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718112a8fe
Currently none of these is being used, but eventually they will, once more code gets ported over. So it's better to have them right away and avoid editing the project file too much, only to revert that later.
120 lines
3 KiB
C++
120 lines
3 KiB
C++
// Z80 CPU emulator
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// Game_Music_Emu https://bitbucket.org/mpyne/game-music-emu/
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#ifndef KSS_CPU_H
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#define KSS_CPU_H
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#include "blargg_endian.h"
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typedef blargg_long cpu_time_t;
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// must be defined by caller
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void kss_cpu_out( class Kss_Cpu*, cpu_time_t, unsigned addr, int data );
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int kss_cpu_in( class Kss_Cpu*, cpu_time_t, unsigned addr );
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void kss_cpu_write( class Kss_Cpu*, unsigned addr, int data );
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class Kss_Cpu {
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public:
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// Clear registers and map all pages to unmapped
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void reset( void* unmapped_write, void const* unmapped_read );
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// Map memory. Start and size must be multiple of page_size.
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enum { page_size = 0x2000 };
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void map_mem( unsigned addr, blargg_ulong size, void* write, void const* read );
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// Map address to page
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uint8_t* write( unsigned addr );
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uint8_t const* read( unsigned addr );
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// Run until specified time is reached. Returns true if suspicious/unsupported
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// instruction was encountered at any point during run.
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bool run( cpu_time_t end_time );
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// Time of beginning of next instruction
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cpu_time_t time() const { return state->time + state->base; }
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// Alter current time. Not supported during run() call.
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void set_time( cpu_time_t t ) { state->time = t - state->base; }
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void adjust_time( int delta ) { state->time += delta; }
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#if BLARGG_BIG_ENDIAN
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struct regs_t { uint8_t b, c, d, e, h, l, flags, a; };
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#else
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struct regs_t { uint8_t c, b, e, d, l, h, a, flags; };
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#endif
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BOOST_STATIC_ASSERT( sizeof (regs_t) == 8 );
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struct pairs_t { uint16_t bc, de, hl, fa; };
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// Registers are not updated until run() returns
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struct registers_t {
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uint16_t pc;
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uint16_t sp;
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uint16_t ix;
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uint16_t iy;
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union {
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regs_t b; // b.b, b.c, b.d, b.e, b.h, b.l, b.flags, b.a
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pairs_t w; // w.bc, w.de, w.hl. w.fa
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};
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union {
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regs_t b;
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pairs_t w;
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} alt;
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uint8_t iff1;
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uint8_t iff2;
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uint8_t r;
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uint8_t i;
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uint8_t im;
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};
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//registers_t r; (below for efficiency)
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enum { idle_addr = 0xFFFF };
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// can read this far past end of a page
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enum { cpu_padding = 0x100 };
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public:
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Kss_Cpu();
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enum { page_shift = 13 };
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enum { page_count = 0x10000 >> page_shift };
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private:
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uint8_t szpc [0x200];
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cpu_time_t end_time_;
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struct state_t {
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uint8_t const* read [page_count + 1];
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uint8_t * write [page_count + 1];
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cpu_time_t base;
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cpu_time_t time;
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};
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state_t* state; // points to state_ or a local copy within run()
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state_t state_;
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void set_end_time( cpu_time_t t );
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void set_page( int i, void* write, void const* read );
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public:
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registers_t r;
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};
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#if BLARGG_NONPORTABLE
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#define KSS_CPU_PAGE_OFFSET( addr ) (addr)
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#else
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#define KSS_CPU_PAGE_OFFSET( addr ) ((addr) & (page_size - 1))
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#endif
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inline uint8_t* Kss_Cpu::write( unsigned addr )
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{
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return state->write [addr >> page_shift] + KSS_CPU_PAGE_OFFSET( addr );
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}
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inline uint8_t const* Kss_Cpu::read( unsigned addr )
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{
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return state->read [addr >> page_shift] + KSS_CPU_PAGE_OFFSET( addr );
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}
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inline void Kss_Cpu::set_end_time( cpu_time_t t )
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{
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cpu_time_t delta = state->base - t;
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state->base = t;
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state->time += delta;
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}
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#endif
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