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src.rivoreo.one / emulators / v86 / 9f886e1d5ed2ca3b70c50a2212cba070b11923d7 / . / src / string.macro.js
blob: 33c2a3c0cbbab90162a34b2ed3c5ce502a72890d [file] [log] [blame] [raw]
"use strict";
/*
* string operations
*
* cmp si di
* movs 0 1 1/w A4
* cmps 1 1 1/r A6
* stos 0 0 1/w AA
* lods 0 1 0 AC
* scas 1 0 1/r AE
* ins 0 0 1/w
* outs 0 1 0
*/
#define loop(s, fn)\
do {\
fn;\
if(use_di) dest += size, regv[reg_vdi] += size;\
if(use_si) src += size, regv[reg_vsi] += size;\
cont = --regv[reg_vcx] && (!use_cmp || (data_src === data_dest) === repeat_string_type);\
} while(cont && next_cycle--)
#define aligned_loop(s, fn)\
do {\
fn;\
if(use_di) phys_dest += single_size;\
if(use_si) phys_src += single_size;\
cont = --count && (!use_cmp || (data_src === data_dest) === repeat_string_type);\
} while(cont && next_cycle--)
#define string_instruction(s, fn, aligned_fn)\
var src, dest, data_src, data_dest, phys_dest, phys_src;\
var size = flags & flag_direction ? -(s >> 3) : s >> 3;\
var cont = false;\
if(use_cmp && !use_si) data_src = s === 32 ? reg32s[reg_eax] : reg ## s[reg_al];\
if(use_di) dest = get_seg(reg_es) + regv[reg_vdi] | 0;\
if(use_si) src = get_seg_prefix(reg_ds) + regv[reg_vsi] | 0;\
if(repeat_string_prefix) {\
var count = regv[reg_vcx],\
start_count = count;\
if(count === 0) return;\
var next_cycle = 0x4000;\
var aligned = s === 8 ||\
((!use_di || !(dest & (s >> 3) - 1)) && (!use_si || !(src & (s >> 3) - 1)));\
if(aligned) {\
var single_size = size >> 31 | 1;\
if(paging) {\
if(use_si) {\
next_cycle = (single_size >> 1 ^ ~src) & 0xFFF;\
phys_src = translate_address_read(src);\
}\
if(use_di) {\
next_cycle = Math.min(next_cycle, (single_size >> 1 ^ ~dest) & 0xFFF);\
phys_dest = use_cmp ? translate_address_read(dest) : translate_address_write(dest);\
}\
if(s === 32) next_cycle >>= 2;\
else if(s === 16) next_cycle >>= 1;\
} else {\
if(use_di) phys_dest = dest;\
if(use_si) phys_src = src;\
}\
if(s === 32) { if(use_di) phys_dest >>>= 2; if(use_si) phys_src >>>= 2; }\
else if(s === 16) { if(use_di) phys_dest >>>= 1; if(use_si) phys_src >>>= 1; }\
aligned_loop(s, aligned_fn);\
var diff = size * (start_count - count) | 0;\
if(use_di) regv[reg_vdi] += diff;\
if(use_si) regv[reg_vsi] += diff;\
regv[reg_vcx] = count;\
} else { \
loop(s, fn);\
}\
} else {\
if(s === 8) { \
if(use_si) phys_src = translate_address_read(src);\
if(use_di) phys_dest = use_cmp ? translate_address_read(dest) : translate_address_write(dest);\
aligned_fn; \
} else { fn; }\
if(use_di) regv[reg_vdi] += size;\
if(use_si) regv[reg_vsi] += size;\
}\
if(use_cmp) {\
if(s === 32) cmp32(data_src >>> 0, data_dest >>> 0);\
else cmp ## s(data_src, data_dest);\
}\
if(cont) {\
instruction_pointer = previous_ip;\
}
#define use_cmp false
#define use_si true
#define use_di true
function movsb()
{
string_instruction(8,
{
// no unaligned fn, bytewise is always aligned
}, {
memory.write8(phys_dest, memory.read8(phys_src));
});
}
function movsw()
{
string_instruction(16,
{
safe_write16(dest, safe_read16(src));
}, {
memory.write_aligned16(phys_dest, memory.read_aligned16(phys_src));
});
}
function movsd()
{
// TODO: paging
// For now use standard method
if(repeat_string_prefix && !paging)
{
// often used by memcpy, well worth optimizing
// using memory.mem32s.set
var ds = get_seg_prefix(reg_ds),
src = ds + regv[reg_vsi],
es = get_seg(reg_es),
dest = es + regv[reg_vdi],
count = regv[reg_vcx];
if(!(dest & 3) && !(src & 3) && dest + count < memory_size)
{
dest >>= 2;
src >>= 2;
if(flags & flag_direction)
{
dest -= count - 1;
src -= count - 1;
}
if(paging)
{
// TODO
}
else
{
var diff = flags & flag_direction ? -count << 2 : count << 2;
regv[reg_vcx] = 0;
regv[reg_vdi] += diff;
regv[reg_vsi] += diff;
