// license:BSD-3-Clause
// copyright-holders:Olivier Galibert
#include "emu.h"
#include "emumem_hea.h"
#include "emumem_heun.h"
template<int Width, int AddrShift> emu::detail::handler_entry_size_t<Width> handler_entry_read_unmapped<Width, AddrShift>::read(offs_t offset, uX mem_mask) const
{
if (this->m_space->log_unmap() && !this->m_space->m_manager.machine().side_effects_disabled())
this->m_space->device().logerror(this->m_space->is_octal()
? "%s: unmapped %s memory read from %0*o & %0*o\n"
: "%s: unmapped %s memory read from %0*X & %0*X\n",
this->m_space->m_manager.machine().describe_context(), this->m_space->name(),
this->m_space->addrchars(), offset,
2 << Width, mem_mask);
return this->m_space->unmap();
}
template<int Width, int AddrShift> emu::detail::handler_entry_size_t<Width> handler_entry_read_unmapped<Width, AddrShift>::read_interruptible(offs_t offset, uX mem_mask) const
{
if (this->m_space->log_unmap() && !this->m_space->m_manager.machine().side_effects_disabled())
this->m_space->device().logerror(this->m_space->is_octal()
? "%s: unmapped %s memory read from %0*o & %0*o\n"
: "%s: unmapped %s memory read from %0*X & %0*X\n",
this->m_space->m_manager.machine().describe_context(), this->m_space->name(),
this->m_space->addrchars(), offset,
2 << Width, mem_mask);
return this->m_space->unmap();
}
template<int Width, int AddrShift> std::pair<emu::detail::handler_entry_size_t<Width>, u16> handler_entry_read_unmapped<Width, AddrShift>::read_flags(offs_t offset, uX mem_mask) const
{
if (this->m_space->log_unmap() && !this->m_space->m_manager.machine().side_effects_disabled())
this->m_space->device().logerror(this->m_space->is_octal()
? "%s: unmapped %s memory read from %0*o & %0*o\n"
: "%s: unmapped %s memory read from %0*X & %0*X\n",
this->m_space->m_manager.machine().describe_context(), this->m_space->name(),
this->m_space->addrchars(), offset,
2 << Width, mem_mask);
return std::pair<uX, u16>(this->m_space->unmap(), this->m_flags);
}
template<int Width, int AddrShift> u16 handler_entry_read_unmapped<Width, AddrShift>::lookup_flags(offs_t offset, uX mem_mask) const
{
if (this->m_space->log_unmap() && !this->m_space->m_manager.machine().side_effects_disabled())
this->m_space->device().logerror(this->m_space->is_octal()
? "%s: unmapped %s memory read flags lookup from %0*o & %0*o\n"
: "%s: unmapped %s memory read flags lookup from %0*X & %0*X\n",
this->m_space->m_manager.machine().describe_context(), this->m_space->name(),
this->m_space->addrchars(), offset,
2 << Width, mem_mask);
return this->m_flags;
}
template<int Width, int AddrShift> std::string handler_entry_read_unmapped<Width, AddrShift>::name() const
{
return "unmapped";
}
template<int Width, int AddrShift> void handler_entry_write_unmapped<Width, AddrShift>::write(offs_t offset, uX data, uX mem_mask)const
{
if (this->m_space->log_unmap() && !this->m_space->m_manager.machine().side_effects_disabled())
this->m_space->device().logerror(this->m_space->is_octal()
? "%s: unmapped %s memory write to %0*o = %0*o & %0*o\n"
: "%s: unmapped %s memory write to %0*X = %0*X & %0*X\n",
this->m_space->m_manager.machine().describe_context(), this->m_space->name(),
this->m_space->addrchars(), offset,
2 << Width, data,
2 << Width, mem_mask);
}
template<int Width, int AddrShift> void handler_entry_write_unmapped<Width, AddrShift>::write_interruptible(offs_t offset, uX data, uX mem_mask)const
{
if (this->m_space->log_unmap() && !this->m_space->m_manager.machine().side_effects_disabled())
this->m_space->device().logerror(this->m_space->is_octal()
? "%s: unmapped %s memory write to %0*o = %0*o & %0*o\n"
: "%s: unmapped %s memory write to %0*X = %0*X & %0*X\n",
this->m_space->m_manager.machine().describe_context(), this->m_space->name(),
this->m_space->addrchars(), offset,
2 << Width, data,
2 << Width, mem_mask);
}
template<int Width, int AddrShift> u16 handler_entry_write_unmapped<Width, AddrShift>::write_flags(offs_t offset, uX data, uX mem_mask)const
{
if (this->m_space->log_unmap() && !this->m_space->m_manager.machine().side_effects_disabled())
this->m_space->device().logerror(this->m_space->is_octal()
? "%s: unmapped %s memory write to %0*o = %0*o & %0*o\n"
: "%s: unmapped %s memory write to %0*X = %0*X & %0*X\n",
this->m_space->m_manager.machine().describe_context(), this->m_space->name(),
this->m_space->addrchars(), offset,
2 << Width, data,
2 << Width, mem_mask);
return this->m_flags;
}
template<int Width, int AddrShift> u16 handler_entry_write_unmapped<Width, AddrShift>::lookup_flags(offs_t offset, uX mem_mask)const
{
if (this->m_space->log_unmap() && !this->m_space->m_manager.machine().side_effects_disabled())
