM entries for (const rom_entry *brom = rom - 1; brom != m_drivlist.driver().rom; brom--) if (ROMENTRY_ISSYSTEM_BIOS(brom)) { strcpy(bios_name, ROM_GETNAME(brom)); break; } } std::string output; // opening tag if (!is_disk) output.append("\t\t<rom"); else output.append("\t\t<disk"); // add name, merge, bios, and size tags */ if (name != NULL && name[0] != 0) strcatprintf(output," name=\"%s\"", xml_normalize_string(name)); if (merge_name != NULL) strcatprintf(output," merge=\"%s\"", xml_normalize_string(merge_name)); if (bios_name[0] != 0) strcatprintf(output," bios=\"%s\"", xml_normalize_string(bios_name)); if (!is_disk) strcatprintf(output," size=\"%d\"", rom_file_size(rom)); // dump checksum information only if there is a known dump if (!hashes.flag(hash_collection::FLAG_NO_DUMP)) { // iterate over hash function types and print m_output their values std::string tempstr; strcatprintf(output," %s", hashes.attribute_string(tempstr)); } else output.append(" status=\"nodump\""); // append a region name strcatprintf(output," region=\"%s\"", ROMREGION_GETTAG(region)); // for non-disk entries, print offset if (!is_disk) strcatprintf(output," offset=\"%x\"", offset); // for disk entries, add the disk index else { strcatprintf(output," index=\"%x\"", DISK_GETINDEX(rom)); strcatprintf(output," writable=\"%s\"", DISK_ISREADONLY(rom) ? "no" : "yes"); } // add optional flag if (ROM_ISOPTIONAL(rom)) output.append(" optional=\"yes\""); output.append("/>\n"); fprintf(m_output, "%s", output.c_str()); } } } //------------------------------------------------- // output_sample - print a list of all // samples referenced by a game_driver //------------------------------------------------- void info_xml_creator::output_sample(device_t &device) { // iterate over sample devices samples_device_iterator sampiter(device); for (samples_device *samples = sampiter.first(); samples != NULL; samples = sampiter.next()) { samples_iterator iter(*samples); tagmap_t<int> already_printed; for (const char *samplename = iter.first(); samplename != NULL; samplename = iter.next()) { // filter out duplicates if (already_printed.add(samplename, 1) == TMERR_DUPLICATE) continue; // output the sample name fprintf(m_output, "\t\t<sample name=\"%s\"/>\n", xml_normalize_string(samplename)); } } } /*------------------------------------------------- output_chips - print a list of CPU and sound chips used by a game -------------------------------------------------*/ void info_xml_creator::output_chips(device_t &device, const char *root_tag) { // iterate over executable devices execute_interface_iterator execiter(device); for (device_execute_interface *exec = execiter.first(); exec != NULL; exec = execiter.next()) { if (strcmp(exec->device().tag(), device.tag())) { std::string newtag(exec->device().tag()), oldtag(":"); newtag = newtag.substr(newtag.find(oldtag.append(root_tag).c_str()) + oldtag.length()); fprintf(m_output, "\t\t<chip"); fprintf(m_output, " type=\"cpu\""); fprintf(m_output, " tag=\"%s\"", xml_normalize_string(newtag.c_str())); fprintf(m_output, " name=\"%s\"", xml_normalize_string(exec->device().name())); fprintf(m_output, " clock=\"%d\"", exec->device().clock()); fprintf(m_output, "/>\n"); } } // iterate over sound devices sound_interface_iterator sounditer(device); for (device_sound_interface *sound = sounditer.first(); sound != NULL; sound = sounditer.next()) { if (strcmp(sound->device().tag(), device.tag())) { std::string newtag(sound->device().tag()), oldtag(":"); newtag = newtag.substr(newtag.find(oldtag.append(root_tag).c_str()) + oldtag.length()); fprintf(m_output, "\t\t<chip"); fprintf(m_output, " type=\"audio\""); fprintf(m_output, " tag=\"%s\"", xml_normalize_string(newtag.c_str())); fprintf(m_output, " name=\"%s\"", xml_normalize_string(sound->device().name())); if (sound->device().clock() != 0) fprintf(m_output, " clock=\"%d\"", sound->device().clock()); fprintf(m_output, "/>\n"); } } } //------------------------------------------------- // output_display - print a list of all the // displays //------------------------------------------------- void info_xml_creator::output_display(device_t &device, const char *root_tag) { // iterate over screens screen_device_iterator iter(device); for (const screen_device *screendev = iter.first(); screendev != NULL; screendev = iter.next()) { if (strcmp(screendev->tag(), device.tag())) { std::string newtag(screendev->tag()), oldtag(":"); newtag = newtag.substr(newtag.find(oldtag.append(root_tag).c_str()) + oldtag.length()); fprintf(m_output, "\t\t<display"); fprintf(m_output, " tag=\"%s\"", xml_normalize_string(newtag.c_str())); switch (screendev->screen_type()) { case SCREEN_TYPE_RASTER: fprintf(m_output, " type=\"raster\""); break; case SCREEN_TYPE_VECTOR: fprintf(m_output, " type=\"vector\""); break; case SCREEN_TYPE_LCD: fprintf(m_output, " type=\"lcd\""); break; default: fprintf(m_output, " type=\"unknown\""); break; } // output the orientation as a string switch (m_drivlist.driver().flags & ORIENTATION_MASK) { case ORIENTATION_FLIP_X: fprintf(m_output, " rotate=\"0\" flipx=\"yes\""); break; case ORIENTATION_FLIP_Y: fprintf(m_output, " rotate=\"180\" flipx=\"yes\""); break; case ORIENTATION_FLIP_X|ORIENTATION_FLIP_Y: fprintf(m_output, " rotate=\"180\""); break; case ORIENTATION_SWAP_XY: fprintf(m_output, " rotate=\"90\" flipx=\"yes\""); break; case ORIENTATION_SWAP_XY|ORIENTATION_FLIP_X: fprintf(m_output, " rotate=\"90\""); break; case ORIENTATION_SWAP_XY|ORIENTATION_FLIP_Y: fprintf(m_output, " rotate=\"270\""); break; case ORIENTATION_SWAP_XY|ORIENTATION_FLIP_X|ORIENTATION_FLIP_Y: fprintf(m_output, " rotate=\"270\" flipx=\"yes\""); break; default: fprintf(m_output, " rotate=\"0\""); break; } // output width and height only for games that are not vector if (screendev->screen_type() != SCREEN_TYPE_VECTOR) { const rectangle &visarea = screendev->visible_area(); fprintf(m_output, " width=\"%d\"", visarea.width()); fprintf(m_output, " height=\"%d\"", visarea.height()); } // output refresh rate fprintf(m_output, " refresh=\"%f\"", ATTOSECONDS_TO_HZ(screendev->refresh_attoseconds())); // output raw video parameters only for games that are not vector // and had raw parameters specified if (screendev->screen_type() != SCREEN_TYPE_VECTOR && !screendev->oldstyle_vblank_supplied()) { int pixclock = screendev->width() * screendev->height() * ATTOSECONDS_TO_HZ(screendev->refresh_attoseconds()); fprintf(m_output, " pixclock=\"%d\"", pixclock); fprintf(m_output, " htotal=\"%d\"", screendev->width()); fprintf(m_output, " hbend=\"%d\"", screendev->visible_area().min_x); fprintf(m_output, " hbstart=\"%d\"", screendev->visible_area().max_x+1); fprintf(m_output, " vtotal=\"%d\"", screendev->height()); fprintf(m_output, " vbend=\"%d\"", screendev->visible_area().min_y); fprintf(m_output, " vbstart=\"%d\"", screendev->visible_area().max_y+1); } fprintf(m_output, " />\n"); } } } //------------------------------------------------- // output_sound - print a list of all the // speakers //------------------------------------------------ void info_xml_creator::output_sound(device_t &device) { speaker_device_iterator spkiter(device); int speakers = spkiter.count(); // if we have no sound, zero m_output the speaker count sound_interface_iterator snditer(device); if (snditer.first() == NULL) speakers = 0; fprintf(m_output, "\t\t<sound channels=\"%d\"/>\n", speakers); } //------------------------------------------------- // output_input - print a summary of a game's // input //------------------------------------------------- void