Out of whatsnew: there are still a few files being worked on, and the build scripts which are currently set up outside of the MAME source hierarchy. Always open to cleaner ways of doing things.
relative to -state_directory (whose usage remains unchanged). Syntax is basically the same
as snapname, allowing for the / character as path separator, %g as the driver name, and
%d_[media] as the image name mounted in the "media" device.
For example, using -statename foo/%g when running "mame wrally" will store save states into
the folder sta/foo/wrally/ ; using -statename %g/%d_cart when running "mess nes -cart smb"
will store save states into the folder sta/nes/smb/ ; using -statename %g/%d_cdrm when
running "mess pce -cart cdsys -cdrm draculax" will store save states into sta/pce/draculax/
Specifying a media switch which is not available (e.g. %d_cdrm in a c64) or a media switch
where no image is mounted (e.g. %d_cdrm in pce while playing a hucard game) will revert
the option to its default value %g and save states will be stored in sta/*gamename*/ as in
previous versions. [Fabio Priuli]
Needless to say, this option is very useful with home computers and consoles in MESS since it
allows to have 36 save slots for each game instead of 36 for the whole system library
Notice that a clean compile is required, due to the addition to the running_machine class
device_memory_interface::space() assert against NULL and
return a reference, and pushed references throughout all
address space usage in the system. Added a has_space()
method to check for those rare case when it is ambiguous.
[Aaron Giles]
Also reinstated the generic space and added fatal error
handlers if anyone tries to actually read/write from it.
intended differences from previous behavior. For drivers,
the main change is that input_port_read() no longer exists.
Instead, the port must be fetched from the appropriate device,
and then read() is called.
For member functions, this is actually simpler/cleaner:
value = ioport("tag")->read()
For legacy functions which have a driver_data state, it goes:
value = state->ioport("tag")->read()
For other legacy functions, they need to fetch the root device:
value = machine.root_device().ioport("tag")->read()
The other big change for drivers is that IPT_VBLANK is gone.
Instead, it has been replaced by a device line callback on the
screen device. There's a new macro PORT_VBLANK("tag") which
automatically points things to the right spot.
Here's a set of imperfect search & replace strings to convert
the input_port_read calls and fix up IPT_VBLANK:
input_port_read( *\( *)(machine\(\)) *, *([^)]+ *\))
ioport\1\3->read\(\)
input_port_read( *\( *)(.*machine[()]*) *, *([^)]+ *\))
\2\.root_device\(\)\.ioport\1\3->read\(\)
(state = .*driver_data[^}]+)space->machine\(\)\.root_device\(\)\.
\1state->
(state = .*driver_data[^}]+)device->machine\(\)\.root_device\(\)\.
\1state->
input_port_read_safe( *\( *)(machine\(\)) *, *([^,]+), *([^)]+\))
ioport\1\3->read_safe\(\4\)
IPT_VBLANK( *\))
IPT_CUSTOM\1 PORT_VBLANK("screen")
memory_region management into the memory manager instead
of directly in the machine. Hid the global region method;
now all regions must be looked up relative to a device.
If you're a member function, you can just use memregion("tag")
directly. If you're a global function or a device referencing
global regions, use machine().root_device().memregion("tag")
to look up regions relative to the root.
S&R to convert all references:
machine([()]*)\.region
machine\1\.root_device\(\).subregion
Then remove redundant machine().root_device() within src/mame:
([ \t])machine\(\)\.root_device\(\)\.
\1
And use state->memregion() if we have a state variable present:
(state *= *[^;]+driver_data[^}]+)([^ \t]*)machine[()]*\.root_device\(\)\.
\1state->
Finally some cleanup:
screen.state->
state->
device->state->
state->
space->state->
state->
And a few hand-tweaks.
Renamed driver overrides to MCFG_MACHINE/SOUND/VIDEO_START_OVERRIDE to
explicitly indicate they are overriding the default behavior.
Put liberatr back the way it used to be.
Normalized soundlatch helper function names.
Created delegates for machine/sound/video_start/reset callbacks and
added necessary infrastructure to use them going forward.
driver_device base class. The palette base is now specified via an
AM_SHARE of "paletteram" or "paletteram2". The driver_device base
class now finds these pointers and places them in
m_generic_paletteram_8/_16/_32 and m_generic_paletteram2_8/_16/_32.
Removed machine.generic.paletteram*, and machine.generic entirely.
Removed AM_BASE_GENERIC/AM_SIZE_GENERIC as they don't apply anymore.
