| Commit message (Collapse) | Author | Age | Files | Lines |
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Hooked up support for NMK004 internal rom in MAME, replacing Nicola's old simulation code [trap15, David Haywood]
Fixed TLCS90 16-bit timers & support NMI in the core [trap15]
Various tweaks and improvements in nmk16.c (timings, sound balance, etc.) [trap15, David Haywood]
US AAF Mustang now has sound / music for the first time
Much better sound / music in the following games Bio-ship Paladin, Vandyke, Black Heart, Acrobat Mission, Koutetsu Yousai Strahl, Thunder Dragon, Hacha Mecha Fighter, Super Spacefortress Macross, GunNail
new clones
Hacha Mecha Fighter (19th Sep. 1991, unprotected, bootleg Thunder Dragon conversion) [trap15]
note, Thunder Dragon parent was not protected, I've marked it as such and removed the protection sim from it
The protected Hacha Mecha Fighter set never worked properly, I've demoted it to non-working as a result, the new bootleg works with full sound and correct game logic.
The protected sets don't handshake with the NMK004 so now lack sound (the sim code didn't care)
note2, currently needs an ugly kludge to prevent bioship resetting periodically, the nmk004 is used as a watchdog, but it ends up hitting it slihtly too late so often resets after a few minutes, probably wants even more precise timing for timers / cores / framerate / whatever?
note3, still need to tweak a few things, convert to raw video params, add 2nd buffer.
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warnings of clang 3.5 when compiling MESS (nw)
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name is always mandatory (nw)
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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.
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read/write handlers to take an address_space & instead
of an address_space *. Also update pretty much all other
functions to take a reference where appropriate.
[Aaron Giles]
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resolved device_state_interface. Added redundant
methods to device_state_interface to generate
errors when this is done.
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Convert all cpu_get_pc() to safe_pc() and
cpu_getpreviouspc() to safe_basepc(). Removed the
old macros.
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make its purpose clearer.
Added delegate support for interrupt callbacks, and made driver_device
variants of the generic interrupt helper callbacks. Did not convert
existing callers yet due to logistical issues.
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- Added 4th parameter to all address maps
- Added missing state classes
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space->device().
S: space->cpu->
R: space->device\(\)\.
S: space->cpu
R: \&space->device\(\)
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Remove redundant machine items from address_space and device_t.
Neither machine nor m_machine are directly accessible anymore.
Instead a new getter machine() is available which returns a
machine reference. So:
space->machine->xxx ==> space->machine().xxx
device->machine->yyy ==> device->machine().yyy
Globally changed all running_machine pointers to running_machine
references. Any function/method that takes a running_machine takes
it as a required parameter (1 or 2 exceptions). Being consistent
here gets rid of a lot of odd &machine or *machine, but it does
mean a very large bulk change across the project.
Structs which have a running_machine * now have that variable
renamed to m_machine, and now have a shiny new machine() method
that works like the space and device methods above. Since most of
these are things that should eventually be devices anyway, consider
this a step in that direction.
98% of the update was done with regex searches. The changes are
architected such that the compiler will catch the remaining
errors:
// find things that use an embedded machine directly and replace
// with a machine() getter call
S: ->machine->
R: ->machine\(\)\.
// do the same if via a reference
S: \.machine->
R: \.machine\(\)\.
// convert function parameters to running_machine &
S: running_machine \*machine([^;])
R: running_machine \&machine\1
// replace machine-> with machine.
S: machine->
R: machine\.
// replace &machine() with machine()
S: \&([()->a-z0-9_]+machine\(\))
R: \1
// sanity check: look for this used as a cast
(running_machine &)
// and change to this:
*(running_machine *)
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space by index. Update functions and methods that accepted an
address space index to take an address_spacenum instead. Note that
this means you can't use a raw integer in ADDRESS_SPACE macros, so
instead of 0 use the enumerated AS_0.
Standardized the project on the shortened constants AS_* over the
older ADDRESS_SPACE_*. Removed the latter to prevent confusion.
