ack/mach/m68k2/ncg/table

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1987-01-13 09:24:13 +00:00
/********************************
* *
* 68000, 68010 and 68020 *
* back end table *
* *
********************************/
#ifndef m68k4
#define m68020
#endif
/* m68020 to be defined if this is the 68020 table.
* The 68000 and 68010 tables are identical.
*/
#define small(x) ((x)>=1 && (x)<=8)
#define nicesize(x) ((x)==1||(x)==2||(x)==4||(x)==8)
#define lowb(x) (((x)<<24)>>24)
#define loww(x) (((x)<<16)>>16)
#define in_1(x) ((x)>=0-128 && (x)<128)
#define in_2(x) ((x)>=0-32768 && (x)<32768)
EM_WSIZE = 4
EM_PSIZE = 4
EM_BSIZE = 8
SL = 8
TIMEFACTOR = 1/2
PROPERTIES
D_REG /* data registers */
A_REG /* address registers */
DD_REG /* allocatable D_REG, may not be a register variable */
AA_REG /* allocatable A_REG, may not be a register variable */
REGISTERS
d0, d1, d2 :D_REG, DD_REG.
d3, d4, d5, d6, d7 :D_REG regvar.
a0, a1 :A_REG, AA_REG.
a2, a3, a4, a5 :A_REG regvar(reg_pointer).
lb ("a6"), sp :A_REG. /* localbase and stack pointer */
TOKENS
/* Not all addressing modes available on the MC68020 are used in this
* table. E.g (Dn), data register indirect is not used. Compared to
* (An), address register indirect, (Dn) requires two more bytes and
* several more clock cycles. Using (Dn) is even more expensive in
* time than first moving Dn to an address register An, and then using
* (An). For this kind of reasons several addressing modes are
* not used in this table.
*
* Cost in bytes may sometimes be incorrect. Several effective addresses
* use displacements that can occupy either 2 or 4 bytes. These are not
* considered different TOKENS in this table.
*
* Data registers are the only registers used as index registers in this
* table; address registers are only used to hold addresses.
*
* For the m68k4 table: the MC68000 and MC68010 have two modes that use
* displacements (offsets) of limited size:
* - offset(A_REG, Index_reg), where offset is only 8 bits, and
* - offset(A_REG), where offset can only be 16 bits.
* To make sure that no output is given with offsets too large, two
* extra tokens are declared: t_regAregXcon and t_regAcon. These are
* used as addresses to these modes. Whenever the displacements become
* too large, they are transformed into different tokens.
*
* Sometimes some TOKENS are used with displacements (offsets) of 0.
* It would have been possible to provide separate TOKENS for these, in
* case the assembler doesn't handle zero offsets optimally. This
* however would mean a very large amount of extra TOKENS and SETS for
* a very small profit in code bytes, so we won't do that.
*
* To prevent the TOKENS list from getting too unreadable, #ifdefs are
* used to form three parts:
* (i) the common part;
* (ii) the m68k4 part;
* (iii) the m68020 part;
*/
/* Part (i) */
const = {INT num;} 4 cost(4,4) "#" num .
indirect4 = {A_REG reg;} 4 cost(0,4) "(" reg ")" .
post_inc4 = {A_REG reg;} 4 cost(0,4) "(" reg ")+" .
pre_dec4 = {A_REG reg;} 4 cost(0,5) "-(" reg ")" .
indirect2 = {A_REG reg;} 4 cost(0,4) "(" reg ")" .
post_inc2 = {A_REG reg;} 4 cost(0,4) "(" reg ")+" .
pre_dec2 = {A_REG reg;} 4 cost(0,5) "-(" reg ")" .
indirect1 = {A_REG reg;} 4 cost(0,4) "(" reg ")" .
post_inc1 = {A_REG reg;} 4 cost(0,4) "(" reg ")+" .
pre_dec1 = {A_REG reg;} 4 cost(0,5) "-(" reg ")" .
ext_addr = {ADDR bd;} 4 cost(4,5) "#" bd .
llabel = {ADDR bd;} 4 cost(2,0) bd .
slabel = {ADDR bd;} 4 cost(0,0) bd .
shconst = {INT num;} 4 cost(0,0) "#" num .
#ifndef m68020
/* Part (ii) */
absolute4 = {ADDR bd;} 4 cost(4,8) bd .
offsetted4 = {A_REG reg; INT bd;} 4 cost(2,6) bd "(" reg ")" .
index_off4 = {A_REG reg; D_REG xreg; INT sc; INT bd;} 4 cost(2,7)
bd "(" reg "," xreg ".l)" .
absolute2 = {ADDR bd;} 4 cost(4,6) bd .
offsetted2 = {A_REG reg; INT bd;} 4 cost(2,4) bd "(" reg ")" .
index_off2 = {A_REG reg; D_REG xreg; INT sc; INT bd;} 4 cost(2,5)
bd "(" reg "," xreg ".l)" .
absolute1 = {ADDR bd;} 4 cost(4,6) bd .
offsetted1 = {A_REG reg; INT bd;} 4 cost(2,4) bd "(" reg ")" .
index_off1 = {A_REG reg; D_REG xreg; INT sc; INT bd;} 4 cost(2,5)
bd "(" reg "," xreg ".l)" .
LOCAL = {INT bd;} 4 cost(2,6) bd "(a6)" .
local_addr = {INT bd;} 4 cost(2,6) bd "(a6)" .
regAcon = {A_REG reg; INT bd;} 4 cost(2,6) bd "(" reg ")" .
regAregXcon = {A_REG reg; D_REG xreg; INT sc; INT bd;} 4 cost(2,8)
bd "(" reg "," xreg ".l)" .
/* note: in the m68k4 version %sc always equals 1 */
t_regAregXcon = {A_REG reg; D_REG xreg; INT sc; INT bd;} 4 cost(2,8) .
t_regAcon = {A_REG reg; INT bd;} 4 cost(2,6) .
#else m68020
/* Part (iii) */
absolute4 = {ADDR bd;} 4 cost(4,7) "(" bd ")" .
offsetted4 = {A_REG reg; INT bd;} 4 cost(2,6) "(" bd "," reg ")" .
index_off4 = {A_REG reg; D_REG xreg; INT sc; INT bd;} 4 cost(4,9)
"(" bd "," reg "," xreg ".l*" sc ")" .
abs_index4 = {INT sc; D_REG xreg; ADDR bd;} 4 cost(6,9)
"(" bd "," xreg ".l*" sc ")" .
OFF_off4 = {A_REG reg; INT bd; ADDR od;} 4 cost(6,19)
"([" bd "," reg "]," od ")" .
OFF_indoff4 = {A_REG reg; D_REG xreg; INT sc; INT bd; ADDR od;} 4 cost(6,19)
"([" bd "," reg "]," xreg ".l*" sc "," od ")" .
INDOFF_off4 = {A_REG reg; D_REG xreg; INT sc; INT bd; ADDR od;} 4 cost(6,19)
"([" bd "," reg "," xreg ".l*" sc "]," od ")" .
ABS_off4 = {ADDR bd; ADDR od;} 4 cost(8,22) "([" bd "]," od ")" .
ABS_indoff4 = {INT sc; D_REG xreg; ADDR bd; ADDR od;} 4 cost(8,22)
"([" bd "]," xreg ".l*" sc "," od ")" .
ABSIND_off4 = {INT sc; D_REG xreg; ADDR bd; ADDR od;} 4 cost(8,22)
"([" bd "," xreg ".l*" sc "]," od ")" .
absolute2 = {ADDR bd;} 4 cost(4,7) "(" bd ")" .
offsetted2 = {A_REG reg; INT bd;} 4 cost(2,6) "(" bd "," reg ")" .
index_off2 = {A_REG reg; D_REG xreg; INT sc; INT bd;} 4 cost(4,9)
"(" bd "," reg "," xreg ".l*" sc ")" .
abs_index2 = {INT sc; D_REG xreg; ADDR bd;} 4 cost(6,9)
"(" bd "," xreg ".l*" sc ")" .
OFF_off2 = {A_REG reg; INT bd; ADDR od;} 4 cost(6,19)
"([" bd "," reg "]," od ")" .
OFF_indoff2 = {A_REG reg; D_REG xreg; INT sc; INT bd; ADDR od;} 4 cost(6,19)
"([" bd "," reg "]," xreg ".l*" sc "," od ")" .
INDOFF_off2 = {A_REG reg; D_REG xreg; INT sc; INT bd; ADDR od;} 4 cost(6,19)
"([" bd "," reg "," xreg ".l*" sc "]," od ")" .
ABS_off2 = {ADDR bd; ADDR od;} 4 cost(8,22) "([" bd "]," od ")" .
ABS_indoff2 = {INT sc; D_REG xreg; ADDR bd; ADDR od;} 4 cost(8,22)
"([" bd "]," xreg ".l*" sc "," od ")" .
ABSIND_off2 = {INT sc; D_REG xreg; ADDR bd; ADDR od;} 4 cost(8,22)
"([" bd "," xreg ".l*" sc "]," od ")" .
absolute1 = {ADDR bd;} 4 cost(4,7) "(" bd ")" .
offsetted1 = {A_REG reg; INT bd;} 4 cost(2,6) "(" bd "," reg ")" .
index_off1 = {A_REG reg; D_REG xreg; INT sc; INT bd;} 4 cost(4,9)
"(" bd "," reg "," xreg ".l*" sc ")" .
abs_index1 = {INT sc; D_REG xreg; ADDR bd;} 4 cost(6,9)
"(" bd "," xreg ".l*" sc ")" .
OFF_off1 = {A_REG reg; INT bd; ADDR od;} 4 cost(6,19)
"([" bd "," reg "]," od ")" .
OFF_indoff1 = {A_REG reg; D_REG xreg; INT sc; INT bd; ADDR od;} 4 cost(6,19)
"([" bd "," reg "]," xreg ".l*" sc "," od ")" .
INDOFF_off1 = {A_REG reg; D_REG xreg; INT sc; INT bd; ADDR od;} 4 cost(6,19)
"([" bd "," reg "," xreg ".l*" sc "]," od ")" .
ABS_off1 = {ADDR bd; ADDR od;} 4 cost(8,22) "([" bd "]," od ")" .
ABS_indoff1 = {INT sc; D_REG xreg; ADDR bd; ADDR od;} 4 cost(8,22)
"([" bd "]," xreg ".l*" sc "," od ")" .
ABSIND_off1 = {INT sc; D_REG xreg; ADDR bd; ADDR od;} 4 cost(8,22)
"([" bd "," xreg ".l*" sc "]," od ")" .
LOCAL = {INT bd;} 4 cost(2,6) "(" bd ",a6)" .
ILOCAL = {INT bd;} 4 cost(4,16) "([" bd ",a6])" .
local_addr = {INT bd;} 4 cost(2,3) "(" bd ",a6)" .
regAcon = {A_REG reg; INT bd;} 4 cost(2,3) "(" bd "," reg ")" .
regAregXcon = {A_REG reg; D_REG xreg; INT sc; INT bd;} 4 cost(2,7)
"(" bd "," reg "," xreg ".l*" sc ")" .
off_con = {A_REG reg; INT bd; ADDR od;} 4 cost(6,18)
"([" bd "," reg "]," od ")".
off_regXcon = {A_REG reg; D_REG xreg; INT sc; INT bd; ADDR od;} 4 cost(6,18)
"([" bd "," reg "]," xreg ".l*" sc "," od ")" .
indoff_con = {A_REG reg; D_REG xreg; INT sc; INT bd; ADDR od;} 4 cost(6,18)
"([" bd "," reg "," xreg ".l*" sc "]," od ")" .
abs_con = {ADDR bd; ADDR od;} 4 cost(8,21) "([" bd "]," od ")" .
abs_regXcon = {INT sc; D_REG xreg; ADDR bd; ADDR od;} 4 cost(8,21)
"([" bd "]," xreg ".l*" sc "," od ")" .
absind_con = {INT sc; D_REG xreg; ADDR bd; ADDR od;} 4 cost(8,21)
"([" bd "," xreg ".l*" sc "]," od ")" .
ext_regX = {INT sc; D_REG xreg; ADDR bd;} 4 cost(6,15)
"(" bd "," xreg ".l*" sc ")" .
regX = {INT sc; D_REG xreg;} 4 cost(2,7) "(" xreg ".l*" sc ")" .
DREG_pair = {D_REG reg1; D_REG reg2;} 8 cost(2,0) reg1 ":" reg2 .
#define t_regAregXcon regAregXcon
#define t_regAcon regAcon
#endif m68020
SETS
/* The SETS list cannot be kept as 'readable' as the TOKENS list
* because cgg is one pass.
*/
#ifndef m68020
/* A m68k4 part */
data4 = D_REG + LOCAL + const + post_inc4 + pre_dec4 +
indirect4 + offsetted4 + index_off4 + absolute4 +
ext_addr .
memory4 = data4 - D_REG .
control4 = indirect4 + offsetted4 + index_off4 + absolute4 +
LOCAL .
alterable4 = data4 + A_REG - const - ext_addr .
any4 = data4 + A_REG . /* all four above together */
data2 = D_REG + post_inc2 + pre_dec2 + indirect2 +
offsetted2 + index_off2 + absolute2 + const .
memory2 = data2 - D_REG .
control2 = indirect2 + offsetted2 + index_off2 + absolute2 .
alterable2 = data2 + A_REG - const .
any2 = data2 + A_REG .
data1 = D_REG + post_inc1 + pre_dec1 + indirect1 +
offsetted1 + index_off1 + absolute1 + const .
memory1 = data1 - D_REG .
control1 = indirect1 + offsetted1 + index_off1 + absolute1 .
alterable1 = data1 - const .
any1 = data1 .
#else m68020
data4 = D_REG + indirect4 + post_inc4 + pre_dec4 + index_off4 +
offsetted4 + OFF_off4 + OFF_indoff4 +
INDOFF_off4 +
ABS_off4 + ABS_indoff4 + ABSIND_off4 +
absolute4 + abs_index4 + const + ext_addr +
LOCAL + ILOCAL .
memory4 = data4 - D_REG .
control4 = memory4 - (post_inc4 + pre_dec4 + const + ext_addr) .
alterable4 = data4 + A_REG - const - ext_addr .
any4 = data4 + A_REG . /* all four above together */
data2 = D_REG + indirect2 + post_inc2 + pre_dec2 + index_off2 +
offsetted2 + OFF_off2 + OFF_indoff2 +
INDOFF_off2 +
ABS_off2 + ABS_indoff2 + ABSIND_off2 +
absolute2 + abs_index2 + const .
memory2 = data2 - D_REG .
control2 = memory2 - (post_inc2 + pre_dec2 + const) .
alterable2 = data2 + A_REG - const .
any2 = data2 + A_REG . /* all four above together */
data1 = D_REG + indirect1 + post_inc1 + pre_dec1 + index_off1 +
offsetted1 + OFF_off1 + OFF_indoff1 +
INDOFF_off1 +
ABS_off1 + ABS_indoff1 + ABSIND_off1 +
absolute1 + abs_index1 + const .
memory1 = data1 - D_REG .
control1 = memory1 - (post_inc1 + pre_dec1 + const) .
alterable1 = data1 - const .
any1 = data1 . /* all four above together */
#endif m68020
/* This is a common part */
any = any4 + any2 + any1 .
absolute = absolute4 + absolute2 + absolute1 .
control = control4 + control2 + control1 .
indirect = indirect4 + indirect2 + indirect1 .
pre_post = pre_dec4 + pre_dec2 + pre_dec1 +
post_inc4 + post_inc2 + post_inc1 .
offsetted = offsetted4 + offsetted2 + offsetted1 .
index_off = index_off4 + index_off2 + index_off1 .
