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mm/Lua/lib/lips/data.lua
2016-01-18 20:29:26 -08:00

428 lines
15 KiB
Lua

local data = {}
data.registers = {
[0]=
'R0', 'AT', 'V0', 'V1', 'A0', 'A1', 'A2', 'A3',
'T0', 'T1', 'T2', 'T3', 'T4', 'T5', 'T6', 'T7',
'S0', 'S1', 'S2', 'S3', 'S4', 'S5', 'S6', 'S7',
'T8', 'T9', 'K0', 'K1', 'GP', 'SP', 'FP', 'RA',
}
data.sys_registers = {
[0]=
"INDEX", "RANDOM", "ENTRYLO0", "ENTRYLO1",
"CONTEXT", "PAGEMASK", "WIRED", "RESERVED0",
"BADVADDR", "COUNT", "ENTRYHI", "COMPARE",
"STATUS", "CAUSE", "EPC", "PREVID",
"CONFIG", "LLADDR", "WATCHLO", "WATCHHI",
"XCONTEXT", "RESERVED1", "RESERVED2", "RESERVED3",
"RESERVED4", "RESERVED5", "PERR", "CACHEERR",
"TAGLO", "TAGHI", "ERROREPC", "RESERVED6",
}
data.fpu_registers = {
[0]=
'F0', 'F1', 'F2', 'F3', 'F4', 'F5', 'F6', 'F7',
'F8', 'F9', 'F10', 'F11', 'F12', 'F13', 'F14', 'F15',
'F16', 'F17', 'F18', 'F19', 'F20', 'F21', 'F22', 'F23',
'F24', 'F25', 'F26', 'F27', 'F28', 'F29', 'F30', 'F31',
}
data.all_directives = {
'ORG', 'ALIGN', 'SKIP',
'ASCII', 'ASCIIZ',
'BYTE', 'HALFWORD', 'WORD',
--'HEX', -- excluded here due to different syntax
'INC', 'INCASM', 'INCLUDE',
'INCBIN',
-- these are unlikely to be implemented
'FLOAT', 'DOUBLE',
}
data.directive_aliases = {
SPACE = 'SKIP',
HALF = 'HALFWORD',
}
data.all_registers = {}
for k, v in pairs(data.registers) do
data.all_registers[k] = v
end
for k, v in pairs(data.sys_registers) do
data.all_registers[k + 32] = v
end
for k, v in pairs(data.fpu_registers) do
data.all_registers[k + 64] = v
end
-- set up reverse table lookups
local function revtable(t)
for k, v in pairs(t) do
t[v] = k
end
end
revtable(data.registers)
revtable(data.sys_registers)
revtable(data.fpu_registers)
revtable(data.all_registers)
revtable(data.all_directives)
-- alternate register names
data.registers['ZERO'] = 0
data.all_registers['ZERO'] = 0
data.registers['S8'] = 30
data.all_registers['S8'] = 30
for i=0, 31 do
local r = 'REG'..tostring(i)
data.registers[r] = i
data.all_registers[r] = i
end
data.fmt_single = 16
data.fmt_double = 17
data.fmt_word = 20
data.fmt_long = 21
local __ = {}
data.instructions = {
--[[
data guide:
--INSTRUCTION_NAME = {opcode, infmt, outfmt, const, fmtconst},
underscores are translated to dots later.
opcode: the first 6 bits of the instruction.
infmt: the input format; one character per argument.
outfmt: the output format: R-, I-, and J-types are inferred by length.
const: (optional) the number to replace 'C' with in outfmt.
fmtconst: (optional) the number to replace 'F' with in outfmt.
input format guide:
such and such: expects a...
