## Skeleton config file for RetroArch # Save all save files (*.srm) to this directory. This includes related files like .bsv, .rtc, .psrm, etc ... # This will be overridden by explicit command line options. # savefile_directory = # Save all save states (*.state) to this directory. # This will be overridden by explicit command line options. # savestate_directory = # Automatically saves a savestate at the end of RetroArch's lifetime. # The path is $SRAM_PATH.auto. # RetroArch will automatically load any savestate with this path on startup if savestate_auto_load is set. # savestate_auto_save = false # savestate_auto_load = true # Load libretro from a dynamic location for dynamically built RetroArch. # This option is mandatory. # If a directory, RetroArch will look through the directory until it finds an implementation # that appears to support the extension of the ROM loaded. # This could fail if ROM extensions overlap. # libretro_path = "/path/to/libretro.so" # Path to core options config file. # This config file is used to expose core-specific options. # It will be written to by RetroArch. # A default path will be assigned if not set. # core_options_path = # Path to ROM load history file. # RetroArch keeps track of all ROMs loaded in RGUI and from CLI directly for convenient quick loading. # A default path will be assigned if not set. # game_history_path = # Number of entries that will be kept in ROM history file. # game_history_size = 100 # Sets the "system" directory. # Implementations can query for this directory to load BIOSes, system-specific configs, etc. # system_directory = # Sets start directory for RGUI ROM browser. # rgui_browser_directory = # Sets start directory for RGUI config browser. # rgui_config_directory = # Show startup screen in RGUI. # Is automatically set to false when seen for the first time. # This is only updated in config if config_save_on_exit is set to true, however. # rgui_show_start_screen = true # Flushes config to disk on exit. Useful for RGUI as settings can be modified. # Overwrites the config. #include's and comments are not preserved. # config_save_on_exit = false #### Video # Video driver to use. "gl", "xvideo", "sdl" # video_driver = "gl" # Which OpenGL context implementation to use. # Possible ones for desktop are: glx, x-egl, kms-egl, sdl-gl, wgl. # By default, tries to use first suitable driver. # video_gl_context = # Windowed xscale and yscale # (Real x res: base_size * xscale * aspect_ratio, real y res: base_size * yscale) # video_xscale = 3.0 # video_yscale = 3.0 # Fullscreen resolution. Resolution of 0 uses the resolution of the desktop. # video_fullscreen_x = 0 # video_fullscreen_y = 0 # Start in fullscreen. Can be changed at runtime. # video_fullscreen = false # If fullscreen, prefer using a windowed fullscreen mode. # video_windowed_fullscreen = true # Which monitor to prefer. 0 (default) means no particular monitor is preferred, 1 and up (1 being first monitor), # suggests RetroArch to use that particular monitor. # video_monitor_index = 0 # Forcibly disable composition. Only works in Windows Vista/7 for now. # video_disable_composition = false # Video vsync. # video_vsync = true # Attempts to hard-synchronize CPU and GPU. Can reduce latency at cost of performance. # video_hard_sync = false # Sets how many frames CPU can run ahead of GPU when using video_hard_sync. # Maximum is 3. # video_hard_sync_frames = 0 # Inserts a black frame inbetween frames. # Useful for 120 Hz monitors who want to play 60 Hz material with eliminated ghosting. # video_refresh_rate should still be configured as if it is a 60 Hz monitor (divide refresh rate by 2). # video_black_frame_insertion = false # Use threaded video driver. Using this might improve performance at possible cost of latency and more video stuttering. # video_threaded = false # Smoothens picture with bilinear filtering. Should be disabled if using pixel shaders. # video_smooth = true # Forces rendering area to stay equal to game aspect ratio or as defined in video_aspect_ratio. # video_force_aspect = true # Only scales video in integer steps. # The base size depends on system-reported geometry and aspect ratio. # If video_force_aspect is not set, X/Y will be integer scaled independently. # video_scale_integer = false # A floating point value for video aspect ratio (width / height). # If this is not set, aspect ratio is assumed to be automatic. # Behavior then is defined by video_aspect_ratio_auto. # video_aspect_ratio = # If this is true and video_aspect_ratio is not set, # aspect ratio is decided by libretro implementation. # If this is false, 1:1 PAR will always be assumed if video_aspect_ratio is not set. # video_aspect_ratio_auto = false # Forces cropping of overscanned frames. # Exact behavior of this option is implementation specific. # video_crop_overscan = true # Path to shader. Shader can be either Cg, CGP (Cg preset) or XML/GLSL format if support is enabled. # video_shader = "/path/to/shader.