Also centralized the location of these definitions to memory.h.
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calls on the device object.
Regex used:
state_save_register_device_item( *)\(( *)([^,]+), *([^,]+),( *)([^ )]+)( *)\)
\3->save_item\1\(\2NAME\(\6\),\5\4\7\)
state_save_register_device_item_array( *)\(( *)([^,]+), *([^,]+),( *)([^ )]+)( *)\)
\3->save_item\1\(\2NAME\(\6\),\5\4\7\)
state_save_register_device_item_2d_array( *)\(( *)([^,]+), *([^,]+),( *)([^ )]+)( *)\)
\3->save_item\1\(\2NAME\(\6\),\5\4\7\)
state_save_register_device_item_bitmap( *)\(( *)([^,]+), *([^,]+),( *)([^ )]+)( *)\)
\3->save_item\1\(\2NAME\(\*\6\),\5\4\7\)
state_save_register_device_item_pointer( *)\(( *)([^,]+), *([^,]+),( *)([^,]+), *([^ )]+)( *)\)
\3->save_pointer\1\(\2NAME\(\6\),\5\7,\5\4\8\)
this->save_
save_
(save_item[^;]+), *0( *)\);
\1\2\);
(save_pointer[^;]+), *0( *)\);
\1\2\);
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timer_adjust_oneshot(t,...) => t->adjust(...)
timer_adjust_periodic(t,...) => t->adjust(...)
timer_reset(t,...) => t->reset(...)
timer_enable(t,...) => t->enable(...)
timer_enabled(t) => t->enabled()
timer_get_param(t) => t->param()
timer_get_ptr(t) => t->ptr()
timer_set_param(t,...) => t->set_param(...)
timer_set_ptr(t) => t->set_ptr(...)
timer_timeelapsed(t) => t->elapsed()
timer_timeleft(t) => t->remaining()
timer_starttime(t) => t->start()
timer_firetime(t) => t->expire()
Also remove some stray legacy cpuexec* macros that were
lurking in schedule.h):
cpuexec_describe_context(m) => m->describe_context()
cpuexec_boost_interleave(m,...) => m->scheduler().boot_interleave(...)
cpuexec_trigger(m,...) => m->scheduler().trigger(...)
cpuexec_triggertime(m,...) => m->scheduler().trigger(...)
Specific regex'es used:
timer_adjust_oneshot( *)\(( *)([^,;]+), *
\3->adjust\1\(\2
timer_adjust_periodic( *)\(( *)([^,;]+), *
\3->adjust\1\(\2
(->adjust.*), *0( *)\)
\1\2\)
timer_reset( *)\(( *)([^,;]+), *
\3->reset\1\(\2
(->reset *\(.*)attotime::never
\1
timer_enable( *)\(( *)([^,;]+), *
\3->enable\1\(\2
timer_enabled( *)\(( *)([^,;)]+)\)
\3->enabled\1\(\2\)
timer_get_param( *)\(( *)([^,;)]+)\)
\3->param\1\(\2\)
timer_get_ptr( *)\(( *)([^,;)]+)\)
\3->ptr\1\(\2\)
timer_timeelapsed( *)\(( *)([^,;)]+)\)
\3->elapsed\1\(\2\)
timer_timeleft( *)\(( *)([^,;)]+)\)
\3->remaining\1\(\2\)
timer_starttime( *)\(( *)([^,;)]+)\)
\3->start\1\(\2\)
timer_firetime( *)\(( *)([^,;)]+)\)
\3->expire\1\(\2\)
timer_set_param( *)\(( *)([^,;]+), *
\3->set_param\1\(\2
timer_set_ptr( *)\(( *)([^,;]+), *
\3->set_ptr\1\(\2
cpuexec_describe_context( *)\(( *)([^,;)]+)\)
\3->describe_context\1\(\2\)
\&m_machine->describe_context
m_machine.describe_context
cpuexec_boost_interleave( *)\(( *)([^,;]+), *
\3->scheduler().boost_interleave\1\(\2
cpuexec_trigger( *)\(( *)([^,;]+), *
\3->scheduler().trigger\1\(\2
cpuexec_triggertime( *)\(( *)([^,;]+), *
\3->scheduler().trigger\1\(\2
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timers into the scheduler. Retain TIMER devices as a separate wrapper
in timer.c/.h. Inline wrappers are currently provided for all timer
operations; a future update will bulk clean these up.