d: register for rd
s: register for rs
t: register for rt
D: floating point register for fd
S: floating point register for fs
T: floating point register for ft
X: system register for rd
Y: system register for rs (unused)
Z: system register for rt (unused)
o: constant for offset
b: register to dereference for base
r: relative constant or label for offset
I: constant or label for index (long jump)
i: immediate (must fit in a halfword; cannot be a label)
k: immediate to negate (must fit in a halfword; cannot be a label)
K: signed immediate (-0x8000 <= immediate < 0x10000; cannot be a label)
output format guide:
such and such: writes ... at this position
0: zero (sometimes used to refer to R0)
d: rd
s: rs
t: rt
D: fd
S: fs
T: ft
o: offset
b: base
i: immediate (infmt 'i' and 'k' both write to here)
I: index
C: constant (given in argument immediately after)
F: format constant (given in argument after constant)
--]]
J = {2, 'I', 'I'},
JAL = {3, 'I', 'I'},
JALR = {0, 'ds', 's0d0C', 9},
JR = {0, 's', 's000C', 8},
BREAK = {0, '', '0000C', 13},
SYSCALL = {0, '', '0000C', 12},
SYNC = {0, '', '0000C', 15},
LB = {32, 'tob', 'bto'},
LBU = {36, 'tob', 'bto'},
LD = {55, 'tob', 'bto'},
LDL = {26, 'tob', 'bto'},
LDR = {27, 'tob', 'bto'},
LH = {33, 'tob', 'bto'},
LHU = {37, 'tob', 'bto'},
LL = {48, 'tob', 'bto'},
LLD = {52, 'tob', 'bto'},
LW = {35, 'tob', 'bto'},
LWL = {34, 'tob', 'bto'},
LWR = {38, 'tob', 'bto'},
LWU = {39, 'tob', 'bto'},
SB = {40, 'tob', 'bto'},
SC = {56, 'tob', 'bto'},
SCD = {60, 'tob', 'bto'},
SD = {63, 'tob', 'bto'},
SDL = {44, 'tob', 'bto'},
SDR = {45, 'tob', 'bto'},
SH = {41, 'tob', 'bto'},
SW = {43, 'tob', 'bto'},
SWL = {42, 'tob', 'bto'},
SWR = {46, 'tob', 'bto'},
LUI = {15, 'ti', '0ti'},
MFHI = {0, 'd', '00d0C', 16},
MFLO = {0, 'd', '00d0C', 18},
MTHI = {0, 's', 's000C', 17},
MTLO = {0, 's', 's000C', 19},
ADDI = { 8, 'tsK', 'sti'},
ADDIU = { 9, 'tsK', 'sti'},
ANDI = {12, 'tsK', 'sti'},
DADDI = {24, 'tsK', 'sti'},
DADDIU = {25, 'tsK', 'sti'},
ORI = {13, 'tsi', 'sti'},
SLTI = {10, 'tsi', 'sti'},
SLTIU = {11, 'tsi', 'sti'},
XORI = {14, 'tsi', 'sti'},
ADD = {0, 'dst', 'std0C', 32},
ADDU = {0, 'dst', 'std0C', 33},
AND = {0, 'dst', 'std0C', 36},
DADD = {0, 'dst', 'std0C', 44},
DADDU = {0, 'dst', 'std0C', 45},
DSLLV = {0, 'dts', 'std0C', 20},
DSUB = {0, 'dst', 'std0C', 46},
DSUBU = {0, 'dst', 'std0C', 47},
NOR = {0, 'dst', 'std0C', 39},
OR = {0, 'dst', 'std0C', 37},