#ifndef m68020
/* A m68k4 part */
regind_addr = regAcon + regAregXcon + t_regAcon + t_regAregXcon .
address = ext_addr + local_addr + regAcon + regAregXcon .
all_regind = indirect + offsetted + pre_post + index_off +
regind_addr .
all_indir = all_regind .
allexceptcon = ALL - ( D_REG + A_REG + const +
local_addr + ext_addr + regAcon + regAregXcon +
t_regAcon + t_regAregXcon ) .
use_index = index_off4 + index_off2 + index_off1 .
#else m68020
reg_memind4 = OFF_off4 + OFF_indoff4 + INDOFF_off4 .
memind4 = reg_memind4 +
ABS_off4 + ABS_indoff4 .
reg_memind2 = OFF_off2 + OFF_indoff2 + INDOFF_off2 .
memind2 = reg_memind2 +
ABS_off2 + ABS_indoff2 .
reg_memind1 = OFF_off1 + OFF_indoff1 + INDOFF_off1 .
memind1 = reg_memind1 +
ABS_off1 + ABS_indoff1 .
reg_memind = reg_memind4 + reg_memind2 + reg_memind1 .
memind = memind4 + memind2 + memind1 .
regind_addr = regAcon + regAregXcon +
off_con + off_regXcon +
indoff_con .
address = regind_addr +
ext_addr + local_addr +
abs_con + abs_regXcon +
absind_con +
ext_regX .
all_regind = indirect + offsetted + index_off + pre_post +
reg_memind + regind_addr .
all_indir = all_regind + memind + ILOCAL .
allexceptcon = ALL - ( D_REG + A_REG + const +
local_addr + ext_addr + regAcon + regAregXcon + ext_regX ) .
use_index4 = index_off4 + abs_index4 +
OFF_indoff4 + INDOFF_off4 +
ABS_indoff4 + ABSIND_off4 .
use_index2 = index_off2 + abs_index2 +
OFF_indoff2 + INDOFF_off2 +
ABS_indoff2 + ABSIND_off2 .
use_index1 = index_off1 + abs_index1 +
OFF_indoff1 + INDOFF_off1 +
ABS_indoff1 + ABSIND_off1 .
use_indaddr = regAregXcon +
off_regXcon + indoff_con +
abs_regXcon + absind_con +
ext_regX .
use_index = use_index4 + use_index2 + use_index1 + use_indaddr + regX .
#endif m68020
/* A common part */
posextern = absolute + all_indir .
genreg = D_REG + A_REG.
label = llabel + slabel .
immediate4 = const + ext_addr .
conreg4 = D_REG + immediate4 .
conreg2 = D_REG + const .
conreg1 = D_REG + const .
shconreg = D_REG + shconst .
datalt4 = data4 * alterable4 .
datalt2 = data2 * alterable2 .
datalt1 = data1 * alterable1 .
datalt = datalt4 + datalt2 + datalt1 .
memalt4 = memory4 * alterable4 .
memalt2 = memory2 * alterable2 .
memalt1 = memory1 * alterable1 .
#ifndef m68020
/* A m68k4 part */
imm_cmp4 = alterable4 .
imm_cmp2 = alterable2 .
imm_cmp1 = datalt1 .
test_set4 = datalt4 .
test_set2 = datalt2 .
test_set1 = datalt1 .
#else m68020
imm_cmp4 = any4 - immediate4 .
imm_cmp2 = any2 - const .
imm_cmp1 = data1 - const .
test_set4 = data4 - immediate4 .
test_set2 = data2 - const .
test_set1 = data1 - const .
#endif m68020
test_set = test_set4 + test_set2 + test_set1 .
#ifndef m68020
t_address = address + t_regAregXcon + t_regAcon .
#else m68020
#define t_address address
#endif m68020
INSTRUCTIONS
/* Since the 68000 , the 68010 and the 68020 instruction sets are rather
* extensive, especially because e.g. 'add.l' and 'add.w' are
* considered different instructions, only those instructions are
* listed here that are used in the rest of this table.
*
* Instruction timing cost cannot be accurately given, nor the timing
* cost for getting operands. Detailed information about this can be
* found in the "MC68020 User's Manual", section 9, about instruction
* timing. The cost used in this table are 'worst case' cost, as
* mentioned in section 9 of the user's manual.
*
* The first few instructions had to be added because register
* variables are used. The LOCALs below are register variables.
* One may not conclude that these operations are also allowed
* on LOCALs that are not register variables.
* The cost have been adapted, but are not accurate; when 'real'
* LOCALs are used the cost are very inaccurate.
*/
add_l "add.l" any4:ro, LOCAL:rw:cc cost(0,0).
lea address:ro, LOCAL:wo cost(0,0).
sub_l "sub.l" any4:ro, LOCAL:rw:cc cost(0,0).
sh "illegal" shconreg:ro, LOCAL:rw:cc cost(0,0).
sh "illegal" LOCAL:ro, LOCAL:rw:cc cost(0,0).
xxx "illegal" data4:ro, LOCAL:rw:cc cost(0,0).
xxx "illegal" LOCAL:ro, alterable4:rw:cc cost(0,0).
#ifdef m68020
divs_l "divs.l" data4:ro, LOCAL:rw:cc cost(0,90).
divu_l "divu.l" data4:ro, LOCAL:rw:cc cost(0,78).
muls_l "muls.l" data4:ro, LOCAL:rw:cc cost(0,44).
mulu_l "mulu.l" data4:ro, LOCAL:rw:cc cost(0,44).
#endif m68020
add_l "add.l" any4:ro, D_REG:rw:cc cost(2,3).
add_l "add.l" any4:ro, A_REG:rw cost(2,3).
add_l "add.l" conreg4:ro, alterable4:rw:cc cost(2,6).
and_l "and.l" data4:ro, D_REG:rw:cc cost(2,3).
and_l "and.l" D_REG:ro, memalt4:rw:cc cost(2,6).
and_l "and.l" const:ro, datalt4:rw:cc cost(2,6).
asl_l "asl.l" shconreg:ro, D_REG:rw:cc cost(2,5).
asl "asl #1," memalt2:rw:cc cost(2,4).
asr_l "asr.l" shconreg:ro, D_REG:rw:cc cost(2,4).
asr "asr #1," memalt2:rw:cc cost(2,4).
bra label cost(2,5).
bcc label cost(2,5).
bcs label cost(2,5).
beq label cost(2,5).
bge label cost(2,5).
bgt label cost(2,5).
bhi label cost(2,5).
ble label cost(2,5).
bls label cost(2,5).
blt label cost(2,5).
bmi label cost(2,5).
bne label cost(2,5).
bpl label cost(2,5).
bvc label cost(2,5).
bvs label cost(2,5).
bset conreg2:ro, D_REG:rw kills :cc cost(2,4).
btst conreg2:ro, data1:rw kills :cc cost(2,3).
clr_l "clr.l" D_REG:wo:cc cost(2,3).
clr_l "clr.l" memalt4:wo:cc cost(2,6).
clr_w "clr.w" D_REG:wo:cc cost(2,2).
clr_w "clr.w" memalt2:wo:cc cost(2,4).
clr_b "clr.b" D_REG:wo:cc cost(2,2).
clr_b "clr.b" memalt1:wo:cc cost(2,4).
cmp_l "cmp.l" any4:ro, genreg:ro kills :cc cost(2,3).
cmp_l "cmp.l" post_inc4:ro, post_inc4:ro kills :cc cost(2,2).
cmp_l "cmp.l" immediate4:ro, imm_cmp4:ro kills :cc cost(2,2).
cmp_w "cmp.w" any2:ro, genreg:ro kills :cc cost(2,3).
cmp_w "cmp.w" post_inc2:ro, post_inc2:ro kills :cc cost(2,2).
cmp_w "cmp.w" const:ro, imm_cmp2:ro kills :cc cost(2,2).
cmp_b "cmp.b" data1:ro, D_REG:ro kills :cc cost(2,3).
cmp_b "cmp.b" post_inc1:ro, post_inc1:ro kills :cc cost(2,2).
cmp_b "cmp.b" const:ro, imm_cmp1:ro kills :cc cost(2,2).
dbf D_REG:rw, label cost(2,5).
eor_l "eor.l" conreg4:ro, datalt4:rw:cc cost(2,6).
ext_l "ext.l" D_REG:rw:cc cost(2,2).
ext_w "ext.w" D_REG:rw:cc cost(2,2).
jmp address+control4 cost(2,0).
jsr address+control4 kills :cc cost(2,3).
lea address+control4:ro, A_REG:wo cost(2,0).
lsl_l "lsl.l" shconreg:ro, D_REG:rw:cc cost(2,4).
lsl "lsl #1," memalt2:rw:cc cost(2,4).
lsr_l "lsr.l" shconreg:ro, D_REG:rw:cc cost(2,4).
lsr "lsr #1," memalt2:rw:cc cost(2,4).
move_l "move.l" any4:ro, alterable4:wo:cc cost(2,2).
move_w "move.w" any2:ro, alterable2:wo:cc cost(2,2).
move_b "move.b" data1:ro, alterable1:wo:cc cost(2,2).
neg_l "neg.l" D_REG:rw:cc cost(2,3).
neg_l "neg.l" memory4:rw:cc cost(2,6).
not_l "not.l" D_REG:rw:cc cost(2,3).
not_l "not.l" memory4:rw:cc cost(2,6).
or_l "or.l" data4:ro, D_REG:rw:cc cost(2,3).
or_l "or.l" D_REG:ro, memalt4:rw:cc cost(2,6).
or_l "or.l" const:ro, datalt4:rw:cc cost(2,6).
rol_l "rol.l" shconreg:ro, D_REG:rw:cc cost(2,4).
rol "rol #1," memalt2:rw:cc cost(2,4).
ror_l "ror.l" shconreg:ro, D_REG:rw:cc cost(2,4).
ror "ror #1," memalt2:rw:cc cost(2,4).
roxl "roxl #1," memalt2:rw:cc cost(2,4).
roxr "roxr #1," memalt2:rw:cc cost(2,4).
sne datalt1:rw cost(2,3).
sub_l "sub.l" any4:ro, D_REG:rw:cc cost(2,3).
sub_l "sub.l" any4:ro, A_REG:rw cost(2,3).
sub_l "sub.l" conreg4:ro, alterable4:rw:cc cost(2,6).
tst_l "tst.l" test_set4:ro:cc cost(2,3).
tst_w "tst.w" test_set2:ro:cc cost(2,3).
tst_b "tst.b" test_set1:ro:cc cost(2,3).
unlk A_REG cost(2,6).
bxx "illegal" label cost(2,5).
xxx "illegal" data4:ro, D_REG:rw:cc cost(2,3).
xxx "illegal" conreg4:ro, memalt4:rw:cc cost(2,6).
bit "illegal" control4:rw:cc cost(2,6).
sh "illegal" shconreg:ro, D_REG:rw:cc cost(2,4).
shw "illegal" control2:rw:cc cost(2,4).
#ifdef m68020
cmp2_l "cmp2.l" address+control4:ro, genreg:ro kills :cc cost(2,18).
divs_l "divs.l" data4:ro, D_REG:rw:cc cost(2,90).
divsl_l "divsl.l" data4:ro, DREG_pair:rw kills :cc cost(2,90).
divu_l "divu.l" data4:ro, D_REG:rw:cc cost(2,78).
divul_l "divul.l" data4:ro, DREG_pair:rw kills :cc cost(2,78).
extb_l "extb.l" D_REG:rw:cc cost(2,4).
muls_l "muls.l" data4:ro, D_REG:rw:cc cost(2,44).
mulu_l "mulu.l" data4:ro, D_REG:rw:cc cost(2,44).
pea address+control4+regX cost(2,4).
#else m68020
pea address+control4 cost(2,4).
#endif m68020
/* !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
* Extra pseudo instruction; it just kills a D_REG;
* it is necessary with long divides where remainders are important;
* see also: 'pat rmi' and 'pat rmu'
* !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!*/
killreg "! kill" D_REG:wo cost(0,0).