memory.mem32s.set(memory.mem32s.subarray(src, src + count), dest);
return;
}
}
}
string_instruction(32,
{
safe_write32(dest, safe_read32s(src));
}, {
memory.write_aligned32(phys_dest, memory.read_aligned32(phys_src));
});
}
#undef use_cmp
#undef use_si
#undef use_di
#define use_cmp true
#define use_si true
#define use_di true
function cmpsb()
{
string_instruction(8,
{
}, {
data_dest = memory.read8(phys_dest);
data_src = memory.read8(phys_src);
});
}
function cmpsw()
{
string_instruction(16,
{
data_dest = safe_read16(dest);
data_src = safe_read16(src);
}, {
data_dest = memory.read_aligned16(phys_dest);
data_src = memory.read_aligned16(phys_src);
});
}
function cmpsd()
{
string_instruction(32,
{
data_dest = safe_read32s(dest);
data_src = safe_read32s(src);
}, {
data_dest = memory.read_aligned32(phys_dest);
data_src = memory.read_aligned32(phys_src);
});
}
#undef use_cmp
#undef use_si
#undef use_di
#define use_cmp false
#define use_si false
#define use_di true
function stosb()
{
var data = reg8[reg_al];
string_instruction(8,
{
}, {
memory.write8(phys_dest, data);
});
}
function stosw()
{
var data = reg16[reg_ax];
string_instruction(16,
{
safe_write16(dest, data);
}, {
memory.write_aligned16(phys_dest, data);
});
}
function stosd()
{
//dbg_log("stosd " + ((reg32[reg_edi] & 3) ? "mis" : "") + "aligned", LOG_CPU);
var data = reg32s[reg_eax];
string_instruction(32,
{
safe_write32(dest, data);
}, {
memory.write_aligned32(phys_dest, data);
});
}
#undef use_cmp
#undef use_si
#undef use_di
#define use_cmp false
#define use_si true
#define use_di false
function lodsb()
{
string_instruction(8,
{
}, {
reg8[reg_al] = memory.read8(phys_src);
});
}
function lodsw()
{
string_instruction(16,
{
reg16[reg_ax] = safe_read16(src);
}, {
reg16[reg_ax] = memory.read_aligned16(phys_src);
});
}
function lodsd()
{
string_instruction(32,
{
reg32[reg_eax] = safe_read32s(src);
}, {
reg32[reg_eax] = memory.read_aligned32(phys_src);
});
}
#undef use_cmp
#undef use_si
#undef use_di
#define use_cmp true
#define use_si false
#define use_di true
function scasb()
{
string_instruction(8,
{
}, {
data_dest = memory.read8(phys_dest);
});
}
function scasw()
{
string_instruction(16,
{
data_dest = safe_read16(dest);
}, {
data_dest = memory.read_aligned16(phys_dest);
});
}
function scasd()
{
string_instruction(32,
{
data_dest = safe_read32s(dest);
}, {
data_dest = memory.read_aligned32(phys_dest);
});
}
#undef use_cmp
#undef use_si
#undef use_di
#define use_cmp false
#define use_si false
#define use_di true
function insb()
{
test_privileges_for_io();
var port = reg16[reg_dx];
string_instruction(8,
{
}, {
memory.write8(phys_dest, io.port_read8(port));
});
}
function insw()
{
test_privileges_for_io();
var port = reg16[reg_dx];
string_instruction(16,
{
safe_write16(dest, io.port_read16(port));
}, {
memory.write_aligned16(phys_dest, io.port_read16(port));
});
}
function insd()
{
test_privileges_for_io();
var port = reg16[reg_dx];
string_instruction(32,
{
safe_write32(dest, io.port_read32(port));
}, {
memory.write_aligned32(phys_dest, io.port_read32(port));
});
}
#undef use_cmp
#undef use_si
#undef use_di
#define use_cmp false
#define use_si true
#define use_di false
function outsb()
{
test_privileges_for_io();
var port = reg16[reg_dx];
string_instruction(8,
{
}, {
io.port_write8(port, memory.read8(phys_src));
});
}
function outsw()
{
test_privileges_for_io();
var port = reg16[reg_dx];
string_instruction(16,
{
io.port_write16(port, safe_read16(src));
}, {
io.port_write16(port, memory.read_aligned16(phys_src));
});
}
function outsd()
{
test_privileges_for_io();
var port = reg16[reg_dx];
string_instruction(32,
{
io.port_write32(port, safe_read32s(src));
}, {
io.port_write32(port, memory.read_aligned32(phys_src));
});
}
#undef use_cmp
#undef use_si
#undef use_di
#undef loop
#undef string_instruction