SLLV = {0, 'dts', 'std0C', 4},
SLT = {0, 'dst', 'std0C', 42},
SLTU = {0, 'dst', 'std0C', 43},
SRAV = {0, 'dts', 'std0C', 7},
SRLV = {0, 'dts', 'std0C', 6},
SUB = {0, 'dst', 'std0C', 34},
SUBU = {0, 'dst', 'std0C', 35},
XOR = {0, 'dst', 'std0C', 38},
DDIV = {0, 'st', 'st00C', 30},
DDIVU = {0, 'st', 'st00C', 31},
DIV = {0, 'st', 'st00C', 26},
DIVU = {0, 'st', 'st00C', 27},
DMULT = {0, 'st', 'st00C', 28},
DMULTU = {0, 'st', 'st00C', 29},
MULT = {0, 'st', 'st00C', 24},
MULTU = {0, 'st', 'st00C', 25},
DSLL = {0, 'dti', '0tdiC', 56},
DSLL32 = {0, 'dti', '0tdiC', 60},
DSRA = {0, 'dti', '0tdiC', 59},
DSRA32 = {0, 'dti', '0tdiC', 63},
DSRAV = {0, 'dts', '0tdsC', 23},
DSRL = {0, 'dti', '0tdiC', 58},
DSRL32 = {0, 'dti', '0tdiC', 62},
DSRLV = {0, 'dts', '0tdsC', 22},
SLL = {0, 'dti', '0tdiC', 0},
SRA = {0, 'dti', '0tdiC', 3},
SRL = {0, 'dti', '0tdiC', 2},
BEQ = { 4, 'str', 'sto'},
BEQL = {20, 'str', 'sto'},
BNE = { 5, 'str', 'sto'},
BNEL = {21, 'str', 'sto'},
BGEZ = { 1, 'sr', 'sCo', 1},
BGEZAL = { 1, 'sr', 'sCo', 17},
BGEZALL = { 1, 'sr', 'sCo', 19},
BGEZL = { 1, 'sr', 'sCo', 3},
BGTZ = { 7, 'sr', 'sCo', 0},
BGTZL = {23, 'sr', 'sCo', 0},
BLEZ = { 6, 'sr', 'sCo', 0},
BLEZL = {22, 'sr', 'sCo', 0},
BLTZ = { 1, 'sr', 'sCo', 0},
BLTZAL = { 1, 'sr', 'sCo', 16},
BLTZALL = { 1, 'sr', 'sCo', 18},
BLTZL = { 1, 'sr', 'sCo', 2},
-- coprocessor-related instructions
TEQ = {0, 'st', 'st00C', 52},
TGE = {0, 'st', 'st00C', 48},
TGEU = {0, 'st', 'st00C', 49},
TLT = {0, 'st', 'st00C', 50},
TLTU = {0, 'st', 'st00C', 51},
TNE = {0, 'st', 'st00C', 54},
TEQI = {1, 'si', 'sCi', 12},
TGEI = {1, 'si', 'sCi', 8},
TGEIU = {1, 'si', 'sCi', 9},
TLTI = {1, 'si', 'sCi', 10},
TLTIU = {1, 'si', 'sCi', 11},
TNEI = {1, 'si', 'sCi', 14},
CFC1 = {17, 'tS', 'CtS00', 2},
CTC1 = {17, 'tS', 'CtS00', 6},
DMFC1 = {17, 'tS', 'CtS00', 1},
DMTC1 = {17, 'tS', 'CtS00', 5},
MFC0 = {16, 'tX', 'Ctd00', 0},
MFC1 = {17, 'tS', 'CtS00', 0},
MTC0 = {16, 'tX', 'Ctd00', 4},
MTC1 = {17, 'tS', 'CtS00', 4},
LDC1 = {53, 'Tob', 'bTo'},
LWC1 = {49, 'Tob', 'bTo'},
SDC1 = {61, 'Tob', 'bTo'},
SWC1 = {57, 'Tob', 'bTo'},
-- immediate limited to 3 bits?
CACHE = {47, 'iob', 'bio'},
-- misuses 'F' to write the initial bit
ERET = {16, '', 'F000C', 24, 16},
TLBP = {16, '', 'F000C', 8, 16},
TLBR = {16, '', 'F000C', 1, 16},
TLBWI = {16, '', 'F000C', 2, 16},
TLBWR = {16, '', 'F000C', 6, 16},
-- only one condition code on the R4300i?