MOVES
from const %num==0 to D_REG
gen clr_l %2
from const %num==0 to memalt4
gen clr_l %2
from const %num==0 to memalt2
gen clr_w %2
from const %num==0 to memalt1
gen clr_b %2
from const to memalt1
gen move_b {const, lowb(%1.num)}, %2
from const to memalt2
gen move_w {const, loww(%1.num)}, %2
from regAcon %bd==0 to A_REG
gen move_l %1.reg, %2
#ifndef m68020
from t_regAregXcon sfit(%bd, 8) to A_REG
gen lea {regAregXcon, %1.reg, %1.xreg, 1, %1.bd}, %2
from t_regAregXcon to A_REG
gen lea {regAregXcon, %1.reg, %1.xreg, 1, 0}, %2
add_l {const, %1.bd}, %2
from t_regAcon sfit(%bd, 16) to A_REG
gen lea {regAcon, %1.reg, %1.bd}, %2
from t_regAcon to A_REG
gen move_l %1.reg, %2
add_l {const, %1.bd}, %2
#endif m68020
from address - ext_addr to A_REG
gen lea %1, %2
from any4 to alterable4
gen move_l %1, %2
from any2 to datalt2
gen move_w %1, %2
from data1 to datalt1
gen move_b %1, %2
TESTS
to test test_set4
gen tst_l %1
to test test_set2
gen tst_w %1
to test test_set1
gen tst_b %1
STACKINGRULES
from const %num==0 to STACK
gen clr_l {pre_dec4, sp}
#ifndef m68020
from t_regAregXcon sfit(%bd, 8) to STACK
gen pea {regAregXcon, %1.reg, %1.xreg, 1, %1.bd}
from t_regAregXcon to STACK
gen pea {regAregXcon, %1.reg, %1.xreg, 1, 0}
add_l {const, %1.bd}, {indirect4, sp}
from t_regAcon sfit(%bd, 16) to STACK
gen pea {regAcon, %1.reg, %1.bd}
from t_regAcon to STACK
gen move_l %1.reg, {pre_dec4, sp}
add_l {const, %1.bd}, {indirect4, sp}
#endif m68020
from address - ext_addr to STACK
gen pea %1
from ext_addr to STACK
gen pea {absolute4, %1.bd}
from const to STACK
gen pea {absolute4, %1.num}
from any4 to STACK
gen move_l %1, {pre_dec4, sp}
from any2 to STACK
gen clr_l {pre_dec4, sp}
move_w %1, {offsetted2, sp, 2}
from data1 to STACK
gen clr_l {pre_dec4, sp}
move_b %1, {offsetted1, sp, 3}
#ifdef m68020
from regX to STACK
gen pea %1
#endif m68020
/* This last stackingrule is never used: whenever regX is put on
* the fakestack, some em-instuctions are left that remove it
* immediately. However cgg complained about not having a
* stackingrule for regX, so here it is
*/
COERCIONS
from STACK
uses DD_REG
gen move_l {post_inc4, sp}, %a
yields %a
from STACK
uses AA_REG
gen move_l {post_inc4, sp}, %a
yields %a
#ifndef m68020
from t_regAregXcon sfit(%bd, 8)
yields {regAregXcon, %1.reg, %1.xreg, 1, %1.bd}
from t_regAregXcon
uses AA_REG=%1.reg
gen add_l {const, %1.bd}, %a
yields {regAregXcon, %a, %1.xreg, 1, 0}
from t_regAcon sfit(%bd, 16)
yields {regAcon, %1.reg, %1.bd}
from t_regAcon
uses reusing %1, AA_REG=%1.reg
gen add_l {const, %1.bd}, %a
yields %a
#endif m68020
from t_address
uses reusing %1, AA_REG = %1
yields %a
from any4
uses reusing %1, DD_REG = %1
yields %a
from any4
uses reusing %1, AA_REG = %1
yields %a
from memory2
uses DD_REG = {const, 0}
gen move_w %1, %a yields %a
from memory1
uses DD_REG = {const, 0}
gen move_b %1, %a yields %a
PATTERNS
/************************************************
* Group 0: rules for register variables *
* LOCALs mentioned here refer to registers *
************************************************/
pat lol inreg($1)==reg_pointer
kills pre_post %reg==regvar($1, reg_pointer)
yields {LOCAL, $1}
pat lil inreg($1)==reg_pointer
kills pre_post %reg==regvar($1, reg_pointer)
yields {indirect4, regvar($1, reg_pointer)}
pat stl inreg($1)==reg_any
with any4
kills LOCAL %bd==$1, use_index %xreg==regvar($1, reg_any)
gen move %1, {LOCAL, $1}
pat stl inreg($1)==reg_pointer
with any4
kills LOCAL %bd==$1, all_regind %reg==regvar($1, reg_pointer)
gen move %1, {LOCAL, $1}
with exact ext_addr
kills LOCAL %bd==$1, all_regind %reg==regvar($1, reg_pointer)
gen move %1, {LOCAL, $1}
with exact address-ext_addr
kills LOCAL %bd==$1, all_regind %reg==regvar($1, reg_pointer)
gen lea %1, {LOCAL, $1}
pat sil inreg($1)==reg_pointer
with any4
kills allexceptcon
gen move %1, {indirect4, regvar($1, reg_pointer)}
pat lol sbi stl $1==$3 && $2==4 && inreg($1)==reg_any
with any4
kills LOCAL %bd==$1, use_index %xreg==regvar($1, reg_any)
gen sub_l %1, {LOCAL, $1}
neg_l {LOCAL, $1}
pat lol sbu stl $1==$3 && $2==4 && inreg($1)==reg_any
with any4
kills LOCAL %bd==$1, use_index %xreg==regvar($1, reg_any)
gen sub_l %1, {LOCAL, $1}
neg_l {LOCAL, $1}
pat lil sbi sil $1==$3 && $2==4 && inreg($1)==reg_pointer
with conreg4
kills allexceptcon
gen sub_l %1, {indirect4, regvar($1, reg_pointer)}
neg_l {indirect4, regvar($1, reg_pointer)}
pat lil sbu sil $1==$3 && $2==4 && inreg($1)==reg_pointer
with conreg4
kills allexceptcon
gen sub_l %1, {indirect4, regvar($1, reg_pointer)}
neg_l {indirect4, regvar($1, reg_pointer)}
pat lil ngi sil $1==$3 && $2==4 && inreg($1)==reg_pointer
kills allexceptcon
gen neg_l {indirect4, regvar($1, reg_pointer)}
pat lil com sil $1==$3 && $2==4 && inreg($1)==reg_pointer
kills allexceptcon
gen not_l {indirect4, regvar($1, reg_pointer)}
proc lolcshstl example lol loc sli stl
kills LOCAL %bd==$1, use_index %xreg==regvar($1, reg_any)
gen sh* {shconst, $2}, {LOCAL, $1}
proc lolrshstl example lol lol sli stl
kills LOCAL %bd==$1, use_index %xreg==regvar($1, reg_any)
gen sh* {LOCAL, $2}, {LOCAL, $1}
proc lil1shlsil example lil loc sli sil /* only left */
kills allexceptcon
gen shw* {offsetted2, regvar($1, reg_pointer), 2}
roxl {indirect2, regvar($1, reg_pointer)}
proc lil1shrsil example lil loc sli sil /* only right */
kills allexceptcon
gen shw* {indirect2, regvar($1, reg_pointer)}
roxr {offsetted2, regvar($1, reg_pointer), 2}
pat lol loc sli stl $1==$4 && small($2) && $3==4 && inreg($1)==reg_any
call lolcshstl("asl.l")
pat lol loc slu stl $1==$4 && small($2) && $3==4 && inreg($1)==reg_any
call lolcshstl("asl.l")
pat lol lol sli stl $1==$4 && inreg($1)==reg_any && $3==4 && inreg($2)==reg_any
call lolrshstl("asl.l")
pat lol lol slu stl $1==$4 && inreg($1)==reg_any && $3==4 && inreg($2)==reg_any
call lolrshstl("asl.l")
pat lil loc sli sil $1==$4 && $2==1 && $3==4 && inreg($1)==reg_pointer
call lil1shlsil("asl #1,")
pat lil loc slu sil $1==$4 && $2==1 && $3==4 && inreg($1)==reg_pointer
call lil1shlsil("asl #1,")
pat lol loc sri stl $1==$4 && small($2) && $3==4 && inreg($1)==reg_any
call lolcshstl("asr.l")
pat lol loc sru stl $1==$4 && small($2) && $3==4 && inreg($1)==reg_any
call lolcshstl("lsr.l")
pat lol lol sri stl $1==$4 && inreg($1)==reg_any && $3==4 && inreg($2)==reg_any
call lolrshstl("asr.l")
pat lol lol sru stl $1==$4 && inreg($1)==reg_any && $3==4 && inreg($2)==reg_any
call lolrshstl("lsr.l")
pat lil loc sri sil $1==$4 && $2==1 && $3==4 && inreg($1)==reg_pointer
call lil1shrsil("asr #1,")
pat lil loc sru sil $1==$4 && $2==1 && $3==4 && inreg($1)==reg_pointer
call lil1shrsil("lsr #1,")
pat lol loc rol stl $1==$4 && small($2) && $3==4 && inreg($1)==reg_any
call lolcshstl("rol.l")
pat lol lol rol stl $1==$4 && inreg($2)==reg_any && $3==4 && inreg($1)==reg_any
call lolrshstl("rol.l")
pat lol loc ror stl $1==$4 && small($2) && $3==4 && inreg($1)==reg_any
call lolcshstl("ror.l")
pat lol lol ror stl $1==$4 && inreg($2)==reg_any && $3==4 && inreg($1)==reg_any
call lolrshstl("ror.l")
#ifdef m68020
pat lol loc dvi stl $1==$4 && $3==4 && inreg($1)==reg_any
kills LOCAL %bd==$1, use_index %xreg==regvar($1, reg_any)
gen divs_l {const, $2}, {LOCAL, $1}
pat lol loc dvu stl $1==$4 && $3==4 && inreg($1)==reg_any
kills LOCAL %bd==$1, use_index %xreg==regvar($1, reg_any)
gen divu_l {const, $2}, {LOCAL, $1}
pat lol loc mli stl $1==$4 && $3==4 && inreg($1)==reg_any
kills LOCAL %bd==$1, use_index %xreg==regvar($1, reg_any)
gen muls_l {const, $2}, {LOCAL, $1}
pat lol loc mlu stl $1==$4 && $3==4 && inreg($1)==reg_any
kills LOCAL %bd==$1, use_index %xreg==regvar($1, reg_any)
gen mulu_l {const, $2}, {LOCAL, $1}
pat lol mli stl $1==$3 && $2==4 && inreg($1)==reg_any
with data4
kills LOCAL %bd==$1, use_index %xreg==regvar($1, reg_any)
gen muls_l %1, {LOCAL, $1}
pat lol mlu stl $1==$3 && $2==4 && inreg($1)==reg_any
with data4
kills LOCAL %bd==$1, use_index %xreg==regvar($1, reg_any)
gen mulu_l %1, {LOCAL, $1}
#endif m68020
pat lil inc sil $1==$3 && inreg($1)==reg_pointer
kills allexceptcon
gen add_l {const, 1}, {indirect4, regvar($1, reg_pointer)}
pat lil dec sil $1==$3 && inreg($1)==reg_pointer
kills allexceptcon
gen sub_l {const, 1}, {indirect4, regvar($1, reg_pointer)}
pat inl inreg($1)==reg_any
kills LOCAL %bd==$1, use_index %xreg==regvar($1, reg_any)
gen add_l {const, 1}, {LOCAL, $1}
pat del inreg($1)==reg_any
kills LOCAL %bd==$1, use_index %xreg==regvar($1, reg_any)
gen sub_l {const, 1}, {LOCAL, $1}
pat zrl inreg($1)==reg_any
kills LOCAL %bd==$1, use_index %xreg==regvar($1, reg_any)
gen clr_l {LOCAL, $1}
pat zrl inreg($1)==reg_pointer
kills LOCAL %bd==$1, all_regind %reg==regvar($1, reg_pointer)
gen move_l {const, 0}, {LOCAL, $1}
proc lolxxstl example lol and stl
with data4
kills LOCAL %bd==$1, use_index %xreg==regvar($1, reg_any)
gen xxx* %1, {LOCAL, $1}
proc lilxxsil example lil and sil
with conreg4
kills allexceptcon
gen xxx* %1, {indirect4, regvar($1, reg_pointer)}
proc lolcxxstl example lol loc and stl
kills LOCAL %bd==$1, use_index %xreg==regvar($1, reg_any)
gen xxx* {const, $2}, {LOCAL, $1}
proc lilcxxsil example lil loc and sil
kills allexceptcon
gen xxx* {const, $2}, {indirect4, regvar($1, reg_pointer)}
proc lolrxxstl example lol lol and stl
kills LOCAL %bd==$1, use_index %xreg==regvar($1, reg_any)
gen xxx* {LOCAL, $2}, {LOCAL, $1}
proc lilrxxsil example lil lol and sil
kills allexceptcon
gen xxx* {LOCAL, $2}, {indirect4, regvar($1, reg_pointer)}
pat lol adi stl $1==$3 && $2==4 && inreg($1)==reg_any
call lolxxstl("add.l")
pat lol loc adi stl $1==$4 && $3==4 && inreg($1)==reg_any
call lolcxxstl("add.l")
pat lil adi sil $1==$3 && $2==4 &&inreg($1)==reg_pointer
call lilxxsil("add.l")
pat lil loc adi sil $1==$4 && $3==4 && inreg($1)==reg_pointer
call lilcxxsil("add.l")
pat lol lol adi stl $1==$4 && $3==4 && inreg($1)==reg_any && inreg($2)==reg_any
call lolrxxstl("add.l")
pat lil lol adi sil $1==$4 && $3==4 && inreg($1)==reg_pointer &&
inreg($2)==reg_any
call lilrxxsil("add.l")
pat lol adu stl $1==$3 && $2==4 && inreg($1)==reg_any
call lolxxstl("add.l")
pat lol loc adu stl $1==$4 && $3==4 && inreg($1)==reg_any
call lolcxxstl("add.l")
pat lil adu sil $1==$3 && $2==4 &&inreg($1)==reg_pointer
call lilxxsil("add.l")
pat lil loc adu sil $1==$4 && $3==4 && inreg($1)==reg_pointer
call lilcxxsil("add.l")
pat lol lol adu stl $1==$4 && $3==4 && inreg($1)==reg_any && inreg($2)==reg_any
call lolrxxstl("add.l")
pat lil lol adu sil $1==$4 && $3==4 && inreg($1)==reg_pointer &&
inreg($2)==reg_any
call lilrxxsil("add.l")
pat lol loc sbi stl $1==$4 && $3==4 && inreg($1)==reg_any
call lolcxxstl("sub.l")
pat lil loc sbi sil $1==$4 && $3==4 && inreg($1)==reg_pointer
call lilcxxsil("sub.l")
pat lol lol sbi stl $1==$4 && $3==4 && inreg($1)==reg_any && inreg($2)==reg_any