Rather than using macros which hide generation of a string-ified name
for callback functions, the new methods require passing both a function
pointer plus a name string. A new macro FUNC() can be used to output
both, and another macro MFUNC() can be used to output a stub-wrapped
class member as a callback.
Also added a time() method on the machine, so that machine->time() gives
the current emulated time. A wrapper for timer_get_time is currently
provided but will be bulk replaced in the future.
For this update, convert all classic timer_alloc, timer_set,
timer_pulse, and timer_call_after_resynch calls into method calls on
the scheduler.
For new device timers, added methods to the device_t class that make
creating and managing these much simpler. Modern devices were updated
to use these.
Here are the regexes used; some manual cleanup (compiler-caught) will
be needed since regex doesn't handle nested parentheses cleanly
1. Convert timer_call_after_resynch calls
timer_call_after_resynch( *)\(( *)([^,;]+), *([^,;]+), *([^,;]+), *([^);]+)\)
\3->scheduler().synchronize\1\(\2FUNC(\6), \5, \4\)
2. Clean up trailing 0, NULL parameters
(synchronize[^;]+), 0, NULL\)
\1)
3. Clean up trailing NULL parameters
(synchronize[^;]+), NULL\)
\1)
4. Clean up completely empty parameter lists
synchronize\(FUNC\(NULL\)\)
synchronize()
5. Convert timer_set calls
timer_set( *)\(( *)([^,;]+), *([^,;]+), *([^,;]+), *([^,;]+), *([^);]+)\)
\3->scheduler().timer_set\1\(\2\4, FUNC(\7), \6, \5\)
6. Clean up trailing 0, NULL parameters
(timer_set[^;]+), 0, NULL\)
\1)
7. Clean up trailing NULL parameters
(timer_set[^;]+), NULL\)
\1)
8. Convert timer_set calls
timer_pulse( *)\(( *)([^,;]+), *([^,;]+), *([^,;]+), *([^,;]+), *([^);]+)\)
\3->scheduler().timer_pulse\1\(\2\4, FUNC(\7), \6, \5\)
9. Clean up trailing 0, NULL parameters
(timer_pulse[^;]+), 0, NULL\)
\1)
10. Clean up trailing NULL parameters
(timer_pulse[^;]+), NULL\)
\1)
11. Convert timer_alloc calls
timer_alloc( *)\(( *)([^,;]+), *([^,;]+), *([^);]+)\)
\3->scheduler().timer_alloc\1\(\2FUNC(\4), \5\)
12. Clean up trailing NULL parameters
(timer_alloc[^;]+), NULL\)
\1)
13. Clean up trailing 0 parameters
(timer_alloc[^;]+), 0\)
\1)
14. Fix oddities introduced
\&m_machine->scheduler()
m_machine.scheduler()
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attotime_zero => attotime::zero
attotime_never => attotime::never
ATTOTIME_IN_SEC(s) => attotime::from_seconds(s)
ATTOTIME_IN_MSEC(m) => attotime::from_msec(m)
ATTOTIME_IN_USEC(u) => attotime::from_usec(u)
ATTOTIME_IN_NSEC(n) => attotime::from_nsec(n)
ATTOTIME_IN_HZ(h) => attotime::from_hz(h)
Also, changed the following MCFG macros to require a full
attotime specification:
MCFG_TIMER_ADD_PERIODIC
MCFG_QUANTUM_TIME
MCFG_WATCHDOG_TIME_INIT
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global functions which are now superceded by the operators and
methods on the class. [Aaron Giles]
Required mappings are:
attotime_make(a,b) => attotime(a,b)
attotime_to_double(t) => t.as_double()