Changed required_/optional_shared_ptr to support set_target with
base and size for manually configuring a shared pointer, and a new
allocate method for dynamically allocating (and registering the
memory for save states).
A few subsequent cleanups are coming related to this, but wanted
to get this in before the next modern push.
a device_reset_after_children() hook for things that need to wait for
the children to finish. Moved calling the driver/machine/sound/video
reset callbacks to the after children time, to align more with how it
was happening before.
Fixed siblingdevice("") so that it returns the current device and not
the owner.
and paths consistently for devices, I/O ports, memory
regions, memory banks, and memory shares. [Aaron Giles]
NOTE: there are likely regressions lurking here, mostly
due to devices not being properly found. I have temporarily
added more logging to -verbose to help understand what's
going on. Please let me know ASAP if anything that is being
actively worked on got broken.
As before, the driver device is the root device and all
other devices are owned by it. Previously all devices
were kept in a single master list, and the hierarchy was
purely logical. With this change, each device owns its
own list of subdevices, and the hierarchy is explicitly
manifest. This means when a device is removed, all of its
subdevices are automatically removed as well.
A side effect of this is that walking the device list is
no longer simple. To address this, a new set of iterator
classes is provided, which walks the device tree in a depth
first manner. There is a general device_iterator class for
walking all devices, plus templates for a device_type_iterator
and a device_interface_iterator which are used to build
iterators for identifying only devices of a given type or
with a given interface. Typedefs for commonly-used cases
(e.g., screen_device_iterator, memory_interface_iterator)
are provided. Iterators can also provide counts, and can
perform indexed lookups.
All device name lookups are now done relative to another
device. The maching_config and running_machine classes now
have a root_device() method to get the root of the hierarchy.
The existing machine->device("name") is now equivalent to
machine->root_device().subdevice("name").
A proper and normalized device path structure is now
supported. Device names that start with a colon are
treated as absolute paths from the root device. Device
names can also use a caret (^) to refer to the owning
device. Querying the device's tag() returns the device's
full path from the root. A new method basetag() returns
just the final tag.
The new pathing system is built on top of the
device_t::subtag() method, so anyone using that will
automatically support the new pathing rules. Each device
has its own internal map to cache successful lookups so
that subsequent lookups should be very fast.
Updated every place I could find that referenced devices,
memory regions, I/O ports, memory banks and memory shares
to leverage subtag/subdevice (or siblingtag/siblingdevice
which are built on top).
Removed the device_list class, as it doesn't apply any
more. Moved some of its methods into running_machine
instead.
Simplified the device callback system since the new
pathing can describe all of the special-case devices that
were previously handled manually.
Changed the core output function callbacks to be delegates.
Completely rewrote the validity checking mechanism. The
validity checker is now a proper C++ class, and temporarily
takes over the error and warning outputs. All errors and
warnings are collected during a session, and then output in
a consistent manner, with an explicit driver and source file
listed for each one, as well as additional device and/or
I/O port contexts where appropriate. Validity checkers
should no longer explicitly output this information, just
the error, assuming that the context is provided.
Rewrote the software_list_device as a modern device, getting
rid of the software_list_config abstraction and simplifying
things.
Changed the way FLAC compiles so that it works like other
external libraries, and also compiles successfully for MSVC
builds.
functions and just inline mapped them to the class. Will do
a pass soon to actually update drivers to use the C++
methods directly. Also, the tilemap callbacks are now
delegates which should make for cleaner integrating into
modern devices and drivers going forward.
allocates a given bitmap to match the screen size and resizes
it as appropriate when the screen size changes. Updated all
the obvious spots in the code where this could be leveraged.
Move allocate/resize methods in the bitmap classes down into
bitmap_t because they no longer have any dependency on the
bitmap format or type.
Ensured that the bitmap's palette remains set across a resize
call (it is lost doing an allocate).
almost certainly some regressions lurking. Let me know if
something seems busted.
Bitmaps are now strongly typed based on format. bitmap_t still
exists as an abstract base class, but it is almost never used.
Instead, format-specific bitmap classes are provided:
bitmap_ind8 == 8bpp indexed
bitmap_ind16 == 16bpp indexed
bitmap_ind32 == 32bpp indexed
bitmap_ind64 == 64bpp indexed
bitmap_rgb32 == 32bpp RGB
bitmap_argb32 == 32bpp ARGB
bitmap_yuy16 == 16bpp YUY
For each format, a generic pix() method is provided which
references pixels of the correct type. The old pix8/pix16/pix32/
pix64 methods still exist in the short term, but the only one
available is the one that matches the bitmap's pixel size. Note
also that the old RGB15 format bitmaps are no longer supported
at all.