call lolrxxstl("sub.l")
pat lil lol sbi sil $1==$4 && $3==4 && inreg($1)==reg_pointer &&
inreg($2)==reg_any
call lilrxxsil("sub.l")
pat lol loc sbu stl $1==$4 && $3==4 && inreg($1)==reg_any
call lolcxxstl("sub.l")
pat lil loc sbu sil $1==$4 && $3==4 && inreg($1)==reg_pointer
call lilcxxsil("sub.l")
pat lol lol sbu stl $1==$4 && $3==4 && inreg($1)==reg_any && inreg($2)==reg_any
call lolrxxstl("sub.l")
pat lil lol sbu sil $1==$4 && $3==4 && inreg($1)==reg_pointer &&
inreg($2)==reg_any
call lilrxxsil("sub.l")
pat lol and stl $1==$3 && $2==4 && inreg($1)==reg_any
call lolxxstl("and.l")
pat lol loc and stl $1==$4 && $3==4 && inreg($1)==reg_any
call lolcxxstl("and.l")
pat lil and sil $1==$3 && $2==4 &&inreg($1)==reg_pointer
call lilxxsil("and.l")
pat lil loc and sil $1==$4 && $3==4 && inreg($1)==reg_pointer
call lilcxxsil("and.l")
pat lol lol and stl $1==$4 && $3==4 && inreg($1)==reg_any && inreg($2)==reg_any
call lolrxxstl("and.l")
pat lil lol and sil $1==$4 && $3==4 && inreg($1)==reg_pointer &&
inreg($2)==reg_any
call lilrxxsil("and.l")
pat lol ior stl $1==$3 && $2==4 && inreg($1)==reg_any
call lolxxstl("or.l")
pat lol loc ior stl $1==$4 && $3==4 && inreg($1)==reg_any
call lolcxxstl("or.l")
pat lil ior sil $1==$3 && $2==4 && inreg($1)==reg_pointer
call lilxxsil("or.l")
pat lil loc ior sil $1==$4 && $3==4 && inreg($1)==reg_pointer
call lilcxxsil("or.l")
pat lol lol ior stl $1==$4 && $3==4 && inreg($1)==reg_any &&
inreg($2)==reg_any
call lolrxxstl("or.l")
pat lil lol ior sil $1==$4 && $3==4 && inreg($1)==reg_pointer &&
inreg($2)==reg_any
call lilrxxsil("or.l")
pat lol xor stl $1==$3 && $2==4 && inreg($1)==reg_any
call lolxxstl("eor.l")
pat lol loc xor stl $1==$4 && $3==4 && inreg($1)==reg_any
call lolcxxstl("eor.l")
pat lil xor sil $1==$3 && $2==4 &&inreg($1)==reg_pointer
call lilxxsil("eor.l")
pat lil loc xor sil $1==$4 && $3==4 && inreg($1)==reg_pointer
call lilcxxsil("eor.l")
pat lol lol xor stl $1==$4 && $3==4 && inreg($1)==reg_any &&
inreg($2)==reg_any
call lolrxxstl("eor.l")
pat lil lol xor sil $1==$4 && $3==4 && inreg($1)==reg_pointer &&
inreg($2)==reg_any
call lilrxxsil("eor.l")
pat lil adp sil $1==$3 && inreg($1)==reg_pointer
kills allexceptcon
gen add_l {const, $2}, {indirect4, regvar($1, reg_pointer)}
pat lil lil adp sil $1==$2 && $1==$4 && inreg($1)==reg_pointer
kills allexceptcon
uses AA_REG = {indirect4, regvar($1, reg_pointer)}
gen add_l {const, $3}, {indirect4, regvar($1, reg_pointer)}
yields %a
pat lol lol adp stl loi $1==$2 && $1==$4 && $3==1 && $5==1 &&
inreg($1)==reg_pointer
kills LOCAL %bd==$1, all_regind %reg==regvar($1, reg_pointer)
yields {post_inc1, regvar($1, reg_pointer)}
pat lol loi lol adp stl $1==$3 && $1==$5 && $2==1 && $4==1 &&
inreg($1)==reg_pointer
kills LOCAL %bd==$1, all_regind %reg==regvar($1, reg_pointer)
yields {post_inc1, regvar($1, reg_pointer)}
pat lol lol adp stl loi $1==$2 && $1==$4 && $3==2 && $5==2 &&
inreg($1)==reg_pointer
kills LOCAL %bd==$1, all_regind %reg==regvar($1, reg_pointer)
yields {post_inc2, regvar($1, reg_pointer)}
pat lol loi lol adp stl $1==$3 && $1==$5 && $2==2 && $4==2 &&
inreg($1)==reg_pointer
kills LOCAL %bd==$1, all_regind %reg==regvar($1, reg_pointer)
yields {post_inc2, regvar($1, reg_pointer)}
pat lol lol adp stl loi $1==$2 && $1==$4 && $3==4 && $5==4 &&
inreg($1)==reg_pointer
kills LOCAL %bd==$1, all_regind %reg==regvar($1, reg_pointer)
yields {post_inc4, regvar($1, reg_pointer)}
pat lil lol adp stl $1==$2 && $1==$4 && $3==4 && inreg($1)==reg_pointer
kills LOCAL %bd==$1, all_regind %reg==regvar($1, reg_pointer)
yields {post_inc4, regvar($1, reg_pointer)}
pat lol lol adp stl sti $1==$2 && $1==$4 && $3==1 && $5==1 &&
inreg($1)==reg_pointer
with data1
kills allexceptcon
gen move %1, {post_inc1, regvar($1, reg_pointer)}
pat lol sti lol adp stl $1==$3 && $1==$5 && $2==1 && $4==1 &&
inreg($1)==reg_pointer
with data1
kills allexceptcon
gen move %1, {post_inc1, regvar($1, reg_pointer)}
pat lol lol adp stl sti $1==$2 && $1==$4 && $3==2 && $5==2 &&
inreg($1)==reg_pointer
with any2
kills allexceptcon
gen move %1, {post_inc2, regvar($1, reg_pointer)}
pat lol sti lol adp stl $1==$3 && $1==$5 && $2==2 && $4==2 &&
inreg($1)==reg_pointer
with any2
kills allexceptcon
gen move %1, {post_inc2, regvar($1, reg_pointer)}
pat lol lol adp stl sti $1==$2 && $1==$4 && $3==4 && $5==4 &&
inreg($1)==reg_pointer
with any4
kills allexceptcon
gen move_l %1, {post_inc4, regvar($1, reg_pointer)}
pat sil lol adp stl $1==$2 && $1==$4 && $3==4 && inreg($1)==reg_pointer
with any4
kills allexceptcon
gen move_l %1, {post_inc4, regvar($1, reg_pointer)}
pat lol adp stl lol loi $1==$3 && $1==$4 && $2==0-1 && $5==1 &&
inreg($1)==reg_pointer
kills LOCAL %bd==$1, all_regind %reg==regvar($1, reg_pointer)
yields {pre_dec1, regvar($1, reg_pointer)}
pat lol adp stl lol loi $1==$3 && $1==$4 && $2==0-2 && $5==2 &&
inreg($1)==reg_pointer
kills LOCAL %bd==$1, all_regind %reg==regvar($1, reg_pointer)
yields {pre_dec2, regvar($1, reg_pointer)}
pat lol adp stl lil $1==$3 && $1==$4 && $2==0-4 &&
inreg($1)==reg_pointer
kills LOCAL %bd==$1, all_regind %reg==regvar($1, reg_pointer)
yields {pre_dec4, regvar($1, reg_pointer)}
pat lol adp stl lol sti $1==$3 && $1==$4 && $2==0-1 && $5==1 &&
inreg($1)==reg_pointer
with data1
kills allexceptcon
gen move %1, {pre_dec1, regvar($1, reg_pointer)}
pat lol adp stl lol sti $1==$3 && $1==$4 && $2==0-2 && $5==2 &&
inreg($1)==reg_pointer
with any2
kills allexceptcon
gen move %1, {pre_dec2, regvar($1, reg_pointer)}
pat lol adp stl sil $1==$3 && $1==$4 && $2==0-4 &&
inreg($1)==reg_pointer
with any4
kills allexceptcon
gen move_l %1, {pre_dec4, regvar($1, reg_pointer)}
/************************************************
* Group 1: load instructions *
************************************************/
pat loc yields {const, $1}
pat ldc leaving loc 18 trp
pat lol yields {LOCAL, $1}
pat ldl leaving lol $1+4 lol $1
pat loe yields {absolute4, $1}
pat lil
#ifdef m68020
yields {ILOCAL, $1}
#else m68020
uses AA_REG = {LOCAL, $1}
yields {indirect4, %a}
#endif m68020
/* When using the 'offsetted' intructions regAregXcon cannot be used
* for the m68k4; there is no way of knowing about the size of
* %1.bd+$1, because expressions are not allowed in stack patterns, and
* this may lead to outputting too large displacements. With regAcon
* the chance that this will happen is very slim, because it can
* have displacements of 16 bits. Besides, leaving out regAcon here
* would make it very hard to handle this instruction efficiently.
*/
pat lof
with A_REG yields {offsetted4, %1, $1}
with exact local_addr yields {LOCAL, %1.bd+$1}
with exact ext_addr yields {absolute4, %1.bd+$1}
#ifndef m68020
with regAcon yields {offsetted4, %1.reg, %1.bd+$1}
#else m68020
with exact regAcon yields {offsetted4, %1.reg, %1.bd+$1}
with exact regAregXcon yields {index_off4, %1.reg, %1.xreg, %1.sc, %1.bd+$1}
with exact offsetted4 yields {OFF_off4, %1.reg, %1.bd, $1}
with exact indirect yields {OFF_off4, %1.reg, 0, $1}
with exact LOCAL yields {OFF_off4, lb, %1.bd, $1}
with exact off_con yields {OFF_off4, %1.reg, %1.bd, %1.od+$1}
with exact off_regXcon yields {OFF_indoff4,
%1.reg, %1.xreg, %1.sc, %1.bd, %1.od+$1}
with exact index_off4 yields {INDOFF_off4, %1.reg, %1.xreg, %1.sc, %1.bd, $1}
with exact indoff_con yields {INDOFF_off4,
%1.reg, %1.xreg, %1.sc, %1.bd, %1.od+$1}
with exact absolute4 yields {ABS_off4, %1.bd, $1}
with exact abs_con yields {ABS_off4, %1.bd, %1.od+$1}
with exact abs_regXcon yields {ABS_indoff4, %1.sc, %1.xreg, %1.bd, %1.od+$1}
with exact abs_index4 yields {ABSIND_off4, %1.sc, %1.xreg, %1.bd, $1}
with exact absind_con yields {ABSIND_off4, %1.sc, %1.xreg, %1.bd, %1.od+$1}
with exact ext_regX yields {abs_index4, %1.sc, %1.xreg, %1.bd+$1}
#endif m68020
pat lal yields {local_addr, $1}
pat lae yields {ext_addr, $1}
pat lxl $1==0 yields lb
pat lxl $1==1 yields {LOCAL, SL}
pat lxl $1==2
#ifdef m68020
yields {OFF_off4, lb, SL, SL}
#else m68020
uses AA_REG = {LOCAL, SL}
yields {offsetted4, %a, SL}
#endif m68020
pat lxl $1==3
#ifdef m68020
uses AA_REG = {OFF_off4, lb, SL, SL}
#else m68020
uses AA_REG = {LOCAL, SL}
gen move {offsetted4, %a, SL}, %a
#endif m68020
yields {offsetted4, %a, SL}
pat lxl $1>3
uses AA_REG = {LOCAL, SL},
DD_REG = {const, $1-2}
gen 1:
move_l {offsetted4, %a, SL} ,%a
dbf %b, {slabel, 1b}
yields %a
pat lxa $1==0 yields {local_addr, SL}
pat lxa $1==1
#ifdef m68020
yields {off_con, lb, SL, SL}
#else m68020
uses AA_REG = {LOCAL, SL}
yields {regAcon, %a, SL}
#endif m68020
pat lxa $1==2
#ifdef m68020
uses AA_REG = {OFF_off4, lb, SL, SL}
#else m68020
uses AA_REG = {LOCAL, SL}
gen move {offsetted4, %a, SL}, %a
#endif m68020
yields {regAcon, %a, SL}
pat lxa $1>2
uses AA_REG = {LOCAL, SL},
DD_REG = {const, $1-1}
gen 1:
move_l {offsetted4, %a, SL} ,%a
dbf %b, {slabel, 1b}
yields {regAcon, %a, SL}
pat loi $1==1
with A_REG yields {indirect1, %1}
with exact local_addr yields {offsetted1, lb, %1.bd}
with exact ext_addr yields {absolute1, %1.bd}
#ifndef m68020
with regAcon yields {offsetted1, %1.reg, %1.bd}
with regAregXcon yields {index_off1, %1.reg, %1.xreg, %1.sc, %1.bd}
#else m68020
with exact regAcon yields {offsetted1, %1.reg, %1.bd}
with exact regAregXcon yields {index_off1, %1.reg, %1.xreg, %1.sc, %1.bd}
with exact indirect4 yields {OFF_off1, %1.reg, 0, 0}
with exact offsetted4 yields {OFF_off1, %1.reg, %1.bd, 0}
with exact LOCAL yields {OFF_off1, lb, %1.bd, 0}
with exact off_con yields {OFF_off1, %1.reg, %1.bd, %1.od}
with exact off_regXcon yields {OFF_indoff1,
%1.reg, %1.xreg, %1.sc, %1.bd, %1.od}
with exact index_off4 yields {INDOFF_off1, %1.reg, %1.xreg, %1.sc, %1.bd, 0}
with exact indoff_con yields {INDOFF_off1,
%1.reg, %1.xreg, %1.sc, %1.bd, %1.od}
with exact absolute4 yields {ABS_off1, %1.bd, 0}
with exact abs_con yields {ABS_off1, %1.bd, %1.od}
with exact abs_regXcon yields {ABS_indoff1, %1.sc, %1.xreg, %1.bd, %1.od}
with exact abs_index4 yields {ABSIND_off1, %1.sc, %1.xreg, %1.bd, 0}
with exact absind_con yields {ABSIND_off1, %1.sc, %1.xreg, %1.bd, %1.od}
with exact ext_regX yields {abs_index1, %1.sc, %1.xreg, %1.bd}
#endif m68020
pat loi $1==2
with A_REG yields {indirect2, %1}
with exact local_addr yields {offsetted2, lb, %1.bd}
with exact ext_addr yields {absolute2, %1.bd}
#ifndef m68020
with regAcon yields {offsetted2, %1.reg, %1.bd}
with regAregXcon yields {index_off2, %1.reg, %1.xreg, %1.sc, %1.bd}
#else m68020
with exact regAcon yields {offsetted2, %1.reg, %1.bd}
with exact regAregXcon yields {index_off2, %1.reg, %1.xreg, %1.sc, %1.bd}
with exact indirect4 yields {OFF_off2, %1.reg, 0, 0}
with exact offsetted4 yields {OFF_off2, %1.reg, %1.bd, 0}
with exact LOCAL yields {OFF_off2, lb, %1.bd, 0}
with exact off_con yields {OFF_off2, %1.reg, %1.bd, %1.od}