double_to_attotime(d) => attotime::from_double(d)
attotime_to_attoseconds(t) => t.as_attoseconds()
attotime_to_ticks(t,f) => t.as_ticks(f)
ticks_to_attotime(t,f) => attotime::from_ticks(t,f)
attotime_add(a,b) => a + b
attotime_add_attoseconds(a,b) => a + attotime(0, b)
attotime_sub(a,b) => a - b
attotime_sub_attoseconds(a,b) => a - attotime(0, b)
attotime_compare(a,b) == 0 => a == b
attotime_compare(a,b) != 0 => a != b
attotime_compare(a,b) < 0 => a < b
attotime_compare(a,b) <= 0 => a <= b
attotime_compare(a,b) > 0 => a > b
attotime_compare(a,b) >= 0 => a >= b
attotime_mul(a,f) => a * f
attotime_div(a,f) => a / f
attotime_min(a,b) => min(a,b)
attotime_max(a,b) => max(a,b)
attotime_is_never(t) => t.is_never()
attotime_string(t,p) => t.as_string(p)
In addition, some existing #defines still exist but will go away:
attotime_zero => attotime::zero
attotime_never => attotime::never
ATTOTIME_IN_SEC(s) => attotime::from_seconds(s)
ATTOTIME_IN_MSEC(m) => attotime::from_msec(m)
ATTOTIME_IN_USEC(u) => attotime::from_usec(u)
ATTOTIME_IN_NSEC(n) => attotime::from_nsec(n)
ATTOTIME_IN_HZ(h) => attotime::from_hz(h)
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They both already existed. No sense in having two names for the
same object type.
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bulk search & replace:
S: memory_read_([bytewordq]+)_[0-9lbe_maskd]+( *)\(( *)([^,]+)( *),( *)
R: \4->read_\1\2\(\3
S: memory_read_([bytewordq]+)( *)\(( *)([^,]+)( *),( *)
R: \4->read_\1\2\(\3
S: memory_write_([bytewordq]+)_[0-9lbe_maskd]+( *)\(( *)([^,]+)( *),( *)
R: \4->write_\1\2\(\3
S: memory_write_([bytewordq]+)( *)\(( *)([^,]+)( *),( *)
R: \4->write_\1\2\(\3
Gets 99% of the cases.
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The purpose of making it const before was to discourage direct tampering,
but private/protected does a better job of that now anyhow, and it is
annoying now.
s/const[ \t]+address_space\b/address_space/g;
Is basically what I did.
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cpu_get_clock -> device_get_clock
cpu_set_clock -> device_set_clock
cpu_get_clockscale -> device_get_clock_scale
cpu_set_clockscale -> device_set_clock_scale
Search: device_get_clock([ \t]*)\(([ \t]*)([^)]+)
Replace: \3->unscaled_clock\1\(\2
Search: device_set_clock([ \t]*)\(([ \t]*)([^,]+),[ \t]*
Replace: \3->set_unscaled_clock\1\(\2
Search: device_get_clock_scale([ \t]*)\(([ \t]*)([^)]+)
Replace: \3->clock_scale\1\(\2
Search: device_set_clock_scale([ \t]*)\(([ \t]*)([^,]+),[ \t]*
Replace: \3->set_clock_scale\1\(\2
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DECLARE_LEGACY_CPU_DEVICE and DEFINE_LEGACY_CPU_DEVICE. Changed CPUs
to be their own device types, rather than all of type CPU with a
special internal subtype. Note that as part of this process I removed
the CPU_ prefix from the ALL-CAPS device name, so CPU_Z80 is just
plain old Z80 now. This required changing a couple of names like
8080 to I8080 so that there was an alphabetic first character.
