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path: root/src/emu/speaker.h
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* Bulk convert files that already had standard BSD license in my name Aaron Giles2013-10-161-31/+2
| | | | to new license tagged form.
* output of new srcclean changes that are relatively small [smf] smf-2013-01-111-2/+1
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* Cleanups and version bumpmame0148 Miodrag Milanovic2013-01-111-8/+8
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* Create a new device_mixer_interface, derived from device_sound_interface, Aaron Giles2012-02-251-11/+11
| | | | | | | | | | which mixes all its inputs to a single output stream. Redefined the SPEAKER device to use this and remove the duplicate underlying logic. The main purpose of this new interface is to allow device-ification of an entire sound board, which can itself become a mixer of all of its sound components to a single output stream. This stream can then be routed by the device's owner to the appropriate speakers. A real-life example will show up soon.
* Move devices into a proper hierarchy and handle naming Aaron Giles2012-01-241-3/+4
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | 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.
* Collapsed device_config and device_t into one class. Updated all Aaron Giles2011-04-271-33/+11
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | existing modern devices and the legacy wrappers to work in this environment. This in general greatly simplifies writing a modern device. [Aaron Giles] General notes: * some more cleanup probably needs to happen behind this change, but I needed to get it in before the next device modernization or import from MESS :) * new template function device_creator which automatically defines the static function that creates the device; use this instead of creating a static_alloc_device_config function * added device_stop() method which is called at around the time the previous device_t's destructor was called; if you auto_free anything, do it here because the machine is gone when the destructor is called * changed the static_set_* calls to pass a device_t & instead of a device_config * * for many devices, the static config structure member names over- lapped the device's names for devcb_* functions; in these cases the members in the interface were renamed to have a _cb suffix * changed the driver_enumerator to only cache 100 machine_configs because caching them all took a ton of memory; fortunately this implementation detail is completely hidden behind the driver_enumerator interface * got rid of the macros for creating derived classes; doing it manually is now clean enough that it isn't worth hiding the details in a macro
* Moved the state saving system to C++. For now the registration macros Aaron Giles2011-02-081-49/+4
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | are still intact. The new state_manager class has templatized methods for saving the various types, and through template specialization can save more complex system types cleanly (like bitmaps and attotimes). Added new mechanism to detect proper state save types. This is much more strict and there will likely be some games/devices that fatalerror at startup until they are remedied. Spot checking has caught the more common situations. The new state_manager is embedded directly in the running_machine, allowing objects to register state saving in their constructors now. Added NAME() macro which is a generalization of FUNC() and can be used to wrap variables that are registered when directly using the new methods as opposed to the previous macros. For example: machine->state().save_item(NAME(global_item)) Added methods in the device_t class that implicitly register state against the current device, making for a cleaner interface. Just a couple of required regexes for now: state_save_register_postload( *)\(( *)([^,;]+), * \3->state().register_postload\1\(\2 state_save_register_presave( *)\(( *)([^,;]+), * \3->state().register_presave\1\(\2
* Whoops, missed some files. Aaron Giles2011-01-271-0/+187