{cg,cgp,shader}" # Load video_shader on startup. # Other shaders can still be loaded later in runtime. # video_shader_enable = false # Defines a directory where shaders (Cg, CGP, XML) are kept for easy access. # video_shader_dir = # CPU-based filter. Path to a bSNES CPU filter (*.filter) # video_filter = # Path to a TTF font used for rendering messages. This path must be defined to enable fonts. # Do note that the _full_ path of the font is necessary! # video_font_path = # Size of the TTF font rendered. # video_font_size = 48 # Attempt to scale the font to fit better for multiple window sizes. # video_font_scale = true # Enable usage of OSD messages. # video_font_enable = true # Offset for where messages will be placed on screen. Values are in range 0.0 to 1.0 for both x and y values. # [0.0, 0.0] maps to the lower left corner of the screen. # video_message_pos_x = 0.05 # video_message_pos_y = 0.05 # Color for message. The value is treated as a hexadecimal value. # It is a regular RGB hex number, i.e. red is "ff0000". # video_message_color = ffffff # Video refresh rate of your monitor. # Used to calculate a suitable audio input rate. # video_refresh_rate = 59.95 # Allows libretro cores to set rotation modes. # Setting this to false will honor, but ignore this request. # This is useful for vertically oriented games where one manually rotates the monitor. # video_allow_rotate = true # Forces a certain rotation of the screen. # The rotation is added to rotations which the libretro core sets (see video_allow_rotate). # The angle is * 90 degrees counter-clockwise. # video_rotation = 0 #### Audio # Enable audio. # audio_enable = true # Audio output samplerate. # audio_out_rate = 48000 # Audio driver backend. Depending on configuration possible candidates are: alsa, pulse, oss, jack, rsound, roar, openal, sdl, xaudio. # audio_driver = # Override the default audio device the audio_driver uses. This is driver dependant. E.g. ALSA wants a PCM device, OSS wants a path (e.g. /dev/dsp), Jack wants portnames (e.g. system:playback1,system:playback_2), and so on ... # audio_device = # External DSP plugin that processes audio before it's sent to the driver. # audio_dsp_plugin = # Will sync (block) on audio. Recommended. # audio_sync = true # Desired audio latency in milliseconds. Might not be honored if driver can't provide given latency. # audio_latency = 64 # Enable experimental audio rate control. # audio_rate_control = true # Controls audio rate control delta. Defines how much input rate can be adjusted dynamically. # Input rate = in_rate * (1.0 +/- audio_rate_control_delta) # audio_rate_control_delta = 0.005 # Audio volume. Volume is expressed in dB. # 0 dB is normal volume. No gain will be applied. # Gain can be controlled in runtime with input_volume_up/input_volume_down. # audio_volume = 0.0 #### Input # Input driver. Depending on video driver, it might force a different input driver. # input_driver = sdl # Joypad driver. (Valid: linuxraw, sdl, dinput) # input_joypad_driver = # Defines axis threshold. Possible values are [0.0, 1.0] # input_axis_threshold = 0.5 # Path to input overlay # input_overlay = # Overlay opacity # input_overlay_opacity = 1.0 # Overlay scale # input_overlay_scale = 1.0 # Enable input auto-detection. Will attempt to autoconfigure # joypads, Plug-and-Play style. # input_autodetect_enable = true # Directory for joypad autoconfigs (PC). # If a joypad is plugged in, that joypad will be autoconfigured if a config file # corresponding to that joypad is present in joypad_autoconfig_dir. # Input binds which are made explicit (input_playerN_*_btn/axis) will take priority over autoconfigs. # Autoconfigs can be created with retroarch-joyconfig, manually, or with a frontend. # Requires input_autodetect_enable