BC1F = {17, 'r', 'FCo', 0, 8},
BC1FL = {17, 'r', 'FCo', 2, 8},
BC1T = {17, 'r', 'FCo', 1, 8},
BC1TL = {17, 'r', 'FCo', 3, 8},
ADD_D = {17, 'DST', 'FTSDC', 0, data.fmt_double},
ADD_S = {17, 'DST', 'FTSDC', 0, data.fmt_single},
DIV_D = {17, 'DST', 'FTSDC', 3, data.fmt_double},
DIV_S = {17, 'DST', 'FTSDC', 3, data.fmt_single},
MUL_D = {17, 'DST', 'FTSDC', 2, data.fmt_double},
MUL_S = {17, 'DST', 'FTSDC', 2, data.fmt_single},
SUB_D = {17, 'DST', 'FTSDC', 1, data.fmt_double},
SUB_S = {17, 'DST', 'FTSDC', 1, data.fmt_single},
C_EQ_D = {17, 'ST', 'FTS0C', 50, data.fmt_double},
C_EQ_S = {17, 'ST', 'FTS0C', 50, data.fmt_single},
C_F_D = {17, 'ST', 'FTS0C', 48, data.fmt_double},
C_F_S = {17, 'ST', 'FTS0C', 48, data.fmt_single},
C_LE_D = {17, 'ST', 'FTS0C', 62, data.fmt_double},
C_LE_S = {17, 'ST', 'FTS0C', 62, data.fmt_single},
C_LT_D = {17, 'ST', 'FTS0C', 60, data.fmt_double},
C_LT_S = {17, 'ST', 'FTS0C', 60, data.fmt_single},
C_NGE_D = {17, 'ST', 'FTS0C', 61, data.fmt_double},
C_NGE_S = {17, 'ST', 'FTS0C', 61, data.fmt_single},
C_NGL_D = {17, 'ST', 'FTS0C', 59, data.fmt_double},
C_NGL_S = {17, 'ST', 'FTS0C', 59, data.fmt_single},
C_NGLE_D= {17, 'ST', 'FTS0C', 57, data.fmt_double},
C_NGLE_S= {17, 'ST', 'FTS0C', 57, data.fmt_single},
C_NGT_D = {17, 'ST', 'FTS0C', 63, data.fmt_double},
C_NGT_S = {17, 'ST', 'FTS0C', 63, data.fmt_single},
C_OLE_D = {17, 'ST', 'FTS0C', 54, data.fmt_double},
C_OLE_S = {17, 'ST', 'FTS0C', 54, data.fmt_single},
C_OLT_D = {17, 'ST', 'FTS0C', 52, data.fmt_double},
C_OLT_S = {17, 'ST', 'FTS0C', 52, data.fmt_single},
C_SEQ_D = {17, 'ST', 'FTS0C', 58, data.fmt_double},
C_SEQ_S = {17, 'ST', 'FTS0C', 58, data.fmt_single},
C_SF_D = {17, 'ST', 'FTS0C', 56, data.fmt_double},
C_SF_S = {17, 'ST', 'FTS0C', 56, data.fmt_single},
C_UEQ_D = {17, 'ST', 'FTS0C', 51, data.fmt_double},
C_UEQ_S = {17, 'ST', 'FTS0C', 51, data.fmt_single},
C_ULE_D = {17, 'ST', 'FTS0C', 55, data.fmt_double},
C_ULE_S = {17, 'ST', 'FTS0C', 55, data.fmt_single},
C_ULT_D = {17, 'ST', 'FTS0C', 53, data.fmt_double},
C_ULT_S = {17, 'ST', 'FTS0C', 53, data.fmt_single},
C_UN_D = {17, 'ST', 'FTS0C', 49, data.fmt_double},
C_UN_S = {17, 'ST', 'FTS0C', 49, data.fmt_single},
CVT_D_L = {17, 'DS', 'F0SDC', 33, data.fmt_long},
CVT_D_S = {17, 'DS', 'F0SDC', 33, data.fmt_single},
CVT_D_W = {17, 'DS', 'F0SDC', 33, data.fmt_word},
CVT_L_D = {17, 'DS', 'F0SDC', 37, data.fmt_double},
CVT_L_S = {17, 'DS', 'F0SDC', 37, data.fmt_single},
CVT_S_D = {17, 'DS', 'F0SDC', 32, data.fmt_double},
CVT_S_L = {17, 'DS', 'F0SDC', 32, data.fmt_long},
CVT_S_W = {17, 'DS', 'F0SDC', 32, data.fmt_word},
CVT_W_D = {17, 'DS', 'F0SDC', 36, data.fmt_double},
CVT_W_S = {17, 'DS', 'F0SDC', 36, data.fmt_single},