with exact off_regXcon yields {OFF_indoff2,
%1.reg, %1.xreg, %1.sc, %1.bd, %1.od}
with exact index_off4 yields {INDOFF_off2, %1.reg, %1.xreg, %1.sc, %1.bd, 0}
with exact indoff_con yields {INDOFF_off2,
%1.reg, %1.xreg, %1.sc, %1.bd, %1.od}
with exact absolute4 yields {ABS_off2, %1.bd, 0}
with exact abs_con yields {ABS_off2, %1.bd, %1.od}
with exact abs_regXcon yields {ABS_indoff2, %1.sc, %1.xreg, %1.bd, %1.od}
with exact abs_index4 yields {ABSIND_off2, %1.sc, %1.xreg, %1.bd, 0}
with exact absind_con yields {ABSIND_off2, %1.sc, %1.xreg, %1.bd, %1.od}
with exact ext_regX yields {abs_index2, %1.sc, %1.xreg, %1.bd}
#endif m68020
pat loi $1==4
with A_REG yields {indirect4, %1}
with exact local_addr yields {LOCAL, %1.bd}
with exact ext_addr yields {absolute4, %1.bd}
#ifndef m68020
with regAcon yields {offsetted4, %1.reg, %1.bd}
with regAregXcon yields {index_off4, %1.reg, %1.xreg, %1.sc, %1.bd}
#else m68020
with exact regAcon yields {offsetted4, %1.reg, %1.bd}
with exact regAregXcon yields {index_off4, %1.reg, %1.xreg, %1.sc, %1.bd}
with exact LOCAL yields {ILOCAL, %1.bd}
with exact indirect4 yields {OFF_off4, %1.reg, 0, 0}
with exact offsetted4 yields {OFF_off4, %1.reg, %1.bd, 0}
with exact off_con yields {OFF_off4, %1.reg, %1.bd, %1.od}
with exact off_regXcon yields {OFF_indoff4,
%1.reg, %1.xreg, %1.sc, %1.bd, %1.od}
with exact index_off4 yields {INDOFF_off4, %1.reg, %1.xreg, %1.sc, %1.bd, 0}
with exact indoff_con yields {INDOFF_off4,
%1.reg, %1.xreg, %1.sc, %1.bd, %1.od}
with exact absolute4 yields {ABS_off4, %1.bd, 0}
with exact abs_con yields {ABS_off4, %1.bd, %1.od}
with exact abs_regXcon yields {ABS_indoff4, %1.sc, %1.xreg, %1.bd, %1.od}
with exact abs_index4 yields {ABSIND_off4, %1.sc, %1.xreg, %1.bd, 0}
with exact absind_con yields {ABSIND_off4, %1.sc, %1.xreg, %1.bd, %1.od}
with exact ext_regX yields {abs_index4, %1.sc, %1.xreg, %1.bd}
#endif m68020
pat loi $1==8
with A_REG yields {offsetted4, %1, 4}
{indirect4, %1}
pat loi $1>8
with AA_REG STACK
uses DD_REG = {const, $1/4 -1}
gen add_l {const, $1}, %1
1:
move_l {pre_dec4, %1}, {pre_dec4, sp}
dbf %a, {slabel, 1b}
pat los $1==4
with STACK
gen jsr {absolute4, ".los"}
pat lde yields {absolute4, $1+4}
{absolute4, $1}
pat ldf
with A_REG yields {offsetted4, %1, $1+4}
{offsetted4, %1, $1}
with exact local_addr yields {LOCAL, %1.bd+$1+4}
{LOCAL, %1.bd+$1}
with exact ext_addr yields {absolute4, %1.bd+$1+4}
{absolute4, %1.bd+$1}
#ifndef m68020
with regAcon yields {offsetted4, %1.reg, %1.bd+$1+4}
{offsetted4, %1.reg, %1.bd+$1}
#else m68020
with exact regAcon yields {offsetted4, %1.reg, %1.bd+$1+4}
{offsetted4, %1.reg, %1.bd+$1}
with exact regAregXcon yields {index_off4, %1.reg, %1.xreg, %1.sc, %1.bd+$1+4}
{index_off4, %1.reg, %1.xreg, %1.sc, %1.bd+$1}
with exact indirect4 yields {OFF_off4, %1.reg, 0, $1+4}
{OFF_off4, %1.reg, 0, $1}
with exact offsetted4 yields {OFF_off4, %1.reg, %1.bd, $1+4}
{OFF_off4, %1.reg, %1.bd, $1}
with exact LOCAL yields {OFF_off4, lb, %1.bd, $1+4}
{OFF_off4, lb, %1.bd, $1}
with exact off_con yields {OFF_off4, %1.reg, %1.bd, %1.od+$1+4}
{OFF_off4, %1.reg, %1.bd, %1.od+$1}
with exact off_regXcon yields {OFF_indoff4,
%1.reg, %1.xreg, %1.sc, %1.bd, %1.od+$1+4}
{OFF_indoff4,
%1.reg, %1.xreg, %1.sc, %1.bd, %1.od+$1}
with exact index_off4 yields {INDOFF_off4, %1.reg, %1.xreg, %1.sc,%1.bd,$1+4}
{INDOFF_off4, %1.reg, %1.xreg, %1.sc, %1.bd, $1}
with exact indoff_con yields {INDOFF_off4,
%1.reg, %1.xreg, %1.sc, %1.bd, %1.od+$1+4}
{INDOFF_off4,
%1.reg, %1.xreg, %1.sc, %1.bd, %1.od+$1}
with exact absolute4 yields {ABS_off4, %1.bd, $1+4}
{ABS_off4, %1.bd, $1}
with exact abs_con yields {ABS_off4, %1.bd, %1.od+$1+4}
{ABS_off4, %1.bd, %1.od+$1}
with exact abs_regXcon yields {ABS_indoff4, %1.sc, %1.xreg, %1.bd, %1.od+$1+4}
{ABS_indoff4, %1.sc, %1.xreg, %1.bd, %1.od+$1}
with exact abs_index4 yields {ABSIND_off4, %1.sc, %1.xreg, %1.bd, $1+4}
{ABSIND_off4, %1.sc, %1.xreg, %1.bd, $1}
with exact absind_con yields {ABSIND_off4, %1.sc, %1.xreg, %1.bd, %1.od+$1+4}
{ABSIND_off4, %1.sc, %1.xreg, %1.bd, %1.od+$1}
with exact ext_regX yields {abs_index4, %1.sc, %1.xreg, %1.bd+$1+4}
{abs_index4, %1.sc, %1.xreg, %1.bd+$1}
#endif m68020
pat lpi yields {ext_addr, $1}
/************************************************
* Group 2: store instructions *
************************************************/
pat stl
with any4
kills all_indir, LOCAL %bd==$1
gen move %1, {LOCAL, $1}
with exact STACK
gen move {post_inc4,sp}, {LOCAL, $1}
pat ste
with any4
kills posextern
gen move %1, {absolute4, $1}
with exact STACK
gen move {post_inc4, sp}, {absolute4, $1}
pat sil
#ifdef m68020
with any4
kills allexceptcon
gen move %1, {ILOCAL, $1}
with exact STACK
gen move {post_inc4, sp}, {ILOCAL, $1}
#else m68020
with any4
kills allexceptcon
uses AA_REG = {LOCAL, $1}
gen move %1, {indirect4, %a}
with exact STACK
uses AA_REG = {LOCAL, $1}
gen move {post_inc4, sp}, {indirect4, %a}
#endif m68020
pat stf
with A_REG any4
kills allexceptcon
gen move %2, {offsetted4, %1, $1}
with A_REG STACK
gen move {post_inc4, sp}, {offsetted4, %1, $1}
with exact local_addr any4
kills allexceptcon
gen move %2, {LOCAL, %1.bd+$1}
with exact ext_addr any4
kills allexceptcon
gen move %2, {absolute4, %1.bd+$1}
#ifndef m68020
with regAcon any4
kills allexceptcon
gen move %2, {offsetted4, %1.reg, %1.bd+$1}
#else m68020
with exact regAcon any4
kills allexceptcon
gen move %2, {offsetted4, %1.reg, %1.bd+$1}
with exact regAregXcon any4
kills allexceptcon
gen move %2, {index_off4, %1.reg, %1.xreg, %1.sc, %1.bd+$1}
with exact indirect4 any4
kills allexceptcon
gen move %2, {OFF_off4, %1.reg, 0, $1}
with exact offsetted4 any4
kills allexceptcon
gen move %2, {OFF_off4, %1.reg, %1.bd, $1}
with exact LOCAL any4
kills allexceptcon
gen move %2, {OFF_off4, lb, %1.bd, $1}
with exact off_con any4
kills allexceptcon
gen move %2, {OFF_off4, %1.reg, %1.bd, %1.od+$1}
with exact off_regXcon any4
kills allexceptcon
gen move %2, {OFF_indoff4, %1.reg, %1.xreg, %1.sc, %1.bd, %1.od+$1}
with exact index_off4 any4
kills allexceptcon
gen move %2, {INDOFF_off4, %1.reg, %1.xreg, %1.sc, %1.bd, $1}
with exact indoff_con any4
kills allexceptcon
gen move %2, {INDOFF_off4, %1.reg, %1.xreg, %1.sc, %1.bd, %1.od+$1}
with exact absolute4 any4
kills allexceptcon
gen move %2, {ABS_off4, %1.bd, $1}
with exact abs_con any4
kills allexceptcon
gen move %2, {ABS_off4, %1.bd, %1.od+$1}
with exact abs_regXcon any4
kills allexceptcon
gen move %2, {ABS_indoff4, %1.sc, %1.xreg, %1.bd, %1.od+$1}
with exact abs_index4 any4
kills allexceptcon
gen move %2, {ABSIND_off4, %1.sc, %1.xreg, %1.bd, $1}
with exact absind_con any4
kills allexceptcon
gen move %2, {ABSIND_off4, %1.sc, %1.xreg, %1.bd, %1.od+$1}
with exact ext_regX any4
kills allexceptcon
gen move %2, {abs_index4, %1.sc, %1.xreg, %1.bd+$1}
#endif m68020
pat sti $1==1
with A_REG data1
kills allexceptcon
gen move %2, {indirect1, %1}
with exact local_addr data1
kills allexceptcon
gen move %2, {offsetted1, lb, %1.bd}
with exact ext_addr data1
kills allexceptcon
gen move %2, {absolute1, %1.bd}
#ifndef m68020
with regAcon data1
kills allexceptcon
gen move %2, {offsetted1, %1.reg, %1.bd}
with regAregXcon data1
kills allexceptcon
gen move %2, {index_off1, %1.reg, %1.xreg, %1.sc, %1.bd}
#else m68020
with exact regAcon data1
kills allexceptcon
gen move %2, {offsetted1, %1.reg, %1.bd}
with exact regAregXcon data1
kills allexceptcon
gen move %2, {index_off1, %1.reg, %1.xreg, %1.sc, %1.bd}
with exact indirect4 data1
kills allexceptcon
gen move %2, {OFF_off1, %1.reg, 0, 0}
with exact offsetted4 data1
kills allexceptcon
gen move %2, {OFF_off1, %1.reg, %1.bd, 0}
with exact LOCAL data1
kills allexceptcon
gen move %2, {OFF_off1, lb, %1.bd, 0}
with exact off_con data1
kills allexceptcon
gen move %2, {OFF_off1, %1.reg, %1.bd, %1.od}
with exact off_regXcon data1
kills allexceptcon
gen move %2, {OFF_indoff1, %1.reg, %1.xreg, %1.sc, %1.bd, %1.od}
with exact index_off4 data1
kills allexceptcon
gen move %2, {INDOFF_off1, %1.reg, %1.xreg, %1.sc, %1.bd, 0}
with exact indoff_con data1
kills allexceptcon
gen move %2, {INDOFF_off1, %1.reg, %1.xreg, %1.sc, %1.bd, %1.od}
with exact absolute4 data1
kills allexceptcon
gen move %2, {ABS_off1, %1.bd, 0}
with exact abs_con data1
kills allexceptcon
gen move %2, {ABS_off1, %1.bd, %1.od}
with exact abs_regXcon data1
kills allexceptcon
gen move %2, {ABS_indoff1, %1.sc, %1.xreg, %1.bd, %1.od}
with exact abs_index4 data1
kills allexceptcon
gen move %2, {ABSIND_off1, %1.sc, %1.xreg, %1.bd, 0}
with exact absind_con data1
kills allexceptcon
gen move %2, {ABSIND_off1, %1.sc, %1.xreg, %1.bd, %1.od}
with exact ext_regX data1
kills allexceptcon
gen move %2, {abs_index1, %1.sc, %1.xreg, %1.bd}
#endif m68020
pat sti $1==2
with A_REG any2
kills allexceptcon
gen move %2, {indirect2, %1}
with exact local_addr any2
kills allexceptcon
gen move %2, {offsetted2, lb, %1.bd}
with exact ext_addr any2
kills allexceptcon
gen move %2, {absolute2, %1.bd}
#ifndef m68020
with regAcon any2
kills allexceptcon
gen move %2, {offsetted2, %1.reg, %1.bd}
with regAregXcon any2
kills allexceptcon
gen move %2, {index_off2, %1.reg, %1.xreg, %1.sc, %1.bd}
#else m68020
with exact regAcon any2
kills allexceptcon
gen move %2, {offsetted2, %1.reg, %1.bd}
with exact regAregXcon any2
kills allexceptcon
gen move %2, {index_off2, %1.reg, %1.xreg, %1.sc, %1.bd}
with exact indirect4 any2
kills allexceptcon
gen move %2, {OFF_off2, %1.reg, 0, 0}
with exact offsetted4 any2
kills allexceptcon
gen move %2, {OFF_off2, %1.reg, %1.bd, 0}
with exact LOCAL any2
kills allexceptcon
gen move %2, {OFF_off2, lb, %1.bd, 0}
with exact off_con any2
kills allexceptcon
gen move %2, {OFF_off2, %1.reg, %1.bd, %1.od}
with exact index_off4 any2
kills allexceptcon
gen move %2, {INDOFF_off2, %1.reg, %1.xreg, %1.sc, %1.bd, 0}
with exact off_regXcon any2
kills allexceptcon
gen move %2, {OFF_indoff2, %1.reg, %1.xreg, %1.sc, %1.bd, %1.od}
with exact indoff_con any2
kills allexceptcon
gen move %2, {INDOFF_off2, %1.reg, %1.xreg, %1.sc, %1.bd, %1.od}
with exact absolute4 any2
kills allexceptcon
gen move %2, {ABS_off2, %1.bd, 0}
with exact abs_con any2
kills allexceptcon
gen move %2, {ABS_off2, %1.bd, %1.od}
with exact abs_regXcon any2
kills allexceptcon
gen move %2, {ABS_indoff2, %1.sc, %1.xreg, %1.bd, %1.od}
with exact abs_index4 any2
kills allexceptcon
gen move %2, {ABSIND_off2, %1.sc, %1.xreg, %1.bd, 0}
with exact absind_con any2
kills allexceptcon
gen move %2, {ABSIND_off2, %1.sc, %1.xreg, %1.bd, %1.od}
with exact ext_regX any2
kills allexceptcon
gen move %2, {abs_index2, %1.sc, %1.xreg, %1.bd}
#endif m68020
pat sti $1==4
with A_REG any4
kills allexceptcon
gen move %2, {indirect4, %1}
with A_REG STACK
gen move {post_inc4, sp}, {indirect4, %1}
with exact local_addr any4