info_xml_creator::output_input(const ioport_list &portlist) { // enumerated list of control types enum { ANALOG_TYPE_PADDLE, ANALOG_TYPE_PEDAL, ANALOG_TYPE_JOYSTICK, ANALOG_TYPE_POSITIONAL, ANALOG_TYPE_LIGHTGUN, ANALOG_TYPE_DIAL, ANALOG_TYPE_TRACKBALL, ANALOG_TYPE_MOUSE, ANALOG_TYPE_COUNT }; // directions const UINT8 DIR_UP = 0x01; const UINT8 DIR_DOWN = 0x02; const UINT8 DIR_LEFT = 0x04; const UINT8 DIR_RIGHT = 0x08; const UINT8 DIR_4WAY = 0x10; // initialize the list of control types struct { const char * type; /* general type of input */ bool analog; bool keyb; INT32 min; /* analog minimum value */ INT32 max; /* analog maximum value */ INT32 sensitivity; /* default analog sensitivity */ INT32 keydelta; /* default analog keydelta */ bool reverse; /* default analog reverse setting */ } control_info[ANALOG_TYPE_COUNT]; memset(&control_info, 0, sizeof(control_info)); // tracking info as we iterate int nplayer = 0; int nbutton = 0; int ncoin = 0; UINT8 joytype[3] = { 0,0,0 }; bool service = false; bool tilt = false; bool keypad = false; bool keyboard = false; bool mahjong = false; bool hanafuda = false; bool gambling = false; // iterate over the ports for (ioport_port *port = portlist.first(); port != NULL; port = port->next()) for (ioport_field *field = port->first_field(); field != NULL; field = field->next()) { int analogtype = -1; // track the highest player number if (nplayer < field->player() + 1) nplayer = field->player() + 1; // switch off of the type switch (field->type()) { // map which joystick directions are present case IPT_JOYSTICK_UP: joytype[0] |= DIR_UP | ((field->way() == 4) ? DIR_4WAY : 0); break; case IPT_JOYSTICK_DOWN: joytype[0] |= DIR_DOWN | ((field->way() == 4) ? DIR_4WAY : 0); break; case IPT_JOYSTICK_LEFT: joytype[0] |= DIR_LEFT | ((field->way() == 4) ? DIR_4WAY : 0); break; case IPT_JOYSTICK_RIGHT: joytype[0] |= DIR_RIGHT | ((field->way() == 4) ? DIR_4WAY : 0); break; case IPT_JOYSTICKLEFT_UP: joytype[1] |= DIR_UP | ((field->way() == 4) ? DIR_4WAY : 0); break; case IPT_JOYSTICKLEFT_DOWN: joytype[1] |= DIR_DOWN | ((field->way() == 4) ? DIR_4WAY : 0); break; case IPT_JOYSTICKLEFT_LEFT: joytype[1] |= DIR_LEFT | ((field->way() == 4) ? DIR_4WAY : 0); break; case IPT_JOYSTICKLEFT_RIGHT: joytype[1] |= DIR_RIGHT | ((field->way() == 4) ? DIR_4WAY : 0); break; case IPT_JOYSTICKRIGHT_UP: joytype[2] |= DIR_UP | ((field->way() == 4) ? DIR_4WAY : 0); break; case IPT_JOYSTICKRIGHT_DOWN: joytype[2] |= DIR_DOWN | ((field->way() == 4) ? DIR_4WAY : 0); break; case IPT_JOYSTICKRIGHT_LEFT: joytype[2] |= DIR_LEFT | ((field->way() == 4) ? DIR_4WAY : 0); break; case IPT_JOYSTICKRIGHT_RIGHT: joytype[2] |= DIR_RIGHT | ((field->way() == 4) ? DIR_4WAY : 0); break; // mark as an analog input, and get analog stats after switch case IPT_AD_STICK_X: case IPT_AD_STICK_Y: case IPT_AD_STICK_Z: control_info[analogtype = ANALOG_TYPE_JOYSTICK].type = "stick"; break; case IPT_PADDLE: case IPT_PADDLE_V: control_info[analogtype = ANALOG_TYPE_PADDLE].type = "paddle"; break; case IPT_PEDAL: case IPT_PEDAL2: case IPT_PEDAL3: control_info[analogtype = ANALOG_TYPE_PEDAL].type = "pedal"; break; case IPT_LIGHTGUN_X: case IPT_LIGHTGUN_Y: control_info[analogtype = ANALOG_TYPE_LIGHTGUN].type = "lightgun"; break; case IPT_POSITIONAL: case IPT_POSITIONAL_V: control_info[analogtype = ANALOG_TYPE_POSITIONAL].type = "positional"; break; case IPT_DIAL: case IPT_DIAL_V: control_info[analogtype = ANALOG_TYPE_DIAL].type = "dial"; break; case IPT_TRACKBALL_X: case IPT_TRACKBALL_Y: control_info[analogtype = ANALOG_TYPE_TRACKBALL].type = "trackball"; break; case IPT_MOUSE_X: case IPT_MOUSE_Y: control_info[analogtype = ANALOG_TYPE_MOUSE].type = "mouse"; break; // track maximum button index case IPT_BUTTON1: case IPT_BUTTON2: case IPT_BUTTON3: case IPT_BUTTON4: case IPT_BUTTON5: case IPT_BUTTON6: case IPT_BUTTON7: case IPT_BUTTON8: case IPT_BUTTON9: case IPT_BUTTON10: case IPT_BUTTON11: case IPT_BUTTON12: case IPT_BUTTON13: case IPT_BUTTON14: case IPT_BUTTON15: case IPT_BUTTON16: nbutton = MAX(nbutton, field->type() - IPT_BUTTON1 + 1); break; // track maximum coin index case IPT_COIN1: case IPT_COIN2: case IPT_COIN3: case IPT_COIN4: case IPT_COIN5: case IPT_COIN6: case IPT_COIN7: case IPT_COIN8: ncoin = MAX(ncoin, field->type() - IPT_COIN1 + 1); break; // track presence of these guys case IPT_KEYPAD: keypad = true; break; case IPT_KEYBOARD: keyboard = true; break; // additional types case IPT_SERVICE: service = true; break; case IPT_TILT: tilt = true; break; default: if (field->type() > IPT_MAHJONG_FIRST && field->type() < IPT_MAHJONG_LAST) mahjong = true; else if (field->type() > IPT_HANAFUDA_FIRST && field->type() < IPT_HANAFUDA_LAST) hanafuda = true; else if (field->type() > IPT_GAMBLING_FIRST && field->type() < IPT_GAMBLING_LAST) gambling = true; break; } // get the analog stats if (analogtype != -1) { if (field->minval() != 0) control_info[analogtype].min = field->minval(); if (field->maxval() != 0) control_info[analogtype].max = field->maxval(); if (field->sensitivity() != 0) control_info[analogtype].sensitivity = field->sensitivity(); if (field->delta() != 0) control_info[analogtype].keydelta = field->delta(); if (field->analog_reverse() != 0) control_info[analogtype].reverse = true; } } // output the basic info fprintf(m_output, "\t\t<input"); fprintf(m_output, " players=\"%d\"", nplayer); if (nbutton != 0) fprintf(m_output, " buttons=\"%d\"", nbutton); if (ncoin != 0) fprintf(m_output, " coins=\"%d\"", ncoin); if (service) fprintf(m_output, " service=\"yes\""); if (tilt) fprintf(m_output, " tilt=\"yes\""); fprintf(m_output, ">\n"); // output the joystick types if (joytype[1]==0 && joytype[2]!=0) { joytype[1] = joytype[2]; joytype[2] = 0; } if (joytype[0]==0 && joytype[1]!=0) { joytype[0] = joytype[1]; joytype[1] = 0; } if (joytype[1]==0 && joytype[2]!=0) { joytype[1] = joytype[2]; joytype[2] = 0; } if (joytype[0] != 0) { const char *joys = (joytype[2]!=0) ? "triple" : (joytype[1]!=0) ? "double" : ""; fprintf(m_output, "\t\t\t<control type=\"%sjoy\"", joys); for (int lp=0; lp<3 && joytype[lp]!=0; lp++) { const char *plural = (lp==2) ? "3" : (lp==1) ? "2" : ""; const char *ways; switch (joytype[lp] & (DIR_UP | DIR_DOWN | DIR_LEFT | DIR_RIGHT)) { case DIR_UP | DIR_DOWN | DIR_LEFT | DIR_RIGHT: ways = ((joytype[lp] & DIR_4WAY) != 0) ? "4" : "8"; break; case DIR_LEFT | DIR_RIGHT: ways = "2"; break; case DIR_UP | DIR_DOWN: ways = "vertical2"; break; case DIR_UP: case DIR_DOWN: case DIR_LEFT: case DIR_RIGHT: ways = "1"; break; case DIR_UP | DIR_DOWN | DIR_LEFT: case DIR_UP | DIR_DOWN | DIR_RIGHT: case DIR_UP | DIR_LEFT | DIR_RIGHT: case DIR_DOWN | DIR_LEFT | DIR_RIGHT: ways = ((joytype[lp] & DIR_4WAY) != 0) ? "3 (half4)" : "5 (half8)"; break; default: ways = "strange2"; break; } fprintf(m_output, " ways%s=\"%s\"", plural,ways); } fprintf(m_output, "/>\n"); } // output analog types for (int type = 0; type < ANALOG_TYPE_COUNT; type++) if (control_info[type].type != NULL) { fprintf(m_output, "\t\t\t<control type=\"%s\"", xml_normalize_string(control_info[type].type)); if (control_info[type].min != 0 || control_info[type].max != 0) { fprintf(m_output, " minimum=\"%d\"", control_info[type].min); fprintf(m_output, " maximum=\"%d\"", control_info[type].max); } if (control_info[type].sensitivity != 0) fprintf(m_output, " sensitivity=\"%d\"", control_info[type].sensitivity); if (control_info[type].keydelta != 0) fprintf(m_output, " keydelta=\"%d\"", control_info[type].keydelta); if (control_info[type].reverse) fprintf(m_output, " reverse=\"yes\""); fprintf(m_output, "/>\n"); } // output