Added memory interfaces to the list of fast-access interfaces. To do
this properly I had to add a separate method to devices which is
called immediately after construction, when it is possible to perform
dynamic_casts on fully-constructed objects. (This is just internal,
no changes necessary to the devices themselves.)
Some additional notes:
* SH2 and SH4 had typedefs that conflicted with their CPU_-less names
so I bulk renamed to structures to sh2_state and sh4_state; RB, feel
free to choose alternate names if you don't like 'em
* SCSP was caught doing something to the 3rd indexed CPU. Since several
systems that use SCSP don't even have 3 CPUs, I had no idea what
this was supposed to do, so I changed to it reference "audiocpu"
assuming that stv was the assumed target. This is really gross and
should be a configuration parameter, not a hard-coded assumption.
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Update interfaces as appropriate.
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the scheduler, rather than manging an incoming cycle count. It was
confusing to have multiple sources of cycle counts.
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performance as a result of this change. Do not panic; report issues to the
list in the short term and I will look into them. There are probably also
some details I forgot to mention. Please ask questions if anything is not
clear.
NOTE: This is a major internal change to the way devices are handled in
MAME. There is a small impact on drivers, but the bulk of the changes are
to the devices themselves. Full documentation on the new device handling
is in progress at http://mamedev.org/devwiki/index.php/MAME_Device_Basics
Defined two new casting helpers: [Aaron Giles]
downcast<type>(value) should be used for safe and efficient downcasting
from a base class to a derived class. It wraps static_cast<> by adding
an assert that a matching dynamic_cast<> returns the same result in
debug builds.
crosscast<type>(value) should be used for safe casting from one type to
another in multiple inheritance scenarios. It compiles to a
dynamic_cast<> plus an assert on the result. Since it does not optimize
down to static_cast<>, you should prefer downcast<> over crosscast<>
when you can.
Redefined running_device to be a proper C++ class (now called device_t).
Same for device_config (still called device_config). All devices and
device_configs must now be derived from these base classes. This means
each device type now has a pair of its own unique classes that describe
the device. Drivers are encouraged to use the specific device types
instead of the generic running_device or device_t classes. Drivers that
have a state class defined in their header file are encouraged to use
initializers off the constructor to locate devices. [Aaron Giles]
Removed the following fields from the device and device configuration
classes as they never were necessary or provided any use: device class,
device family, source file, version, credits. [Aaron Giles]
Added templatized variant of machine->device() which performs a downcast
as part of the device fetch. Thus machine->device<timer_device>("timer")
will locate a device named "timer", downcast it to a timer_device, and
assert if the downcast fails. [Aaron Giles]
Removed most publically accessible members of running_device/device_t in
favor of inline accessor functions. The only remaining public member is
machine. Thus all references to device->type are now device->type(), etc.
[Aaron Giles]
Created a number of device interface classes which are designed to be mix-
ins for the device classes, providing specific extended functionality and
information. There are standard interface classes for sound, execution,
state, nvram, memory, and disassembly. Devices can opt into 0 or more of
these classes. [Aaron Giles]
Converted the classic CPU device to a standard device that uses the
execution, state, memory, and disassembly interfaces. Used this new class
(cpu_device) to implement the existing CPU device interface. In the future
it will be possible to convert each CPU core to its own device type, but
for now they are still all CPU devices with a cpu_type() that specifies
exactly which kind of CPU. [Aaron Giles]
Created a new header devlegcy.h which wraps the old device interface using
some special template classes. To use these with an existing device,
simply remove from the device header the DEVICE_GET_INFO() declaration and
the #define mapping the ALL_CAPS name to the DEVICE_GET_INFO. In their
place #include "devlegcy.h" and use the DECLARE_LEGACY_DEVICE() macro.