kills allexceptcon
gen move %2, {LOCAL, %1.bd}
with exact ext_addr any4
kills allexceptcon
gen move %2, {absolute4, %1.bd}
#ifndef m68020
with regAcon any4
kills allexceptcon
gen move %2, {offsetted4, %1.reg, %1.bd}
with regAregXcon any4
kills allexceptcon
gen move %2, {index_off4, %1.reg, %1.xreg, %1.sc, %1.bd}
#else m68020
with exact regAcon any4
kills allexceptcon
gen move %2, {offsetted4, %1.reg, %1.bd}
with exact regAregXcon any4
kills allexceptcon
gen move %2, {index_off4, %1.reg, %1.xreg, %1.sc, %1.bd}
with exact LOCAL any4
kills allexceptcon
gen move %2, {ILOCAL, %1.bd}
with exact indirect4 any4
kills allexceptcon
gen move %2, {OFF_off4, %1.reg, 0, 0}
with exact offsetted4 any4
kills allexceptcon
gen move %2, {OFF_off4, %1.reg, %1.bd, 0}
with exact off_con any4
kills allexceptcon
gen move %2, {OFF_off4, %1.reg, %1.bd, %1.od}
with exact off_regXcon any4
kills allexceptcon
gen move %2, {OFF_indoff4, %1.reg, %1.xreg, %1.sc, %1.bd, %1.od}
with exact index_off4 any4
kills allexceptcon
gen move %2, {INDOFF_off4, %1.reg, %1.xreg, %1.sc, %1.bd, 0}
with exact indoff_con any4
kills allexceptcon
gen move %2, {INDOFF_off4, %1.reg, %1.xreg, %1.sc, %1.bd, %1.od}
with exact absolute4 any4
kills allexceptcon
gen move %2, {ABS_off4, %1.bd, 0}
with exact abs_con any4
kills allexceptcon
gen move %2, {ABS_off4, %1.bd, %1.od}
with exact abs_regXcon any4
kills allexceptcon
gen move %2, {ABS_indoff4, %1.sc, %1.xreg, %1.bd, %1.od}
with exact abs_index4 any4
kills allexceptcon
gen move %2, {ABSIND_off4, %1.sc, %1.xreg, %1.bd, 0}
with exact absind_con any4
kills allexceptcon
gen move %2, {ABSIND_off4, %1.sc, %1.xreg, %1.bd, %1.od}
with exact ext_regX any4
kills allexceptcon
gen move %2, {abs_index4, %1.sc, %1.xreg, %1.bd}
#endif m68020
pat sti $1>4
with AA_REG STACK
uses DD_REG = {const, $1/4 -1}
gen 1:
move_l {post_inc4, sp}, {post_inc4, %1}
dbf %a, {slabel, 1b}
pat sts $1==4
with STACK
gen jsr {absolute4, ".sts"}
pat sdl
with any4 any4
kills all_indir, LOCAL %bd==$1
gen move %1, {LOCAL, $1}
move %2, {LOCAL, $1+4}
pat sde
with any4 any4
kills posextern
gen move %1, {absolute4, $1}
move %2, {absolute4, $1+4}
pat sdf
with A_REG any4 any4
kills allexceptcon
gen move %2, {offsetted4, %1, $1}
move %3, {offsetted4, %1, $1+4}
with exact local_addr any4 any4
kills allexceptcon
gen move %2, {LOCAL, %1.bd+$1}
move %3, {LOCAL, %1.bd+$1+4}
with exact ext_addr any4 any4
kills allexceptcon
gen move %2, {absolute4, %1.bd+$1}
move %3, {absolute4, %1.bd+$1+4}
#ifndef m68020
with regAcon any4 any4
kills allexceptcon
gen move %2, {offsetted4, %1.reg, %1.bd+$1}
move %3, {offsetted4, %1.reg, %1.bd+$1+4}
#else m68020
with exact regAcon any4 any4
kills allexceptcon
gen move %2, {offsetted4, %1.reg, %1.bd+$1}
move %3, {offsetted4, %1.reg, %1.bd+$1+4}
with exact regAregXcon any4 any4
kills allexceptcon
gen move %2, {index_off4, %1.reg, %1.xreg, %1.sc, %1.bd+$1}
move %3, {index_off4, %1.reg, %1.xreg, %1.sc, %1.bd+$1+4}
with exact indirect4 any4 any4
kills allexceptcon
gen move %2, {OFF_off4, %1.reg, 0, $1}
move %3, {OFF_off4, %1.reg, 0, $1+4}
with exact offsetted4 any4 any4
kills allexceptcon
gen move %2, {OFF_off4, %1.reg, %1.bd, $1}
move %3, {OFF_off4, %1.reg, %1.bd, $1+4}
with exact LOCAL any4 any4
kills allexceptcon
gen move %2, {OFF_off4, lb, %1.bd, $1}
move %3, {OFF_off4, lb, %1.bd, $1+4}
with exact off_con any4 any4
kills allexceptcon
gen move %2, {OFF_off4, %1.reg, %1.bd, %1.od+$1}
move %3, {OFF_off4, %1.reg, %1.bd, %1.od+$1+4}
with exact off_regXcon any4 any4
kills allexceptcon
gen move %2, {OFF_indoff4, %1.reg, %1.xreg, %1.sc, %1.bd, %1.od+$1}
move %3, {OFF_indoff4, %1.reg, %1.xreg, %1.sc, %1.bd, %1.od+$1+4}
with exact index_off4 any4 any4
kills allexceptcon
gen move %2, {INDOFF_off4, %1.reg, %1.xreg, %1.sc, %1.bd, $1}
move %3, {INDOFF_off4, %1.reg, %1.xreg, %1.sc, %1.bd, $1+4}
with exact indoff_con any4 any4
kills allexceptcon
gen move %2, {INDOFF_off4, %1.reg, %1.xreg, %1.sc, %1.bd, %1.od+$1}
move %3, {INDOFF_off4, %1.reg, %1.xreg, %1.sc, %1.bd, %1.od+$1+4}
with exact absolute4 any4 any4
kills allexceptcon
gen move %2, {ABS_off4, %1.bd, $1}
move %3, {ABS_off4, %1.bd, $1+4}
with exact abs_con any4 any4
kills allexceptcon
gen move %2, {ABS_off4, %1.bd, %1.od+$1}
move %3, {ABS_off4, %1.bd, %1.od+$1+4}
with exact abs_regXcon any4 any4
kills allexceptcon
gen move %2, {ABS_indoff4, %1.sc, %1.xreg, %1.bd, %1.od+$1}
move %3, {ABS_indoff4, %1.sc, %1.xreg, %1.bd, %1.od+$1+4}
with exact abs_index4 any4 any4
kills allexceptcon
gen move %2, {ABSIND_off4, %1.sc, %1.xreg, %1.bd, $1}
move %3, {ABSIND_off4, %1.sc, %1.xreg, %1.bd, $1+4}
with exact absind_con any4 any4
kills allexceptcon
gen move %2, {ABSIND_off4, %1.sc, %1.xreg, %1.bd, %1.od+$1}
move %3, {ABSIND_off4, %1.sc, %1.xreg, %1.bd, %1.od+$1+4}
with exact ext_regX any4 any4
kills allexceptcon
gen move %2, {abs_index4, %1.sc, %1.xreg, %1.bd+$1}
move %3, {abs_index4, %1.sc, %1.xreg, %1.bd+$1+4}
#endif m68020
/************************************************
* Group 3: integer arithmetic. *
************************************************/
pat adi $1==4
with any4 DD_REG
gen add_l %1, %2 yields %2
with DD_REG any4-DD_REG
gen add_l %2, %1 yields %1
with DD_REG STACK
gen add_l {post_inc4, sp}, %1
yields %1
pat sbi $1==4
with any4 DD_REG
gen sub_l %1, %2 yields %2
with DD_REG any4-DD_REG
gen sub_l %2, %1
neg_l %1 yields %1
with DD_REG STACK
gen sub_l {post_inc4, sp}, %1
neg_l %1 yields %1
with any4 AA_REG
gen sub_l %1, %2 yields %2
pat mli $1==4
#ifdef m68020
with data4 DD_REG
gen muls_l %1, %2 yields %2
#else m68020
with STACK
gen jsr {absolute4, ".mli"}
yields d1
#endif m68020
pat dvi $1==4
#ifdef m68020
with data4 DD_REG
gen divs_l %1, %2 yields %2
#else m68020
with STACK
gen jsr {absolute4, ".dvi"}
yields d1
#endif m68020
pat rmi $1==4
#ifdef m68020
with data4 DD_REG
uses DD_REG
gen divsl_l %1, {DREG_pair, %a, %2}
killreg %2
/* !!!! contents of %2 have changed: make this known to cg */
yields %a
#else m68020
with STACK
gen jsr {absolute4, ".dvi"}
yields d0
#endif m68020
pat ngi $1==4
with DD_REG
gen neg_l %1 yields %1
pat sli $1==4
with D_REG DD_REG
gen asl_l %1, %2 yields %2
pat sri $1==4
with D_REG DD_REG
gen asr_l %1, %2 yields %2
/************************************************
* Group 4: unsigned arithmetic. *
************************************************/
pat adu leaving adi $1
pat sbu leaving sbi $1
pat mlu $1==4
#ifdef m68020
with data4 DD_REG
gen mulu_l %1, %2 yields %2
#else m68020
with STACK
gen jsr {absolute4, ".mlu"}
yields d1
#endif m68020
pat dvu $1==4
#ifdef m68020
with data4 DD_REG
gen divu_l %1, %2 yields %2
#else m68020
with STACK
gen jsr {absolute4, ".dvu"}
yields d1
#endif m68020
pat rmu $1==4
#ifdef m68020
with data4 DD_REG
uses DD_REG
gen divul_l %1, {DREG_pair, %a, %2}
killreg %2
/* !!!! contents of %2 have changed: make this known to cg */
yields %a
#else m68020
with STACK
gen jsr {absolute4, ".dvu"}
yields d0
#endif m68020
pat slu leaving sli $1
pat sru $1==4
with D_REG DD_REG
gen lsr_l %1, %2 yields %2
/************************************************
* Group 5: floating point arithmetic *
* *
* is not available on 68000, 68010 or 68020 *
* so traps will be generated *
************************************************/
pat adf leaving loc 18 trp
pat sbf leaving loc 18 trp
pat mlf leaving loc 18 trp
pat dvf leaving loc 18 trp
pat ngf leaving loc 18 trp
pat fif leaving loc 18 trp
pat fef leaving loc 18 trp
/************************************************
* Group 6: pointer arithmetic *
************************************************/
pat adp $1==0 /* skip; array instructions might 'leave' this */
pat adp
with A_REG yields {t_regAcon, %1, $1}
with exact local_addr yields {local_addr, %1.bd+$1}
with exact ext_addr yields {ext_addr, %1.bd+$1}
with exact regAcon + t_regAcon
yields {t_regAcon, %1.reg, %1.bd+$1}
with exact regAregXcon + t_regAregXcon
yields {t_regAregXcon,%1.reg, %1.xreg, %1.sc, %1.bd+$1}
#ifdef m68020
with exact indirect4 yields {off_con, %1.reg, 0, $1}
with exact LOCAL yields {off_con, lb, %1.bd, $1}
with exact offsetted4 yields {off_con, %1.reg, %1.bd, $1}
with exact off_con yields {off_con, %1.reg, %1.bd, %1.od+$1}
with exact off_regXcon yields {off_regXcon,
%1.reg, %1.xreg, %1.sc, %1.bd, %1.od+$1}
with exact index_off4 yields {indoff_con, %1.reg, %1.xreg, %1.sc, %1.bd, $1}
with exact indoff_con yields {indoff_con,
%1.reg, %1.xreg, %1.sc, %1.bd, %1.od+$1}
with exact absolute4 yields {abs_con, %1.bd, $1}
with exact abs_con yields {abs_con, %1.bd, %1.od+$1}
with exact abs_regXcon yields {abs_regXcon, %1.sc, %1.xreg, %1.bd, %1.od+$1}
with exact abs_index4 yields {absind_con, %1.sc, %1.xreg, %1.bd, $1}
with exact absind_con yields {absind_con, %1.sc, %1.xreg, %1.bd, %1.od+$1}
with exact ext_regX yields {ext_regX, %1.sc, %1.xreg, %1.bd+$1}
#endif m68020
pat ads $1==4
with D_REG A_REG yields {regAregXcon, %2, %1, 1, 0}
with D_REG regAcon + t_regAcon
yields {t_regAregXcon, %2.reg, %1, 1, %2.bd}
with D_REG local_addr yields {t_regAregXcon, lb, %1, 1, %2.bd}
with any4-D_REG AA_REG
gen add_l %1, %2 yields %2
#ifdef m68020
with D_REG yields {regX, 1, %1}
leaving ads 4
with regX A_REG yields {regAregXcon, %2, %1.xreg, %1.sc, 0}
with exact regX regAcon yields {regAregXcon, %2.reg, %1.xreg, %1.sc, %2.bd}
with exact regX local_addr
yields {regAregXcon, lb, %1.xreg, %1.sc, %2.bd}
with exact regX ext_addr
yields {ext_regX, %1.sc, %1.xreg, %2.bd}
with exact regX indirect4
yields {off_regXcon, %2.reg, %1.xreg,%1.sc,0,0}
with exact regX offsetted4
yields {off_regXcon, %2.reg, %1.xreg, %1.sc, %2.bd, 0}
with exact regX LOCAL yields {off_regXcon, lb, %1.xreg, %1.sc, %2.bd, 0}
with exact regX off_con yields {off_regXcon, %2.reg, %1.xreg,%1.sc,%2.bd,%2.od}
with exact regX absolute4
yields {abs_regXcon, %1.sc, %1.xreg, %2.bd, 0}
with exact regX abs_con yields {abs_regXcon, %1.sc, %1.xreg, %2.bd, %2.od}
with exact indirect4 ext_addr
yields {off_con, %1.reg, 0, %2.bd}
with exact offsetted4 ext_addr
yields {off_con, %1.reg, %1.bd, %2.bd}
with exact LOCAL ext_addr
yields {off_con, lb, %1.bd, %2.bd}
with exact index_off4 ext_addr
yields {indoff_con, %1.reg, %1.xreg, %1.sc,%1.bd,%2.bd}
with exact absolute4 ext_addr
yields {abs_con, %1.bd, %2.bd}
with exact abs_index4 ext_addr
yields {absind_con, %1.sc, %1.xreg, %1.bd, %2.bd}
with exact indirect4 ext_regX
yields {off_regXcon, %1.reg, %2.xreg, %2.sc, 0, %2.bd}
with exact offsetted4 ext_regX
yields {off_regXcon, %1.reg, %2.xreg,%2.sc,%1.bd,%2.bd}
with exact LOCAL ext_regX
yields {off_regXcon, lb, %2.xreg, %2.sc, %1.bd, %2.bd}
with exact absolute4 ext_regX
yields {abs_regXcon, %2.sc, %2.xreg, %1.bd, %2.bd}
#endif m68020
/* I WOULD ALSO LIKE THIS:
* pat ads
* with const leaving adp %1.num
* BUT THAT DOESN'T WORK.
