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a8de4fc2da
everything that was new for XP. - Swapped snes_spc out for the full Game Music Emu library. SVN r1631 (trunk)
194 lines
9.2 KiB
Text
194 lines
9.2 KiB
Text
Game_Music_Emu 0.5.2 Design
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---------------------------
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This might be slightly out-of-date at times, but will be a big help in
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understanding the library implementation.
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Architecture
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------------
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The library is essentially a bunch of independent game music file
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emulators unified with a common interface.
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Gme_File and Music_Emu provide a common interface to the emulators. The
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virtual functions are protected rather than public to allow pre- and
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post-processing of arguments and data in one place. This allows the
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emulator classes to assume that everything is set up properly when
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starting a track and playing samples.
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All file input is done with the Data_Reader interface. Many derived
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classes are present, for the usual disk-based file and block of memory,
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to specialized adaptors for things like reading a subset of data or
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combining a block of memory with a Data_Reader to the remaining data.
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This makes the library much more flexible with regard to the source of
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game music file data. I still added a specialized load_mem() function to
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have the emulator keep a pointer to data already read in memory, for
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those formats whose files can be absolutely huge (GYM, some VGMs). This
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is important if for some reason the caller must load the data ahead of
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time, but doesn't want the emulator needlessly making a copy.
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Since silence checking and fading are relatively complex, they are kept
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separate from basic file loading and track information, which are
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handled in the base class Gme_File. My original intent was to use
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Gme_File as the common base class for full emulators and track
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information-only readers, but implementing the C interface was much
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simpler if both derived from Music_Emu. User C++ code can still benefit
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from static checking by using Gme_File where only track information will
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be accessed.
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Each emulator generally has three components: main emulator, CPU
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emulator, and sound chip emulator(s). Each component has minimal
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coupling, so use in a full emulator or stand alone is fairly easy. This
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modularity really helps reduce complexity. Blip_Buffer helps a lot with
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simplifying the APU interfaces and implementation.
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The "classic" emulators derive from Classic_Emu, which handles
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Blip_Buffer filling and multiple channels. It uses Multi_Buffer for
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output, allowing you to derive a custom buffer that could output each
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voice to a separate sound channel and do different processing on each.
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At some point I'm going to implement a better Effects_Buffer that allows
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individual control of every channel.
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In implementing the C interface, I wanted a way to specify an emulator
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type that didn't require linking in all the emulators. For each emulator
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type there is a global object with pointers to functions to create the
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emulator or a track information reader. The emulator type is thus a
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pointer to this, which conveniently allows for a NULL value. The user
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referencing this emulator type object is what ultimately links the
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emulator in (unless new Foo_Emu is used in C++, of course). This type
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also serves as a useful substitute for RTTI on older C++ compilers.
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Addendum: I have since added gme_type_list(), which causes all listed
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emulators to be linked in. To avoid this, I make the list itself
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editable in blargg_config.h. Having a built-in list allows
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gme_load_file() to take a path and give back an emulator with the file
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loaded, which is extremely useful for new users.
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Interface conventions
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----------------------
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If a function retains a pointer to or replaces the value of an object
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passed, it takes a pointer so that it will be clear in the caller's
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source code that care is required.
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Multi-word names have an underscore '_' separator between individual
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words.
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Functions are named with lowercase words. Functions which perform an
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action with side-effects are named with a verb phrase (i.e. load, move,
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run). Functions which return the value of a piece of state are named
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using a noun phrase (i.e. loaded, moved, running).
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Classes are named with capitalized words. Only the first letter of an
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acronym is capitalized. Class names are nouns, sometimes suggestive of
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what they do (i.e. File_Scanner).
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Structure, enumeration, and typedefs to these and built-in types are
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named using lowercase words with a _t suffix.
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Macros are named with all-uppercase words.
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Internal names which can't be hidden due to technical reasons have an
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underscore '_' suffix.