to be enabled. # joypad_autoconfig_dir = # Enable debug input key reporting on-screen. # input_debug_enable = false # Sets which libretro device is used for a player. # Devices are indentified with a number. # This is normally saved by RGUI. # Device IDs are found in libretro.h. # These settings are overridden by explicit command-line arguments which refer to input devices. # None: 0 # Joypad (RetroPad): 1 # Mouse: 2 # Keyboard: 3 # Generic Lightgun: 4 # Joypad w/ Analog (RetroPad + Analog sticks): 5 # Multitap (SNES specific): 257 # Super Scope (SNES specific): 260 # Justifier (SNES specific): 516 # Justifiers (SNES specific): 772 # input_libretro_device_p1 = # input_libretro_device_p2 = # input_libretro_device_p3 = # input_libretro_device_p4 = # input_libretro_device_p5 = # input_libretro_device_p6 = # input_libretro_device_p7 = # input_libretro_device_p8 = # Keyboard input. Will recognize normal keypresses and special keys like "left", "right", and so on. # Keyboard input, Joypad and Joyaxis will all obey the "nul" bind, which disables the bind completely, # rather than relying on a default. # input_player1_a = x # input_player1_b = z # input_player1_y = a # input_player1_x = s # input_player1_start = enter # input_player1_select = rshift # input_player1_l = q # input_player1_r = w # input_player1_left = left # input_player1_right = right # input_player1_up = up # input_player1_down = down # input_player1_l2 = # input_player1_r2 = # input_player1_l3 = # input_player1_r3 = # Two analog sticks (DualShock-esque). # Bound as usual, however, if a real analog axis is bound, # it can be read as a true analog. # Positive X axis is right, Positive Y axis is down. # input_player1_l_x_plus = # input_player1_l_x_minus = # input_player1_l_y_plus = # input_player1_l_y_minus = # input_player1_r_x_plus = # input_player1_r_x_minus = # input_player1_r_y_plus = # input_player1_r_y_minus = # If desired, it is possible to override which joypads are being used for player 1 through 8. # First joypad available is 0. # input_player1_joypad_index = 0 # input_player2_joypad_index = 1 # input_player3_joypad_index = 2 # input_player4_joypad_index = 3 # input_player5_joypad_index = 4 # input_player6_joypad_index = 5 # input_player7_joypad_index = 6 # input_player8_joypad_index = 7 # Joypad buttons. # Figure these out by using RetroArch-Phoenix or retroarch-joyconfig. # You can use joypad hats with hnxx, where n is the hat, and xx is a string representing direction. # E.g. "h0up" # input_player1_a_btn = # input_player1_b_btn = # input_player1_y_btn = # input_player1_x_btn = # input_player1_start_btn = # input_player1_select_btn = # input_player1_l_btn = # input_player1_r_btn = # input_player1_left_btn = # input_player1_right_btn = # input_player1_up_btn = # input_player1_down_btn = # input_player1_l2_btn = # input_player1_r2_btn = # input_player1_l3_btn = # input_player1_r3_btn = # Axis for RetroArch D-Pad. # Needs to be either '+' or '-' in the first character signaling either positive or negative direction of the axis, then the axis number. # Do note that every other input option has the corresponding _btn and _axis binds as well; they are omitted here for clarity. # input_player1_left_axis = # input_player1_right_axis = # input_player1_up_axis = # input_player1_down_axis = # Holding the turbo while pressing another button will let the button enter a turbo mode # where the button state is modulated with a periodic signal. # The modulation stops when the button itself (not turbo button) is released. # input_player1_turbo = # Describes the period and how long of that period a turbo-enabled button should behave. # Numbers are described in frames. # input_turbo_period = 6 # input_turbo_duty_cycle = 3 # This goes all the way to player 8 (*_player2_*, *_player3_*, etc), but omitted for clarity. # All input binds have corresponding binds for keyboard (none), joykeys (_btn) and joyaxes (_axis) as well. # Toggles fullscreen. # input_toggle_fullscreen = f # Saves state. # input_save_state = f2 # Loads state. # input_load_state = f4 # State slots. With slot set to 0, save state name is *.state (or whatever defined on commandline). # When slot is != 0, path will be $path%d, where %d is slot number. # input_state_slot_increase = f7 # input_state_slot_decrease = f6 # Toggles between fast-forwarding and normal speed. # input_toggle_fast_forward = space # Hold for fast-forward. Releasing button disables fast-forward. # input_hold_fast_forward = l # Key to exit emulator cleanly. # Killing it in any hard way (SIGTERM, SIGKILL, etc, will terminate emulator without saving RAM, etc.) # input_exit_emulator = escape # Applies next and previous XML/Cg shader in directory. # input_shader_next = m # input_shader_prev = n # Hold button down to rewind. Rewinding must be enabled. # input_rewind = r # Toggle between recording and not. # input_movie_record_toggle = o # Toggle between paused and non-paused state # input_pause_toggle = p # Frame advance when game is paused # input_frame_advance = k # Reset the game. # input_reset = h # Configures DSP plugin # input_dsp_config = c # Cheats. # input_cheat_index_plus = y # input_cheat_index_minus = t # input_cheat_toggle = u # Mute/unmute audio # input_audio_mute = f9 # Take screenshot # input_screenshot = f8 # Netplay flip players. # input_netplay_flip_players = i # Hold for slowmotion. # input_slowmotion = e # Enable other hotkeys. # If this hotkey is bound to either keyboard, joybutton or joyaxis, # all other hotkeys will be disabled unless this hotkey is also held at the same time. # This is useful for RETRO_KEYBOARD centric implementations # which query a large area of the keyboard, where it is not desirable # that hotkeys get in the way. # Alternatively, all hotkeys for keyboard could be disabled by the user. # input_enable_hotkey = # Increases audio volume. # input_volume_up = kp_plus # Decreases audio volume. # input_volume_down = kp_minus # Toggles to next overlay. Wraps around. # input_overlay_next = # Toggles eject for disks. Used for multiple-disk games. # input_disk_eject_toggle = # Cycles through disk images. Use after ejecting. # Complete by toggling eject again. # input_disk_next = # Toggles RGUI menu. # input_menu_toggle = f1 # Toggles mouse grab. When mouse is grabbed, RetroArch hides the mouse, # and keeps the mouse pointer inside the window to allow relative mouse games # to work better. # input_grab_mouse_toggle = f11 #### Misc # Enable rewinding. This will take a performance hit when playing, so it is disabled by default. # rewind_enable = false # Rewinding buffer size in megabytes. Bigger rewinding buffer means you can rewind longer. # The buffer should be approx. 20MB per minute of buffer time. # rewind_buffer_size = 20 # Rewind granularity. When rewinding defined number of frames, you can rewind several frames at a time, increasing the rewinding speed. # rewind_granularity = 1 # Pause gameplay when window focus is lost. # pause_nonactive = true # Autosaves the non-volatile SRAM at a regular interval. This is disabled by default unless set otherwise. # The interval is measured in seconds. A value of 0 disables autosave. # autosave_interval = # When being client over netplay, use keybinds for player 1. # netplay_client_swap_input = false # Path to XML cheat database (as used by bSNES). # cheat_database_path = # Path to XML cheat config, a file which keeps track of which # cheat settings are used for individual games. # If the file does not exist, it will be created. # cheat_settings_path = # Directory to dump screenshots to. # screenshot_directory = # Records video after CPU video filter. # video_post_filter_record = false # Records output of GPU shaded material if available. # video_gpu_record = false # Screenshots output of GPU shaded material if available. # video_gpu_screenshot = true # Block SRAM from being overwritten when loading save states. # Might potentially lead to buggy games. # block_sram_overwrite = false # When saving a savestate, save state index is automatically increased before # it is saved. # Also, when loading a ROM, the index will be set to the highest existing index. # There is no upper bound on the index. # savestate_auto_index = false # Slowmotion ratio. When slowmotion, game will slow down by factor. # slowmotion_ratio = 3.0 # The maximum rate at which games will be run when using fast forward. (E.g. 5.0 for 60 fps game => 300 fps cap). # RetroArch will go to sleep to ensure that the maximum rate will not be exceeded. # Do not rely on this cap to be perfectly accurate. # A negative ratio equals no FPS cap. # fastforward_ratio = -1.0 # Enable stdin/network command interface. # network_cmd_enable = false # network_cmd_port = 55355 # stdin_cmd_enable = false