*/
pat sbs $1==4 leaving sbi 4
#ifdef m68020
pat loc sli ads $1==1 && $2==4 && $3==4
with D_REG yields {regX, 2, %1}
leaving ads 4
pat loc sli ads $1==2 && $2==4 && $3==4
with D_REG yields {regX, 4, %1}
leaving ads 4
pat loc sli ads $1==3 && $2==4 && $3==4
with D_REG yields {regX, 8, %1}
leaving ads 4
#endif m68020
/************************************************
* Group 7: increment / decrement / zero *
************************************************/
pat inc
with exact STACK
gen add_l {const, 1}, {indirect4, sp}
with DD_REG+AA_REG
gen add_l {const, 1}, %1
yields %1
pat inl
kills all_indir, LOCAL %bd==$1
gen add_l {const, 1}, {LOCAL, $1}
pat ine
kills posextern
gen add_l {const, 1}, {absolute4, $1}
pat dec
with exact STACK
gen sub_l {const, 1}, {indirect4, sp}
with DD_REG+AA_REG
gen sub_l {const, 1}, %1
yields %1
pat del
kills all_indir, LOCAL %bd==$1
gen sub_l {const, 1}, {LOCAL, $1}
pat dee
kills posextern
gen sub_l {const, 1}, {absolute4, $1}
pat zrl
kills all_indir, LOCAL %bd==$1
gen clr_l {LOCAL, $1}
pat zre
kills posextern
gen clr_l {absolute4, $1}
pat zer $1==4 yields {const, 0}
pat zer $1==8 yields {const, 0} {const, 0}
pat zer $1==12 yields {const, 0} {const, 0} {const, 0}
pat zer
with STACK
uses DD_REG = {const, $1/4 -1}
gen 1:
clr_l {pre_dec4, sp}
dbf %a, {slabel, 1b}
pat zrf leaving loc 18 trp
/************************************************
* Group 8: convert instructions *
* for float conversions traps are generated *
************************************************/
pat cii
with STACK
gen jsr {absolute4, ".cii"}
pat cuu
with STACK
gen jsr {absolute4, ".cuu"}
pat ciu leaving cuu
pat cui leaving cuu
pat cfi leaving loc 18 trp
pat cif leaving loc 18 trp
pat cfu leaving loc 18 trp
pat cuf leaving loc 18 trp
pat cff leaving loc 18 trp
/************************************************
* Group 9: logical instructions *
************************************************/
proc log4
with datalt4+const DD_REG
gen xxx* %1, %2 yields %2
with DD_REG datalt4+const
gen xxx* %2, %1 yields %1
proc logdef example and
with STACK
uses DD_REG = {const, $1/4 -1},
AA_REG = {regAcon, sp, $1},
DD_REG
gen 1:
move_l {post_inc4, sp}, %c
xxx* %c, {post_inc4, %b}
dbf %a, {slabel, 1b}
proc logndef
with DD_REG STACK
uses AA_REG = {regAregXcon, sp, %1, 1, 0},
DD_REG
gen asr_l {shconst, 2}, %1
sub_l {const, 1}, %1
1:
move_l {post_inc4, sp}, %b
xxx* %b, {post_inc4, %a}
dbf %1, {slabel, 1b}
pat and $1==4 call log4("and.l")
pat and $1>4 call logdef("and.l")
pat and !defined($1) call logndef("and.l")
pat ior $1==4 call log4("or.l")
pat ior $1>4 call logdef("or.l")
pat ior !defined($1) call logndef("or.l")
pat xor $1==4
with conreg4 DD_REG
gen eor_l %1, %2 yields %2
with DD_REG conreg4
gen eor_l %2, %1 yields %1
pat xor $1>4 call logdef("eor.l")
pat xor !defined($1) call logndef("eor.l")
pat com $1==4
with DD_REG
gen not_l %1 yields %1
pat com $1==8
with DD_REG DD_REG
gen not_l %1
not_l %2 yields %2 %1
pat com $1>4
with STACK
uses AA_REG,
DD_REG = {const, $1/4 -1}
gen move_l sp, %a
1:
not_l {post_inc4, %a}
dbf %b, {slabel, 1b}
pat com !defined($1)
with DD_REG STACK
uses AA_REG
gen move_l sp, %a
asr_l {shconst, 2}, %1
sub_l {const, 1}, %1
1:
not_l {post_inc4, %a}
dbf %1, {slabel, 1b}
pat rol $1==4
with D_REG DD_REG
gen rol_l %1, %2 yields %2
pat ror $1==4
with D_REG DD_REG
gen ror_l %1, %2 yields %2
/************************************************
* Group 10: sets *
************************************************/
pat inn $1==4
with conreg2 DD_REG
gen btst %1, %2
sne %2
and_l {const, 1}, %2
yields %2
pat inn defined($1)
with any4 STACK
gen move %1, d0
move {const, $1}, d1
jsr {absolute4, ".inn"}
yields d0
pat inn !defined($1)
with any4 any4 STACK
gen move %2, d0
move %1, d1
jsr {absolute4, ".inn"}
yields d0
pat loc inn $2==4 && small($1)
with DD_REG
gen asr_l {shconst, $1}, %1
and_l {const, 1}, %1
yields %1
pat set $1==4
with conreg2
uses DD_REG = {const, 0}
gen bset %1, %a yields %a
pat set $1>4
with any4 STACK
gen move %1, d0
move {const, $1}, d1
jsr {absolute4, ".set"}
pat set !defined($1)
with any4 any4 STACK
gen move %2, d0
move %1, d1
jsr {absolute4, ".set"}
/************************************************
* Group 11: arrays *
************************************************/
pat lar defined($1)
with STACK
gen move {const, $1}, d0
jsr {absolute4, ".lar"}
pat lar !defined($1)
with any4 STACK
gen move %1, d0
jsr {absolute4, ".lar"}
pat sar defined($1)
with STACK
gen move {const, $1}, d0
jsr {absolute4, ".sar"}
pat sar !defined($1)
with any4 STACK
gen move %1, d0
jsr {absolute4, ".sar"}
pat aar defined($1)
with STACK
gen move {const, $1}, d0
jsr {absolute4, ".aar"}
yields a0
pat aar !defined($1)
with any4 STACK
gen move %1, d0
jsr {absolute4, ".aar"}
yields a0
pat lae lar $2==4 && nicesize(rom($1,3))
leaving lae $1 aar 4 loi rom($1, 3)
pat lae sar $2==4 && nicesize(rom($1,3))
leaving lae $1 aar 4 sti rom($1, 3)
pat lae aar $2==4 && rom($1,3)==1
leaving ads 4 adp 0-rom($1,1)
#ifdef m68020
pat lae aar $2==4 && nicesize(rom($1,3))
with D_REG yields {regX, rom($1,3), %1}
leaving ads 4 adp rom($1,3)*(0-rom($1,1))
#else m68020
pat lae aar $2==4 && rom($1,3)==2
with DD_REG
gen asl_l {shconst, 1}, %1
yields %1
leaving ads 4 adp (0 - rom($1,1))<<1
pat lae aar $2==4 && rom($1,3)==4
with DD_REG
gen asl_l {shconst, 2}, %1
yields %1
leaving ads 4 adp (0 - rom($1,1))<<2
pat lae aar $2==4 && rom($1,3)==8
with DD_REG
gen asl_l {shconst, 3}, %1
yields %1
leaving ads 4 adp (0 - rom($1,1))<<3
#endif m68020
/* I WOULD ALSO LIKE THESE:
* pat lae aar $2==4 && defined(rom($1,3))
* with const leaving adp rom($1,3)*(%1.num-rom($1,1))
* pat lae lar $2==4 && defined(rom($1,3))
* with const leaving adp rom($1,3)*(%1.num-rom($1,1))
* loi rom($1,3)
* pat lae sar $2==4 && defined(rom($1,3))
* with const leaving adp rom($1,3)*(%1.num-rom($1,1))
* sti rom($1,3)
* BUT THEY DON'T WORK.
*/
/************************************************
* Group 12: compare instructions *
************************************************/
pat cmi $1==4 leaving sbi 4
pat cmi defined($1)
with STACK
gen move {const, $1}, d0
jsr {absolute4, ".cmi"}
yields d0
pat cmi !defined($1)
with any4 STACK
gen move %1, d0
jsr {absolute4, ".cmi"}
yields d0
pat cmu $1==4 leaving sbi 4
pat cmu defined($1)
with STACK
gen move {const, $1}, d0
jsr {absolute4, ".cmu"}
yields d0
pat cmu !defined($1)
with any4 STACK
gen move %1, d0
jsr {absolute4, ".cmu"}
yields d0
pat cms $1==4 leaving sbi 4
pat cms defined($1)
with STACK
gen move {const, $1}, d0
jsr {absolute4, ".cms"}
yields d0
pat cms !defined($1)
with any4 STACK
gen move %1, d0
jsr {absolute4, ".cms"}
yields d0
pat cmp leaving cmu 4
proc txx
with test_set
uses DD_REG = {const, 1}
gen test %1
bxx* {slabel, 1f}
clr_l %a
1:
yields %a
pat tlt call txx("blt")
pat tle call txx("ble")
pat teq call txx("beq")
pat tne call txx("bne")
pat tge call txx("bge")
pat tgt call txx("bgt")
pat cmf leaving loc 18 trp
/************************************************
* Group 13: branch instructions *
************************************************/
pat bra
with STACK
gen bra {llabel, $1}
proc brxx example beq
with any4 genreg STACK
gen cmp_l %1, %2
bxx[1] {llabel, $1}
with genreg any4 STACK
gen cmp_l %2, %1
bxx[2] {llabel, $1}
with exact immediate4 imm_cmp4
kills ALL
gen cmp_l %1, %2
bxx[1] {llabel, $1}
with exact imm_cmp4 immediate4
kills ALL
gen cmp_l %2, %1
bxx[2] {llabel, $1}
with genreg STACK
gen cmp_l {post_inc4, sp}, %1
bxx[2] {llabel, $1}
with exact immediate4 STACK
gen cmp_l %1, {post_inc4, sp}
bxx[1] {llabel, $1}
with any2-conreg2 genreg STACK
gen cmp_w %1, %2
bxx[1] {llabel, $1}
with genreg any2-conreg2 STACK
gen cmp_w %2, %1
bxx[2] {llabel, $1}
with exact const imm_cmp2
kills ALL
gen cmp_w {const, loww(%1.num)}, %2
bxx[1] {llabel, $1}
with exact imm_cmp2 const
kills ALL
gen cmp_w {const, loww(%2.num)}, %1
bxx[2] {llabel, $1}
with data1-conreg1 D_REG STACK
gen cmp_b %1, %2
bxx[1] {llabel, $1}
with D_REG data1-conreg1 STACK
gen cmp_b %2, %1
bxx[2] {llabel, $1}
with exact const imm_cmp1
kills ALL
gen cmp_b {const, lowb(%1.num)}, %2
bxx[1] {llabel, $1}
with exact imm_cmp1 const
kills ALL
gen cmp_b {const, lowb(%2.num)}, %1
bxx[2] {llabel, $1}
pat blt call brxx("blt","bgt")
pat ble call brxx("ble","bge")
pat beq call brxx("beq","beq")
pat bne call brxx("bne","bne")
pat bge call brxx("bge","ble")
pat bgt call brxx("bgt","blt")
proc zxx example zeq
with test_set STACK
gen test %1
bxx* {llabel, $1}
with exact STACK
gen test {post_inc4, sp}
bxx* {llabel, $1}
pat zlt call zxx("blt")
pat zle call zxx("ble")
pat zeq call zxx("beq")
pat zne call zxx("bne")
pat zge call zxx("bge")
pat zgt call zxx("bgt")
/************************************************
* Group 14: procedure calls instructions *
************************************************/
pat cai
with exact ext_addr
kills ALL
gen jsr {absolute4, %1.bd}
with A_REG STACK
gen jsr {indirect4, %1}
with STACK
uses AA_REG = {post_inc4, sp}
gen jsr {indirect4, %a}
#ifdef m68020
with exact address
kills ALL
gen jsr %1
#else m68020
with address STACK
gen jsr %1
#endif m68020
pat cal
with STACK
gen jsr {absolute4, $1}
pat lfr $1==4 yields d0
pat lfr $1==8 yields d1 d0
pat ret $1==0
with STACK
gen return
pat ret $1==4
with any4 STACK
gen move %1, d0
return
with STACK
gen move {post_inc4, sp}, d0
return
pat ret $1==8
with any4 any4 STACK
gen move %1, d0
move %2, d1
return
with any4 STACK
gen move %1, d0
move {post_inc4, sp}, d1
return
with STACK
gen move {post_inc4, sp}, d0
move {post_inc4, sp}, d1
return
/************************************************
* Group 15: miscellaneous instructions *
************************************************/
pat asp small($1)
with STACK
gen add_l {const, $1}, sp
pat asp
with STACK
gen move {regAcon, sp, $1}, sp
pat ass $1==4
with any4 STACK
gen add_l %1, sp
pat blm $1==4
with A_REG A_REG
kills allexceptcon
gen move_l {indirect4, %2}, {indirect4, %1}
pat blm $1==8
with A_REG A_REG
kills allexceptcon
gen move_l {indirect4, %2}, {indirect4, %1}
move_l {offsetted4, %2, 4}, {offsetted4, %1, 4}
pat blm $1>8
with AA_REG AA_REG
kills allexceptcon
uses DD_REG={const, $1/4 -1}
gen 1:
move_l {post_inc4, %2}, {post_inc4, %1}
dbf %a, {slabel, 1b}
pat bls $1==4
with DD_REG AA_REG AA_REG
kills allexceptcon
gen asr_l {shconst, 2}, %1
beq {slabel, 2f}
sub_l {const, 1}, %1
1:
move_l {post_inc4, %3}, {post_inc4, %2}
dbf %1, {slabel, 1b}
2:
pat csa $1==4
with STACK
gen jmp {absolute4, ".csa"}
pat csb $1==4
with STACK
gen jmp {absolute4, ".csb"}
pat dch leaving loi 4
pat dup $1==4
with exact STACK
gen move_l {indirect4, sp}, {pre_dec4, sp}
with any4 yields %1 %1
pat dup $1==8
with exact STACK
gen move_l {offsetted4, sp, 4}, {pre_dec4, sp}
move_l {offsetted4, sp, 4}, {pre_dec4, sp}
with any4 any4 yields %2 %1 %2 %1
pat dup $1>8
with STACK
uses DD_REG = {const, $1/4 -1}
gen 1:
move_l {offsetted4, sp, $1 -4}, {pre_dec4, sp}
dbf %a, {slabel, 1b}
pat dus $1==4
with DD_REG STACK
uses AA_REG = {regAregXcon, sp, %1, 1, 0}
gen asr_l {shconst, 2}, %1
beq {slabel, 2f}
sub_l {const, 1}, %1
1:
move_l {pre_dec4, %a}, {pre_dec4, sp}
dbf %1, {slabel, 1b}
2:
pat exg $1==4
with any4 any4 yields %1 %2
pat exg defined($1)
with STACK
gen move {const, $1}, d0
jsr {absolute4, ".exg"}
pat exg !defined($1)
with any4 STACK
gen move_l %1, d0
jsr {absolute4, ".exg"}
pat fil
gen move_l {ext_addr, $1}, {absolute4, ".filn"}
pat gto
with STACK
uses AA_REG = {ext_addr, $1}
gen move_l {offsetted4, %a, 8}, lb
move_l {offsetted4, %a, 4}, sp
#ifdef m68020
jmp {OFF_off4, %a, 0, 0}
#else m68020
move_l {indirect4, %a}, %a
jmp {indirect4, %a}
#endif m68020
pat lim yields {absolute4, ".trpim"}
pat lin
gen move {const, $1}, {absolute4, ".lino"}
pat lni
gen add_l {const, 1}, {absolute4, ".lino"}
pat lor $1==0 yields lb
pat lor $1==1
with STACK
uses AA_REG = sp yields %a
pat lor $1==2 yields {absolute4, ".reghp"}
pat lpb leaving adp 8
pat mon
with STACK
gen jsr {absolute4, ".mon"}
pat nop
with STACK
gen jsr {absolute4, ".nop"}
pat rck
#ifdef m68020
