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// license:BSD-3-Clause
// copyright-holders:Olivier Galibert
#ifndef MAME_EMU_EMUMEM_HEDR_H
#define MAME_EMU_EMUMEM_HEDR_H
#pragma once
// handler_entry_read_dispatch
// dispatches an access among multiple handlers indexed on part of the
// address and when appropriate a selected view
template<int HighBits, int Width, int AddrShift> class handler_entry_read_dispatch : public handler_entry_read<Width, AddrShift>
{
public:
using uX = emu::detail::handler_entry_size_t<Width>;
using mapping = typename handler_entry_read<Width, AddrShift>::mapping;
handler_entry_read_dispatch(address_space *space, const handler_entry::range &init, handler_entry_read<Width, AddrShift> *handler);
handler_entry_read_dispatch(address_space *space, memory_view &view);
handler_entry_read_dispatch(handler_entry_read_dispatch<HighBits, Width, AddrShift> *src);
~handler_entry_read_dispatch();
uX read(offs_t offset, uX mem_mask) const override;
uX read_interruptible(offs_t offset, uX mem_mask) const override;
std::pair<uX, u16> read_flags(offs_t offset, uX mem_mask) const override;
u16 lookup_flags(offs_t offset, uX mem_mask) const override;
void *get_ptr(offs_t offset) const override;
void lookup(offs_t address, offs_t &start, offs_t &end, handler_entry_read<Width, AddrShift> *&handler) const override;
offs_t dispatch_entry(offs_t address) const override;
void dump_map(std::vector<memory_entry> &map) const override;
std::string name() const override;
void populate_nomirror(offs_t start, offs_t end, offs_t ostart, offs_t oend, handler_entry_read<Width, AddrShift> *handler) override;
void populate_mirror(offs_t start, offs_t end, offs_t ostart, offs_t oend, offs_t mirror, handler_entry_read<Width, AddrShift> *handler) override;
void populate_mismatched_nomirror(offs_t start, offs_t end, offs_t ostart, offs_t oend, const memory_units_descriptor<Width, AddrShift> &descriptor, u8 rkey, std::vector<mapping> &mappings) override;
void populate_mismatched_mirror(offs_t start, offs_t end, offs_t ostart, offs_t oend, offs_t mirror, const memory_units_descriptor<Width, AddrShift> &descriptor, std::vector<mapping> &mappings) override;
void populate_passthrough_nomirror(offs_t start, offs_t end, offs_t ostart, offs_t oend, handler_entry_read_passthrough<Width, AddrShift> *handler, std::vector<mapping> &mappings) override;
void populate_passthrough_mirror(offs_t start, offs_t end, offs_t ostart, offs_t oend, offs_t mirror, handler_entry_read_passthrough<Width, AddrShift> *handler, std::vector<mapping> &mappings) override;
void detach(const std::unordered_set<handler_entry *> &handlers) override;
void range_cut_before(offs_t address, int start = COUNT);
void range_cut_after(offs_t address, int start = -1);
void enumerate_references(handler_entry::reflist &refs) const override;
const handler_entry_read<Width, AddrShift> *const *get_dispatch() const override;
void select_a(int slot) override;
void select_u(int slot) override;
void init_handlers(offs_t start_entry, offs_t end_entry, u32 lowbits, offs_t ostart, offs_t oend, handler_entry_read<Width, AddrShift> **dispatch, handler_entry::range *ranges) override;
handler_entry_read<Width, AddrShift> *dup() override;
private:
static constexpr int Level = emu::detail::handler_entry_dispatch_level(HighBits);
static constexpr u32 LowBits = emu::detail::handler_entry_dispatch_lowbits(HighBits, Width, AddrShift);
static constexpr u32 BITCOUNT = HighBits > LowBits ? HighBits - LowBits : 0;
static constexpr u32 COUNT = 1 << BITCOUNT;
static constexpr offs_t BITMASK = make_bitmask<offs_t>(BITCOUNT);
static constexpr offs_t LOWMASK = make_bitmask<offs_t>(LowBits);
static constexpr offs_t HIGHMASK = make_bitmask<offs_t>(HighBits) ^ LOWMASK;
static constexpr offs_t UPMASK = ~make_bitmask<offs_t>(HighBits);
class handler_array : public std::array<handler_entry_read<Width, AddrShift> *, COUNT>
{
public:
using std::array<handler_entry_read<Width, AddrShift> *, COUNT>::array;
handler_array()
{
std::fill(this->begin(), this->end(), nullptr);
}
};
class range_array : public std::array<handler_entry::range, COUNT>
{
public:
using std::array<handler_entry::range, COUNT>::array;
range_array()
{
std::fill(this->begin(), this->end(), handler_entry::range{ 0, 0 });
}
};
memory_view *m_view;
std::vector<handler_array> m_dispatch_array;
std::vector<range_array> m_ranges_array;
handler_entry_read<Width, AddrShift> **m_a_dispatch;
handler_entry::range *m_a_ranges;
handler_entry_read<Width, AddrShift> **m_u_dispatch;
handler_entry::range *m_u_ranges;
void populate_nomirror_subdispatch(offs_t entry, offs_t start, offs_t end, offs_t ostart, offs_t oend, handler_entry_read<Width, AddrShift> *handler);
void populate_mirror_subdispatch(offs_t entry, offs_t start, offs_t end, offs_t ostart, offs_t oend, offs_t mirror, handler_entry_read<Width, AddrShift> *handler);
void populate_mismatched_nomirror_subdispatch(offs_t entry, offs_t start, offs_t end, offs_t ostart, offs_t oend, const memory_units_descriptor<Width, AddrShift> &descriptor, u8 rkey, std::vector<mapping> &mappings);
void populate_mismatched_mirror_subdispatch(offs_t entry, offs_t start, offs_t end, offs_t ostart, offs_t oend, offs_t mirror, const memory_units_descriptor<Width, AddrShift> &descriptor, std::vector<mapping> &mappings);
void mismatched_patch(const memory_units_descriptor<Width, AddrShift> &descriptor, u8 rkey, std::vector<mapping> &mappings, handler_entry_read<Width, AddrShift> *&target);
void populate_passthrough_nomirror_subdispatch(offs_t entry, offs_t start, offs_t end, offs_t ostart, offs_t oend, handler_entry_read_passthrough<Width, AddrShift> *handler, std::vector<mapping> &mappings);
void populate_passthrough_mirror_subdispatch(offs_t entry, offs_t start, offs_t end, offs_t ostart, offs_t oend, offs_t mirror, handler_entry_read_passthrough<Width, AddrShift> *handler, std::vector<mapping> &mappings);
void passthrough_patch(handler_entry_read_passthrough<Width, AddrShift> *handler, std::vector<mapping> &mappings, handler_entry_read<Width, AddrShift> *&target);
};
#endif // MAME_EMU_EMUMEM_HEDR_H
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