keypad and keyboard if (keypad) fprintf(m_output, "\t\t\t<control type=\"keypad\"/>\n"); if (keyboard) fprintf(m_output, "\t\t\t<control type=\"keyboard\"/>\n"); // misc if (mahjong) fprintf(m_output, "\t\t\t<control type=\"mahjong\"/>\n"); if (hanafuda) fprintf(m_output, "\t\t\t<control type=\"hanafuda\"/>\n"); if (gambling) fprintf(m_output, "\t\t\t<control type=\"gambling\"/>\n"); fprintf(m_output, "\t\t</input>\n"); } //------------------------------------------------- // output_switches - print the configurations or // DIP switch settings //------------------------------------------------- void info_xml_creator::output_switches(const ioport_list &portlist, const char *root_tag, int type, const char *outertag, const char *innertag) { // iterate looking for DIP switches for (ioport_port *port = portlist.first(); port != NULL; port = port->next()) for (ioport_field *field = port->first_field(); field != NULL; field = field->next()) if (field->type() == type) { std::string output; std::string newtag(port->tag()), oldtag(":"); newtag = newtag.substr(newtag.find(oldtag.append(root_tag).c_str()) + oldtag.length()); // output the switch name information std::string normalized_field_name(xml_normalize_string(field->name())); std::string normalized_newtag(xml_normalize_string(newtag.c_str())); strcatprintf(output,"\t\t<%s name=\"%s\" tag=\"%s\" mask=\"%u\">\n", outertag, normalized_field_name.c_str(), normalized_newtag.c_str(), field->mask()); // loop over settings for (ioport_setting *setting = field->first_setting(); setting != NULL; setting = setting->next()) { strcatprintf(output,"\t\t\t<%s name=\"%s\" value=\"%u\"%s/>\n", innertag, xml_normalize_string(setting->name()), setting->value(), setting->value() == field->defvalue() ? " default=\"yes\"" : ""); } // terminate the switch entry strcatprintf(output,"\t\t</%s>\n", outertag); fprintf(m_output, "%s", output.c_str()); } } //------------------------------------------------- // output_ports - print the structure of input // ports in the driver //------------------------------------------------- void info_xml_creator::output_ports(const ioport_list &portlist) { // cycle through ports for (ioport_port *port = portlist.first(); port != NULL; port = port->next()) { fprintf(m_output,"\t\t<port tag=\"%s\">\n",port->tag()); for (ioport_field *field = port->first_field(); field != NULL; field = field->next()) { if(field->is_analog()) fprintf(m_output,"\t\t\t<analog mask=\"%u\"/>\n",field->mask()); } // close element fprintf(m_output,"\t\t</port>\n"); } } //------------------------------------------------- // output_adjusters - print the Analog // Adjusters for a game //------------------------------------------------- void info_xml_creator::output_adjusters(const ioport_list &portlist) { // iterate looking for Adjusters for (ioport_port *port = portlist.first(); port != NULL; port = port->next()) for (ioport_field *field = port->first_field(); field != NULL; field = field->next()) if (field->type() == IPT_ADJUSTER) fprintf(m_output, "\t\t<adjuster name=\"%s\" default=\"%d\"/>\n", xml_normalize_string(field->name()), field->defvalue()); } //------------------------------------------------- // output_driver - print driver status //------------------------------------------------- void info_xml_creator::output_driver() { fprintf(m_output, "\t\t<driver"); /* The status entry is an hint for frontend authors */ /* to select working and not working games without */ /* the need to know all the other status entries. */ /* Games marked as status=good are perfectly emulated, games */ /* marked as status=imperfect are emulated with only */ /* some minor issues, games marked as status=preliminary */ /* don't work or have major emulation problems. */ if (m_drivlist.driver().flags & (GAME_NOT_WORKING | GAME_UNEMULATED_PROTECTION | GAME_NO_SOUND | GAME_WRONG_COLORS | GAME_MECHANICAL)) fprintf(m_output, " status=\"preliminary\""); else if (m_drivlist.driver().flags & (GAME_IMPERFECT_COLORS | GAME_IMPERFECT_SOUND | GAME_IMPERFECT_GRAPHICS)) fprintf(m_output, " status=\"imperfect\""); else fprintf(m_output, " status=\"good\""); if (m_drivlist.driver().flags & GAME_NOT_WORKING) fprintf(m_output, " emulation=\"preliminary\""); else fprintf(m_output, " emulation=\"good\""); if (m_drivlist.driver().flags & GAME_WRONG_COLORS) fprintf(m_output, " color=\"preliminary\""); else if (m_drivlist.driver().flags & GAME_IMPERFECT_COLORS) fprintf(m_output, " color=\"imperfect\""); else fprintf(m_output, " color=\"good\""); if (m_drivlist.driver().flags & GAME_NO_SOUND) fprintf(m_output, " sound=\"preliminary\""); else if (m_drivlist.driver().flags & GAME_IMPERFECT_SOUND) fprintf(m_output, " sound=\"imperfect\""); else fprintf(m_output, " sound=\"good\""); if (m_drivlist.driver().flags & GAME_IMPERFECT_GRAPHICS) fprintf(m_output, " graphic=\"imperfect\""); else fprintf(m_output, " graphic=\"good\""); if (m_drivlist.driver().flags & GAME_NO_COCKTAIL) fprintf(m_output, " cocktail=\"preliminary\""); if (m_drivlist.driver().flags & GAME_UNEMULATED_PROTECTION) fprintf(m_output, " protection=\"preliminary\""); if (m_drivlist.driver().flags & GAME_SUPPORTS_SAVE) fprintf(m_output, " savestate=\"supported\""); else fprintf(m_output, " savestate=\"unsupported\""); fprintf(m_output, "/>\n"); } //------------------------------------------------- // output_images - prints m_output all info on // image devices //------------------------------------------------- void info_xml_creator::output_images(device_t &device, const char *root_tag) { image_interface_iterator iter(device); for (const device_image_interface *imagedev = iter.first(); imagedev != NULL; imagedev = iter.next()) { if (strcmp(imagedev->device().tag(), device.tag())) { std::string newtag(imagedev->device().tag()), oldtag(":"); newtag = newtag.substr(newtag.find(oldtag.append(root_tag).c_str()) + oldtag.length()); // print m_output device type fprintf(m_output, "\t\t<device type=\"%s\"", xml_normalize_string(imagedev->image_type_name())); // does this device have a tag? if (imagedev->device().tag()) fprintf(m_output, " tag=\"%s\"", xml_normalize_string(newtag.c_str())); // is this device mandatory? if (imagedev->must_be_loaded()) fprintf(m_output, " mandatory=\"1\""); if (imagedev->image_interface() && imagedev->image_interface()[0]) fprintf(m_output, " interface=\"%s\"", xml_normalize_string(imagedev->image_interface())); // close the XML tag fprintf(m_output, ">\n"); const char *name = imagedev->instance_name(); const char *shortname = imagedev->brief_instance_name(); fprintf(m_output, "\t\t\t<instance"); fprintf(m_output, " name=\"%s\"", xml_normalize_string(name)); fprintf(m_output, " briefname=\"%s\"", xml_normalize_string(shortname)); fprintf(m_output, "/>\n"); std::string extensions(imagedev->file_extensions()); char *ext = strtok((char *)extensions.c_str(), ","); while (ext != NULL) { fprintf(m_output, "\t\t\t<extension"); fprintf(m_output, " name=\"%s\"", xml_normalize_string(ext)); fprintf(m_output, "/>\n"); ext = strtok(NULL, ","); } fprintf(m_output, "\t\t</device>\n"); } } } //------------------------------------------------- // output_images - prints all info about slots //------------------------------------------------- void info_xml_creator::output_slots(device_t &device, const char *root_tag) { slot_interface_iterator iter(device); for (const device_slot_interface *slot = iter.first(); slot != NULL; slot = iter.next()) { if (slot->fixed()) continue; // or shall we list these as non-configurable? if (strcmp(slot->device().tag(), device.tag())) { std::string