In addition, there is a DECLARE_LEGACY_SOUND_DEVICE() macro for wrapping
existing sound devices into new-style devices, and a
DECLARE_LEGACY_NVRAM_DEVICE() for wrapping NVRAM devices. Also moved the
token and inline_config members to the legacy device class, as these are
not used in modern devices. [Aaron Giles]
Converted the standard base devices (VIDEO_SCREEN, SPEAKER, and TIMER)
from legacy devices to the new C++ style. Also renamed VIDEO_SCREEN to
simply SCREEN. The various global functions that were previously used to
access information or modify the state of these devices are now replaced
by methods on the device classes. Specifically:
video_screen_configure() == screen->configure()
video_screen_set_visarea() == screen->set_visible_area()
video_screen_update_partial() == screen->update_partial()
video_screen_update_now() == screen->update_now()
video_screen_get_vpos() == screen->vpos()
video_screen_get_hpos() == screen->hpos()
video_screen_get_vblank() == screen->vblank()
video_screen_get_hblank() == screen->hblank()
video_screen_get_width() == screen->width()
video_screen_get_height() == screen->height()
video_screen_get_visible_area() == screen->visible_area()
video_screen_get_time_until_pos() == screen->time_until_pos()
video_screen_get_time_until_vblank_start() ==
screen->time_until_vblank_start()
video_screen_get_time_until_vblank_end() ==
screen->time_until_vblank_end()
video_screen_get_time_until_update() == screen->time_until_update()
video_screen_get_scan_period() == screen->scan_period()
video_screen_get_frame_period() == screen->frame_period()
video_screen_get_frame_number() == screen->frame_number()
timer_device_adjust_oneshot() == timer->adjust()
timer_device_adjust_periodic() == timer->adjust()
timer_device_reset() == timer->reset()
timer_device_enable() == timer->enable()
timer_device_enabled() == timer->enabled()
timer_device_get_param() == timer->param()
timer_device_set_param() == timer->set_param()
timer_device_get_ptr() == timer->get_ptr()
timer_device_set_ptr() == timer->set_ptr()
timer_device_timeelapsed() == timer->time_elapsed()
timer_device_timeleft() == timer->time_left()
timer_device_starttime() == timer->start_time()
timer_device_firetime() == timer->fire_time()
Updated all drivers that use the above functions to fetch the specific
device type (timer_device or screen_device) and call the appropriate
method. [Aaron Giles]
Changed machine->primary_screen and the 'screen' parameter to VIDEO_UPDATE
to specifically pass in a screen_device object. [Aaron Giles]
Defined a new custom interface for the Z80 daisy chain. This interface
behaves like the standard interfaces, and can be added to any device that
implements the Z80 daisy chain behavior. Converted all existing Z80 daisy
chain devices to new-style devices that inherit this interface.
[Aaron Giles]
Changed the way CPU state tables are built up. Previously, these were data
structures defined by a CPU core which described all the registers and how
to output them. This functionality is now part of the state interface and
is implemented via the device_state_entry class. Updated all CPU cores
which were using the old data structure to use the new form. The syntax is
currently awkward, but will be cleaner for CPUs that are native new
devices. [Aaron Giles]
Converted the okim6295 and eeprom devices to the new model. These were
necessary because they both require multiple interfaces to operate and it
didn't make sense to create legacy device templates for these single cases.
(okim6295 needs the sound interface and the memory interface, while eeprom
requires both the nvram and memory interfaces). [Aaron Giles]
Changed parameters in a few callback functions from pointers to references
in situations where they are guaranteed to never be NULL. [Aaron Giles]
Removed MDRV_CPU_FLAGS() which was only used for disabling a CPU. Changed
it to MDRV_DEVICE_DISABLE() instead. Updated drivers. [Aaron Giles]
Reorganized the token parsing for machine configurations. The core parsing
code knows how to create/replace/remove devices, but all device token
parsing is now handled in the device_config class, which in turn will make
use of any interface classes or device-specific token handling for custom
token processing. [Aaron Giles]
Moved many validity checks out of validity.c and into the device interface
classes. For example, address space validation is now part of the memory
interface class. [Aaron Giles]
Consolidated address space parameters (bus width, endianness, etc.) into
a single address_space_config class. Updated all code that queried for
address space parameters to use the new mechanism. [Aaron Giles]
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ddenlovr.c, dynax.c: replaced memory_set_bankptr with memory_set_bankp and added save state support [Fabio Priuli]
side note: this and rev.8619 took definitely more time than I expected (especially to test as many drivers as possible), but there should be no regressions
/me crossing fingers
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usage.