this->m_space->device().logerror(this->m_space->is_octal()
? "%s: unmapped %s write flags lookup from %0*o & %0*o\n"
: "%s: unmapped %s write flags lookup from %0*X & %0*X\n",
this->m_space->m_manager.machine().describe_context(), this->m_space->name(),
this->m_space->addrchars(), offset,
2 << Width, mem_mask);
return this->m_flags;
}
template<int Width, int AddrShift> std::string handler_entry_write_unmapped<Width, AddrShift>::name() const
{
return "unmapped";
}
template<int Width, int AddrShift> emu::detail::handler_entry_size_t<Width> handler_entry_read_nop<Width, AddrShift>::read(offs_t offset, uX mem_mask) const
{
return this->m_space->unmap();
}
template<int Width, int AddrShift> emu::detail::handler_entry_size_t<Width> handler_entry_read_nop<Width, AddrShift>::read_interruptible(offs_t offset, uX mem_mask) const
{
return this->m_space->unmap();
}
template<int Width, int AddrShift> std::pair<emu::detail::handler_entry_size_t<Width>, u16> handler_entry_read_nop<Width, AddrShift>::read_flags(offs_t offset, uX mem_mask) const
{
return std::pair<uX, u16>(this->m_space->unmap(), this->m_flags);
}
template<int Width, int AddrShift> u16 handler_entry_read_nop<Width, AddrShift>::lookup_flags(offs_t offset, uX mem_mask) const
{
return this->m_flags;
}
template<int Width, int AddrShift> std::string handler_entry_read_nop<Width, AddrShift>::name() const
{
return "nop";
}
template<int Width, int AddrShift> void handler_entry_write_nop<Width, AddrShift>::write(offs_t offset, uX data, uX mem_mask) const
{
}
template<int Width, int AddrShift> void handler_entry_write_nop<Width, AddrShift>::write_interruptible(offs_t offset, uX data, uX mem_mask) const
{
}
template<int Width, int AddrShift> u16 handler_entry_write_nop<Width, AddrShift>::write_flags(offs_t offset, uX data, uX mem_mask) const
{
return this->m_flags;
}
template<int Width, int AddrShift> u16 handler_entry_write_nop<Width, AddrShift>::lookup_flags(offs_t offset, uX mem_mask) const
{
return this->m_flags;
}
template<int Width, int AddrShift> std::string handler_entry_write_nop<Width, AddrShift>::name() const
{
return "nop";
}
template class handler_entry_read_unmapped<0, 1>;
template class handler_entry_read_unmapped<0, 0>;
template class handler_entry_read_unmapped<1, 3>;
template class handler_entry_read_unmapped<1, 0>;
template class handler_entry_read_unmapped<1, -1>;
template class handler_entry_read_unmapped<2, 3>;
template class handler_entry_read_unmapped<2, 0>;
template class handler_entry_read_unmapped<2, -1>;
template class handler_entry_read_unmapped<2, -2>;
template class handler_entry_read_unmapped<3, 0>;
template class handler_entry_read_unmapped<3, -1>;
template class handler_entry_read_unmapped<3, -2>;
template class handler_entry_read_unmapped<3, -3>;
template class handler_entry_write_unmapped<0, 1>;
template class handler_entry_write_unmapped<0, 0>;
template class handler_entry_write_unmapped<1, 3>;
template class handler_entry_write_unmapped<1, 0>;
template class handler_entry_write_unmapped<1, -1>;
template class handler_entry_write_unmapped<2, 3>;
template class handler_entry_write_unmapped<2, 0>;
template class handler_entry_write_unmapped<2, -1>;
template class handler_entry_write_unmapped<2, -2>;
template class handler_entry_write_unmapped<3, 0>;
template class handler_entry_write_unmapped<3, -1>;
template class handler_entry_write_unmapped<3, -2>;
template class handler_entry_write_unmapped<3, -3>;
template class handler_entry_read_nop<0, 1>;
template class handler_entry_read_nop<0, 0>;
template class handler_entry_read_nop<1, 3>;
template class handler_entry_read_nop<1, 0>;
template class handler_entry_read_nop<1, -1>;
template class handler_entry_read_nop<2, 3>;
template class handler_entry_read_nop<2, 0>;
template class handler_entry_read_nop<2, -1>;
template class handler_entry_read_nop<2, -2>;
template class handler_entry_read_nop<3, 0>;
template class handler_entry_read_nop<3, -1>;
template class handler_entry_read_nop<3, -2>;
template class handler_entry_read_nop<3, -3>;
template class handler_entry_write_nop<0, 1>;
template class handler_entry_write_nop<0, 0>;
template class handler_entry_write_nop<1, 3>;
template class handler_entry_write_nop<1, 0>;
template class handler_entry_write_nop<1, -1>;
template class handler_entry_write_nop<2, 3>;
template class handler_entry_write_nop<2, 0>;
template class handler_entry_write_nop<2, -1>;
template class handler_entry_write_nop<2, -2>;
template class handler_entry_write_nop<3, 0>;
template class handler_entry_write_nop<3, -1>;
template class handler_entry_write_nop<3, -2>;
template class handler_entry_write_nop<3, -3>;