ABS_D = {17, 'DS', 'F0SDC', 5, data.fmt_double},
ABS_S = {17, 'DS', 'F0SDC', 5, data.fmt_single},
CEIL_L_D= {17, 'DS', 'F0SDC', 10, data.fmt_double},
CEIL_L_S= {17, 'DS', 'F0SDC', 10, data.fmt_single},
CEIL_W_D= {17, 'DS', 'F0SDC', 14, data.fmt_double},
CEIL_W_S= {17, 'DS', 'F0SDC', 14, data.fmt_single},
FLOOR_L_D={17, 'DS', 'F0SDC', 11, data.fmt_double},
FLOOR_L_S={17, 'DS', 'F0SDC', 11, data.fmt_single},
FLOOR_W_D={17, 'DS', 'F0SDC', 15, data.fmt_double},
FLOOR_W_S={17, 'DS', 'F0SDC', 15, data.fmt_single},
MOV_D = {17, 'DS', 'F0SDC', 6, data.fmt_double},
MOV_S = {17, 'DS', 'F0SDC', 6, data.fmt_single},
NEG_D = {17, 'DS', 'F0SDC', 7, data.fmt_double},
NEG_S = {17, 'DS', 'F0SDC', 7, data.fmt_single},
ROUND_L_D={17, 'DS', 'F0SDC', 8, data.fmt_double},
ROUND_L_S={17, 'DS', 'F0SDC', 8, data.fmt_single},
ROUND_W_D={17, 'DS', 'F0SDC', 12, data.fmt_double},
ROUND_W_S={17, 'DS', 'F0SDC', 12, data.fmt_single},
SQRT_D = {17, 'DS', 'F0SDC', 4, data.fmt_double},
SQRT_S = {17, 'DS', 'F0SDC', 4, data.fmt_single},
TRUNC_L_D={17, 'DS', 'F0SDC', 9, data.fmt_double},
TRUNC_L_S={17, 'DS', 'F0SDC', 9, data.fmt_single},
TRUNC_W_D={17, 'DS', 'F0SDC', 13, data.fmt_double},
TRUNC_W_S={17, 'DS', 'F0SDC', 13, data.fmt_double},
-- pseudo-instructions
B = {4, 'r', '00o'}, -- BEQ R0, R0, offset
BAL = {1, 'r', '0Co', 17}, -- BGEZAL R0, offset
BEQZ = {4, 'sr', 's0o'}, -- BEQ RS, R0, offset
BNEZ = {5, 'sr', 's0o'}, -- BNE RS, R0, offset
CL = {0, 'd', '00d0C', 37}, -- OR RD, R0, R0
MOV = {0, 'ds', 's0d0C', 37}, -- OR RD, RS, R0
NEG = {0, 'dt', '0td0C', 34}, -- SUB RD, R0, RT
NOP = {0, '', '0'}, -- SLL R0, R0, 0
NOT = {0, 'ds', 's0d0C', 39}, -- NOR RD, RS, R0
SUBI = {8, 'tsk', 'sti'}, -- ADDI RT, RS, -immediate
SUBIU = {9, 'tsk', 'sti'}, -- ADDIU RT, RS, -immediate
-- ...that expand to multiple instructions
LI = __, -- only one instruction for values < 0x10000
LA = __,
-- variable arguments
PUSH = __,
POP = __,
JPOP = __,
ABS = __, -- BGEZ NOP SUBU?
MUL = __, -- MULT MFLO
--DIV = __, -- 3 arguments
REM = __, -- 3 arguments
NAND = __, -- AND, NOT
NANDI = __, -- ANDI, NOT
NORI = __, -- ORI, NOT
ROL = __, -- SLL, SRL, OR
ROR = __, -- SRL, SLL, OR
SEQ = __, SEQI = __, SEQIU = __, SEQU = __,
SGE = __, SGEI = __, SGEIU = __, SGEU = __,
SGT = __, SGTI = __, SGTIU = __, SGTU = __,
SLE = __, SLEI = __, SLEIU = __, SLEU = __,
SNE = __, SNEI = __, SNEIU = __, SNEU = __,
BEQI = __,
BNEI = __,
BGE = __, BGEI = __,
BLE = __, BLEI = __,
BLT = __, BLTI = __,
BGT = __, BGTI = __,
}
data.all_instructions = {}
local i = 1
for k, v in pairs(data.instructions) do
data.all_instructions[k:gsub('_', '.')] = i
i = i + 1
end
revtable(data.all_instructions)
return data