Also converted a few more places to use the new accessors.
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is now separate from runtime device state. I have larger plans
for devices, so there is some temporary scaffolding to hold
everything together, but this first step does separate things
out.
There is a new class 'running_device' which represents the
state of a live device. A list of these running_devices sits
in machine->devicelist and is created when a running_machine
is instantiated.
To access the configuration state, use device->baseconfig()
which returns a reference to the configuration.
The list of running_devices in machine->devicelist has a 1:1
correspondance with the list of device configurations in
machine->config->devicelist, and most navigation options work
equally on either (scanning by class, type, etc.)
For the most part, drivers will now deal with running_device
objects instead of const device_config objects. In fact, in
order to do this patch, I did the following global search &
replace:
const device_config -> running_device
device->static_config -> device->baseconfig().static_config
device->inline_config -> device->baseconfig().inline_config
and then fixed up the compiler errors that fell out.
Some specifics:
Removed device_get_info_* functions and replaced them with
methods called get_config_*.
Added methods for get_runtime_* to access runtime state from
the running_device.
DEVICE_GET_INFO callbacks are only passed a device_config *.
This means they have no access to the token or runtime state
at all. For most cases this is fine.
Added new DEVICE_GET_RUNTIME_INFO callback that is passed
the running_device for accessing data that is live at runtime.
In the future this will go away to make room for a cleaner
mechanism.
Cleaned up the handoff of memory regions from the memory
subsystem to the devices.
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devtag_get_device ... machine->device()
memory_find_address_space ... device->space()
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enabled and declare Reach, MAME crashes.
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- Created new central header "emu.h"; this should be included
by pretty much any driver or device as the first include. This
file in turn includes pretty much everything a driver or device
will need, minus any other devices it references. Note that
emu.h should *never* be included by another header file.
- Updated all files in the core (src/emu) to use emu.h.
- Removed a ton of redundant and poorly-tracked header includes
from within other header files.
- Temporarily changed driver.h to map to emu.h until we update
files outside of the core.
Added class wrapper around tagmap so it can be directly included
and accessed within objects that need it. Updated all users to
embed tagmap objects and changed them to call through the class.
Added nicer functions for finding devices, ports, and regions in
a machine:
machine->device("tag") -- return the named device, or NULL
machine->port("tag") -- return the named port, or NULL
machine->region("tag"[, &length[, &flags]]) -- return the
named region and optionally its length and flags
Made the device tag an astring. This required touching a lot of
code that printed the device to explicitly fetch the C-string
from it. (Thank you gcc for flagging that issue!)
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New games added or promoted from NOT_WORKING status
---------------------------------------------------
Mahjong Gekisha [Luca Elia, Guru, Dyq, Bnathan]
New clones added
----------------
Hana Jingi (Japan, Bet) [Luca Elia, Guru, Brian Troha, Yasuhiro Ogawa]
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to devintrf (including endianness). Removed space array from the
CPU class header. Made the memory system much more device-neutral.
Various other cleanups along the way.
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New games added or promoted from NOT_WORKING status
---------------------------------------------------
Mahjong Vegas (unprotected set) [Luca Elia, Uki]
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bus width and shift CPU interface constants. Changed all the cores
to use them.
Minor spacing cleanup in Z80, Z180, TMS34010, ADSP21xx cores.
Changed ADSP21xx cores to accept a configuration struct instead of
using set_info to specify serial port callbacks. Simplified the
ADSP21xx get/set info significantly. Removed support for only
including certain variants of the chips; they are now either all
supported or all unsupported.
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Changed Z80 over to the new cpu_state_table mechanism.
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