Converted model1, megadriv, and stv drivers away from the RGB15
format bitmaps.
New auto_bitmap_<type>_alloc() macros are provided for allocating
the appropriate type of bitmap.
Screen update functions now must specify the correct bitmap type
as their input parameters. For static update functions the
SCREEN_UPDATE macro is now replaced with SCREEN_UPDATE_RGB32 and
SCREEN_UPDATE_IND16 macros. All existing drivers have been
updated to use the correct macros.
Screen update functions are now required for all screens; there
is no longer any default behavior of copying a "default" bitmap
to the screen (in fact the default bitmap has been deprecated).
Use one of the following to specify your screen_update callback:
MCFG_SCREEN_UPDATE_STATIC(name) - static functions
MCFG_SCREEN_UPDATE_DRIVER(class, func) - driver members
MCFG_SCREEN_UPDATE_DEVICE(tag, class, func) - device members
Because the target bitmap format can now be deduced from the
screen update function itself, the MCFG_SCREEN_FORMAT macro is
no longer necessary, and has been removed. If you specify a
screen update callback that takes a bitmap_ind16, then the screen
will be configured to use a 16bpp indexed bitmap, and if you
specify a callback that takes a bitmap_rgb32, then a 32bpp RGB
bitmap will be provided.
Extended the bitmap classes to support wrapping a subregion of
another bitmap, and cleaner allocation/resetting. The preferred
use of bitmaps now is to define them directly in drivers/devices
and use allocate() or wrap() to set them up, rather than
allocating them via auto_bitmap_*_alloc().
Several common devices needed overhauls or changes as a result
of the above changes:
* Reorganized the laserdisc base driver and all the laserdisc
drivers as modern C++ devices, cleaning the code up
considerably. Merged ldsound device into the laserdsc
device since modern devices are flexible enough to handle
it.
* Reorganized the v9938 device as a modern C++ device. Removed
v9938mod.c in favor of template functions in v9938.c directly.
* Added independent ind16 and rgb32 callbacks for TMS340x0 devices.
* All video devices are now hard-coded to either ind16 or rgb32
bitmaps. The most notable is the mc6845 which is rgb32, and
required changes to a number of consumers.
* Added screen_update methods to most video devices so they can be
directly called via MCFG_SCREEN_UPDATE_DEVICE instead of creating
tons of stub functions.
and SCREEN_UPDATE(generic_bitmapped). In their place, each screen_device
now maintains a default bitmap which is automatically copied to the
screen on each update if no SCREEN_UPDATE function is provided and if
no driver_device::video_update override is present. This bitmap can be
found by querying the screen's new default_bitmap() method. [Aaron Giles]
parameters for the global SCREEN_UPDATE callback match the parameters
for the driver_device version. Added allocate() and deallocate()
methods to bitmap_t to permit cleaner handling of bitmaps in drivers
and modern devices. [Aaron Giles]
reference. Remove redundant machine parameter from SCREEN_EOF. Remove old
vestiges of driver_device video_eof override since it wasn't being used.
Update all multi-screen games to use separate functions for each screen
(calling into common code where appropriate). [Aaron Giles]
(nw: equivalent MESS changes are ready, will send along shortly)
a few CPU's to give octal output by default.
Note that for now just some functions things return octal, will add more, but since this change required clean compile better to put it sooner then later (no whatsnew)
fix bug where we fail to ignore the permanent non-expiring anonymous
timer. Added code to log timers, and we now log them at each save
attempt as well as at restore time. Should fix most recent save state
releated regressions. [Aaron Giles]
Low-level input upgrade. Classes now exist for input_codes, input_items,
input_devices, and input_seqs. Also created an input_manager class to
hold machine-global state and made it accessible via machine.input().
Expanded the device index range (0-255, up from 0-16), and the OSD can
now specify the device index explicitly if they can better keep the
indexes from varying run-to-run. [Aaron Giles]
Note that I've built and run SDL on Windows, but not all the code paths
were exercised. If you use mice/joysticks extensively double-check them
to be sure it all still works as expected.
This is mainly an OSD and core change. The only thing impacting drivers
is if they query for specific keys for debugging. The following S&Rs
took care of most of that:
S: input_code_pressed( *)\(( *)([^, ]+) *, *
R: \3\.input\(\)\.code_pressed\1\(\2
S: input_code_pressed_once( *)\(( *)([^, ]+) *, *
R: \3\.input\(\)\.code_pressed_once\1\(\2