newtag(slot->device().tag()), oldtag(":"); newtag = newtag.substr(newtag.find(oldtag.append(root_tag).c_str()) + oldtag.length()); // print m_output device type fprintf(m_output, "\t\t<slot name=\"%s\">\n", xml_normalize_string(newtag.c_str())); /* if (slot->slot_interface()[0]) fprintf(m_output, " interface=\"%s\"", xml_normalize_string(slot->slot_interface())); */ for (const device_slot_option *option = slot->first_option(); option != NULL; option = option->next()) { if (option->selectable()) { device_t *dev = const_cast<machine_config &>(m_drivlist.config()).device_add(&m_drivlist.config().root_device(), "dummy", option->devtype(), 0); if (!dev->configured()) dev->config_complete(); fprintf(m_output, "\t\t\t<slotoption"); fprintf(m_output, " name=\"%s\"", xml_normalize_string(option->name())); fprintf(m_output, " devname=\"%s\"", xml_normalize_string(dev->shortname())); if (slot->default_option()) { if (strcmp(slot->default_option(),option->name())==0) fprintf(m_output, " default=\"yes\""); } fprintf(m_output, "/>\n"); const_cast<machine_config &>(m_drivlist.config()).device_remove(&m_drivlist.config().root_device(), "dummy"); } } fprintf(m_output, "\t\t</slot>\n"); } } } //------------------------------------------------- // output_software_list - print the information // for all known software lists for this system //------------------------------------------------- void info_xml_creator::output_software_list() { software_list_device_iterator iter(m_drivlist.config().root_device()); for (const software_list_device *swlist = iter.first(); swlist != NULL; swlist = iter.next()) { fprintf(m_output, "\t\t<softwarelist name=\"%s\" ", swlist->list_name()); fprintf(m_output, "status=\"%s\" ", (swlist->list_type() == SOFTWARE_LIST_ORIGINAL_SYSTEM) ? "original" : "compatible"); if (swlist->filter()) { fprintf(m_output, "filter=\"%s\" ", swlist->filter()); } fprintf(m_output, "/>\n"); } } //------------------------------------------------- // output_ramoptions - prints m_output all RAM // options for this system //------------------------------------------------- void info_xml_creator::output_ramoptions() { ram_device_iterator iter(m_drivlist.config().root_device()); for (const ram_device *ram = iter.first(); ram != NULL; ram = iter.next()) { fprintf(m_output, "\t\t<ramoption default=\"1\">%u</ramoption>\n", ram->default_size()); if (ram->extra_options() != NULL) { std::string options(ram->extra_options()); for (int start = 0, end = options.find_first_of(',');; start = end + 1, end = options.find_first_of(',', start)) { std::string option; option.assign(options.substr(start, (end == -1) ? -1 : end - start)); fprintf(m_output, "\t\t<ramoption>%u</ramoption>\n", ram_device::parse_string(option.c_str())); if (end == -1) break; } } } } //------------------------------------------------- // get_merge_name - get the rom name from a // parent set //------------------------------------------------- const char *info_xml_creator::get_merge_name(const hash_collection &romhashes) { // walk the parent chain const char *merge_name = NULL; for (int clone_of = m_drivlist.find(m_drivlist.driver().parent); clone_of != -1; clone_of = m_drivlist.find(m_drivlist.driver(clone_of).parent)) { // look in the parent's ROMs device_t *device = &m_drivlist.config(clone_of, m_lookup_options).root_device(); for (const rom_entry *pregion = rom_first_region(*device); pregion != NULL; pregion = rom_next_region(pregion)) for (const rom_entry *prom = rom_first_file(pregion); prom != NULL; prom = rom_next_file(prom)) { hash_collection phashes(ROM_GETHASHDATA(prom)); if (!phashes.flag(hash_collection::FLAG_NO_DUMP) && romhashes == phashes) { // stop when we find a match merge_name = ROM_GETNAME(prom); break; } } } return merge_name; }