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Managing Complexity
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-------------------
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Complexity has been a factor in most library decisions. Many features
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have been passed by due to the complexity they would add. Once
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complexity goes past a certain level, it mentally grasping the library
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in its entirety, at which point more defects will occur and be hard to
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find.
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I chose 16-bit signed samples because it seems to be the most common
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format. Supporting multiple formats would add too much complexity to be
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worth it. Other formats can be obtained via conversion.
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I've kept interfaces fairly lean, leaving many possible features
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untapped but easy to add if necessary. For example the classic emulators
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could have volume and frequency equalization adjusted separately for
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each channel, since they each have an associated Blip_Synth.
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Source files of 400 lines or less seem to be the best size to limit
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complexity. In a few cases there is no reasonable way to split longer
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files, or there is benefit from having the source together in one file.
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Preventing Bugs
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---------------
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I've done many things to reduce the opportunity for defects. A general
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principle is to write code so that defects will be as visible as
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possible. I've used several techniques to achieve this.
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I put assertions at key points where defects seem likely or where
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corruption due to a defect is likely to be visible. I've also put
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assertions where violations of the interface are likely. In emulators
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where I am unsure of exact hardware operation in a particular case, I
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output a debug-only message noting that this has occurred; many times I
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haven't implemented a hardware feature because nothing uses it. I've
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made code brittle where there is no clear reason flexibility; code
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written to handle every possibility sacrifices quality and reliability
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to handle vaguely defined situations.
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Flexibility through indirection
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-------------------------------
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I've tried to allow the most flexibility of modules by using indirection
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to allow extension by the user. This keeps each module simpler and more
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focused on its unique task.
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The classic emulators use Multi_Buffer, which potentially allows a
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separate Blip_Buffer for each channel. This keeps emulators free of
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typical code to allow output in mono, stereo, panning, etc.
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All emulators use a reader object to access file data, allowing it to be
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stored in a regular file, compressed archive, memory, or generated
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on-the-fly. Again, the library can be kept free of the particulars of
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file access and changes required to support new formats.
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Emulators in general
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--------------------
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When I wrote the first NES sound emulator, I stored most of the state in
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an emulator-specific format, with significant redundancy. In the
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register write function I decoded everything into named variables. I
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became tired of the verbosity and wanted to more closely model the
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hardware, so I moved to a style of storing the last written value to
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each register, along with as little other state as possible, mostly the
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internal hardware registers. While this involves slightly more
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recalculation, in most cases the emulation code is of comparable size.
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It also makes state save/restore (for use in a full emulator) much
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simpler. Finally, it makes debugging easier since the hardware registers
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used in emulation are obvious.
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CPU Cores
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---------
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I've spent lots of time coming up with techniques to optimize the CPU
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cores. Some of the most important: execute multiple instructions during
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an emulation call, keep state in local variables to allow register
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assignment, optimize state representation for most common instructions,
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defer status flag calculation until actually needed, read program code
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directly without a call to the memory read function, always pre-fetch
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the operand byte before decoding instruction, and emulate instructions
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using common blocks of code.
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I've successfully used Nes_Cpu in a fairly complete NES emulator, and
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I'd like to make all the CPU emulators suitable for use in emulators. It
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seems a waste for them to be used only for the small amount of emulation
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necessary for game music files.
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I debugged the CPU cores by writing a test shell that ran them in
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parallel with other CPU cores and compared all memory accesses and
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processor states at each step. This provided good value at little cost.
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The CPU mapping page size is adjustable to allow the best tradeoff
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between memory/cache usage and handler granularity. The interface allows
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code to be somewhat independent of the page size.
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I optimize program memory accesses to direct reads rather than calls to
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the memory read function. My assumption is that it would be difficult to
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get useful code out of hardware I/O addresses, so no software will
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intentionally execute out of I/O space. Since the page size can be
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changed easily, most program memory mapping schemes can be accommodated.
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This greatly reduces memory access function calls.
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