with ext_addr D_REG
gen cmp2_l {absolute4, %1.bd}, %2
bcc {slabel, 1f}
pea {absolute4, 1} /* push constant 1 == ERANGE */
jsr {absolute4, ".trp"}
1: yields %2
with address-ext_addr D_REG
gen cmp2_l %1, %2
bcc {slabel, 1f}
pea {absolute4, 1} /* push constant 1 == ERANGE */
jsr {absolute4, ".trp"}
1: yields %2
with A_REG D_REG
gen cmp2_l {indirect4, %1}, %2
bcc {slabel, 1f}
pea {absolute4, 1} /* push constant 1 == ERANGE */
jsr {absolute4, ".trp"}
1: yields %2
#else m68020
with STACK
gen jsr {absolute4, ".rck"}
#endif m68020
pat rtt leaving ret 0
pat sig
with any4
uses AA_REG
gen move {absolute4, ".trppc"}, %a
move %1, {absolute4, ".trppc"}
yields %a
pat sim
with any4
gen move_l %1, {absolute4, ".trpim"}
pat str $1==0
with any4
#ifdef m68020
kills LOCAL, ILOCAL, all_regind %reg==lb, local_addr
#else m68020
kills LOCAL, all_regind %reg==lb, local_addr
#endif m68020
gen move %1, lb
pat str $1==1
with any4 STACK
gen move %1, sp
pat str $1==2
with STACK
gen jsr {absolute4, ".strhp"}
pat trp
with STACK
gen jsr {absolute4, ".trp"}
/************************************************
* rules for long EM-patterns *
************************************************/
proc lolxxxstl example lol adi stl
with conreg4
kills all_indir, LOCAL %bd==$1
gen xxx* %1, {LOCAL, $1}
proc loexxxste example loe adi ste
with conreg4
kills posextern
gen xxx* %1, {absolute4, $1}
proc lilxxxsil example lil adi sil
with conreg4
#ifdef m68020
kills allexceptcon
gen xxx* %1, {ILOCAL, $1}
#else m68020
kills allexceptcon
uses AA_REG = {LOCAL, $1}
gen xxx* %1, {indirect4, %a}
#endif m68020
proc lolcxxxstl example lol loc adi stl
kills all_indir, LOCAL %bd==$1
gen xxx* {const, $2}, {LOCAL, $1}
proc loecxxxste example loe loc adi ste
kills posextern
gen xxx* {const, $2}, {absolute4, $1}
proc lilcxxxsil example lil loc adi sil
#ifdef m68020
kills allexceptcon
gen xxx* {const, $2}, {ILOCAL, $1}
#else m68020
kills allexceptcon
uses AA_REG = {LOCAL, $1}
gen xxx* {const, $2}, {indirect4, %a}
#endif m68020
proc lolrxxxstl example lol lol adi stl
kills all_indir, LOCAL %bd==$1
gen xxx* {LOCAL, $2}, {LOCAL, $1}
proc loerxxxste example loe lol adi ste
kills posextern
gen xxx* {LOCAL, $2}, {absolute4, $1}
proc lilrxxxsil example lil lol adi sil
#ifdef m68020
kills allexceptcon
gen xxx* {LOCAL, $2}, {ILOCAL, $1}
#else m68020
kills allexceptcon
uses AA_REG = {LOCAL, $1}
gen xxx* {LOCAL, $2}, {indirect4, %a}
#endif m68020
pat lol adi stl $1==$3 && $2==4 call lolxxxstl("add.l")
pat loe adi ste $1==$3 && $2==4 call loexxxste("add.l")
pat lil adi sil $1==$3 && $2==4 call lilxxxsil("add.l")
pat lol loc adi stl $1==$4 && $3==4 call lolcxxxstl("add.l")
pat loe loc adi ste $1==$4 && $3==4 call loecxxxste("add.l")
pat lil loc adi sil $1==$4 && $3==4 call lilcxxxsil("add.l")
pat lol lol adi stl $1==$4 && $3==4 && inreg($2)==reg_any
call lolrxxxstl("add.l")
pat loe lol adi ste $1==$4 && $3==4 && inreg($2)==reg_any
call loerxxxste("add.l")
pat lil lol adi sil $1==$4 && $3==4 && inreg($2)==reg_any
call lilrxxxsil("add.l")
pat lol adu stl $1==$3 && $2==4 call lolxxxstl("add.l")
pat loe adu ste $1==$3 && $2==4 call loexxxste("add.l")
pat lil adu sil $1==$3 && $2==4 call lilxxxsil("add.l")
pat lol loc adu stl $1==$4 && $3==4 call lolcxxxstl("add.l")
pat loe loc adu ste $1==$4 && $3==4 call loecxxxste("add.l")
pat lil loc adu sil $1==$4 && $3==4 call lilcxxxsil("add.l")
pat lol lol adu stl $1==$4 && $3==4 && inreg($2)==reg_any
call lolrxxxstl("add.l")
pat loe lol adu ste $1==$4 && $3==4 && inreg($2)==reg_any
call loerxxxste("add.l")
pat lil lol adu sil $1==$4 && $3==4 && inreg($2)==reg_any
call lilrxxxsil("add.l")
pat lol adp stl $1==$3
kills all_indir, LOCAL %bd==$1
gen add_l {const, $2}, {LOCAL, $1}
pat lil adp sil $1==$3
kills allexceptcon
#ifdef m68020
gen add_l {const, $2}, {ILOCAL, $1}
#else m68020
uses AA_REG = {LOCAL, $1}
gen add_l {const, $2}, {indirect4, %a}
#endif m68020
pat loe adp ste $1==$3
kills posextern
gen add_l {const, $2}, {absolute4, $1}
pat lol lol adp stl $1==$2 && $1==$4
kills all_indir, LOCAL %bd==$1
uses AA_REG = {LOCAL, $1}
gen add_l {const, $3}, {LOCAL, $1}
yields %a
pat lil lil adp sti $1==$2 && $1==$4
kills allexceptcon
#ifdef m68020
uses AA_REG = {ILOCAL, $1}
gen add_l {const, $3}, {ILOCAL, $1}
#else m68020
uses AA_REG, AA_REG = {LOCAL, $1}
gen move {indirect4, %b}, %a
add_l {const, $3}, {indirect4, %b}
#endif m68020
yields %a
pat loe loe adp ste $1==$2 && $1==$4
kills posextern
uses AA_REG = {absolute4, $1}
gen add_l {const, $3}, {absolute4, $1}
yields %a
pat lol loc sbi stl $1==$4 && $3==4 call lolcxxxstl("sub.l")
pat loe loc sbi ste $1==$4 && $3==4 call loecxxxste("sub.l")
pat lil loc sbi sil $1==$4 && $3==4 call lilcxxxsil("sub.l")
pat lol lol sbi stl $1==$4 && $3==4 && inreg($2)==reg_any
call lolrxxxstl("sub.l")
pat loe lol sbi ste $1==$4 && $3==4 && inreg($2)==reg_any
call loerxxxste("sub.l")
pat lil lol sbi sil $1==$4 && $3==4 && inreg($2)==reg_any
call lilrxxxsil("sub.l")
pat lol loc sbu stl $1==$4 && $3==4 call lolcxxxstl("sub.l")
pat loe loc sbu ste $1==$4 && $3==4 call loecxxxste("sub.l")
pat lil loc sbu sil $1==$4 && $3==4 call lilcxxxsil("sub.l")
pat lol lol sbu stl $1==$4 && $3==4 && inreg($2)==reg_any
call lolrxxxstl("sub.l")
pat loe lol sbu ste $1==$4 && $3==4 && inreg($2)==reg_any
call loerxxxste("sub.l")
pat lil lol sbu sil $1==$4 && $3==4 && inreg($2)==reg_any
call lilrxxxsil("sub.l")
pat lol and stl $1==$3 && $2==4 call lolxxxstl("and.l")
pat loe and ste $1==$3 && $2==4 call loexxxste("and.l")
pat lil and sil $1==$3 && $2==4 call lilxxxsil("and.l")
pat lol loc and stl $1==$4 && $3==4 call lolcxxxstl("and.l")
pat loe loc and ste $1==$4 && $3==4 call loecxxxste("and.l")
pat lil loc and sil $1==$4 && $3==4 call lilcxxxsil("and.l")
pat lol lol and stl $1==$4 && $3==4 && inreg($2)==reg_any
call lolrxxxstl("and.l")
pat loe lol and ste $1==$4 && $3==4 && inreg($2)==reg_any
call loerxxxste("and.l")
pat lil lol and sil $1==$4 && $3==4 && inreg($2)==reg_any
call lilrxxxsil("and.l")
pat lol ior stl $1==$3 && $2==4 call lolxxxstl("or.l")
pat loe ior ste $1==$3 && $2==4 call loexxxste("or.l")
pat lil ior sil $1==$3 && $2==4 call lilxxxsil("or.l")
pat lol loc ior stl $1==$4 && $3==4 call lolcxxxstl("or.l")
pat loe loc ior ste $1==$4 && $3==4 call loecxxxste("or.l")
pat lil loc ior sil $1==$4 && $3==4 call lilcxxxsil("or.l")
pat lol lol ior stl $1==$4 && $3==4 && inreg($2)==reg_any
call lolrxxxstl("or.l")
pat loe lol ior ste $1==$4 && $3==4 && inreg($2)==reg_any
call loerxxxste("or.l")
pat lil lol ior sil $1==$4 && $3==4 && inreg($2)==reg_any
call lilrxxxsil("or.l")
pat lol xor stl $1==$3 && $2==4 call lolxxxstl("eor.l")
pat loe xor ste $1==$3 && $2==4 call loexxxste("eor.l")
pat lil xor sil $1==$3 && $2==4 call lilxxxsil("eor.l")
pat lol loc xor stl $1==$4 && $3==4 call lolcxxxstl("eor.l")
pat loe loc xor ste $1==$4 && $3==4 call loecxxxste("eor.l")
pat lil loc xor sil $1==$4 && $3==4 call lilcxxxsil("eor.l")
pat lol lol xor stl $1==$4 && $3==4 && inreg($2)==reg_any
call lolrxxxstl("eor.l")
pat loe lol xor ste $1==$4 && $3==4 && inreg($2)==reg_any
call loerxxxste("eor.l")
pat lil lol xor sil $1==$4 && $3==4 && inreg($2)==reg_any
call lilrxxxsil("eor.l")
proc llol1shstl example lol loc sli stl /* only left */
kills all_indir, LOCAL %bd==$1
gen shw* {offsetted2, lb, $1+2}
roxl {offsetted2, lb, $1}
proc lloe1shste example loe loc sli ste /* only left */
kills posextern
gen shw* {absolute2, $1+2}
roxl {absolute2, $1}
proc llil1shsil example lil loc sli sil /* only left */
#ifdef m68020
kills allexceptcon
gen shw* {OFF_off2, lb, $1, 2}
roxl {OFF_off2, lb, $1, 0}
#else m68020
kills allexceptcon
uses AA_REG = {LOCAL, $1}
gen shw* {offsetted2, %a, 2}
roxl {indirect2, %a}
#endif m68020
proc rlol1shstl example lol loc sri stl /* only right */
kills all_indir, LOCAL %bd==$1
gen shw* {offsetted2, lb, $1}
roxr {offsetted2, lb, $1+2}
proc rloe1shste example loe loc sri ste /* only right */
kills posextern
gen shw* {absolute2, $1}
roxr {absolute2, $1+2}
proc rlil1shsil example lil loc sri sil /* only right */
#ifdef m68020
kills allexceptcon
gen shw* {OFF_off2, lb, $1, 0}
roxr {OFF_off2, lb, $1, 2}
#else m68020
kills allexceptcon
uses AA_REG = {LOCAL, $1}
gen shw* {indirect2, %a}
roxr {offsetted2, %a, 2}
#endif m68020
pat lol loc sli stl $1==$4 && $2==1 && $3==4 call llol1shstl("asl #1,")
pat loe loc sli ste $1==$4 && $2==1 && $3==4 call lloe1shste("asl #1,")
pat lil loc sli sil $1==$4 && $2==1 && $3==4 call llil1shsil("asl #1,")
pat lol loc sri stl $1==$4 && $2==1 && $3==4 call rlol1shstl("asr #1,")
pat loe loc sri ste $1==$4 && $2==1 && $3==4 call rloe1shste("asr #1,")
pat lil loc sri sil $1==$4 && $2==1 && $3==4 call rlil1shsil("asr #1,")
pat lol loc slu stl $1==$4 && $2==1 && $3==4 call llol1shstl("asl #1,")
pat loe loc slu ste $1==$4 && $2==1 && $3==4 call lloe1shste("asl #1,")
pat lil loc slu sil $1==$4 && $2==1 && $3==4 call llil1shsil("asl #1,")
pat lol loc sru stl $1==$4 && $2==1 && $3==4 call rlol1shstl("lsr #1,")
pat loe loc sru ste $1==$4 && $2==1 && $3==4 call rloe1shste("lsr #1,")
pat lil loc sru sil $1==$4 && $2==1 && $3==4 call rlil1shsil("lsr #1,")
proc locsh example loc sli
with DD_REG
gen sh* {shconst, $1}, %1
yields %1
pat loc sli small($1) && $2==4 call locsh("asl.l")
pat loc sri small($1) && $2==4 call locsh("asr.l")
pat loc slu small($1) && $2==4 call locsh("asl.l")
pat loc sru small($1) && $2==4 call locsh("lsr.l")
pat loc rol small($1) && $2==4 call locsh("rol.l")
pat loc ror small($1) && $2==4 call locsh("ror.l")
proc lolbitstl example lol ngi stl
kills all_indir, LOCAL %bd==$1
gen bit* {LOCAL, $1}
proc loebitste example loe ngi ste
kills posextern
gen bit* {absolute4, $1}
proc lilbitsil example lil ngi sil
#ifdef m68020
kills allexceptcon
gen bit* {ILOCAL, $1}
#else m68020
kills allexceptcon
uses AA_REG = {LOCAL, $1}
gen bit* {indirect4, %a}
#endif m68020
pat lol ngi stl $1==$3 && $2==4 call lolbitstl("neg.l")
pat loe ngi ste $1==$3 && $2==4 call loebitste("neg.l")
pat lil ngi sil $1==$3 && $2==4 call lilbitsil("neg.l")
pat lol com stl $1==$3 && $2==4 call lolbitstl("not.l")
pat loe com ste $1==$3 && $2==4 call loebitste("not.l")
pat lil com sil $1==$3 && $2==4 call lilbitsil("not.l")
pat lil inc sil $1==$3
#ifdef m68020
kills allexceptcon
gen add_l {const, 1}, {ILOCAL, $1}
#else m68020
kills allexceptcon
uses AA_REG = {LOCAL, $1}
gen add_l {const, 1}, {indirect4, %a}
#endif m68020
pat lil dec sil $1==$3
#ifdef m68020
kills allexceptcon
gen sub_l {const, 1}, {ILOCAL, $1}
#else m68020
kills allexceptcon
uses AA_REG = {LOCAL, $1}
gen sub_l {const, 1}, {indirect4, %a}
#endif m68020
proc txxand
with test_set DD_REG
gen test %1
bxx* {slabel, 1f}
clr_l %2
1: yields %2
proc txxior
with test_set DD_REG
gen test %1
bxx* {slabel, 1f}
bset {const, 0}, %2
1: yields %2
pat tlt and $2==4 call txxand("blt")
pat tle and $2==4 call txxand("ble")
pat teq and $2==4 call txxand("beq")
pat tne and $2==4 call txxand("bne")
pat tge and $2==4 call txxand("bge")
pat tgt and $2==4 call txxand("bgt")
pat tlt ior $2==4 call txxior("bge")
pat tle ior $2==4 call txxior("bgt")
pat teq ior $2==4 call txxior("bne")
pat tne ior $2==4 call txxior("beq")
pat tge ior $2==4 call txxior("blt")
pat tgt ior $2==4 call txxior("ble")
proc cmxtxxand
with any4 genreg DD_REG
gen cmp_l %1, %2
bxx[1] {slabel, 1f}
clr_l %3
1: yields %3
with genreg any4-genreg DD_REG
gen cmp_l %2, %1
bxx[2] {slabel, 1f}
clr_l %3
1: yields %3
with exact immediate4 imm_cmp4 DD_REG
gen cmp_l %1, %2
bxx[1] {slabel, 1f}
clr_l %3
1: yields %3
with exact imm_cmp4 immediate4 DD_REG
gen cmp_l %2, %1
bxx[2] {slabel, 1f}
clr_l %3
1: yields %3
proc cmxtxxior
with any4 genreg DD_REG
gen cmp_l %1, %2
bxx[1] {slabel, 1f}
move {const, 1}, %3
1: yields %3
with genreg any4-genreg DD_REG
gen cmp_l %2, %1
bxx[2] {slabel, 1f}
move {const, 1}, %3
1: yields %3
with exact immediate4 imm_cmp4 DD_REG
gen cmp_l %1, %2
bxx[1] {slabel, 1f}
move {const, 1}, %3
1: yields %3
with exact imm_cmp4 immediate4 DD_REG
gen cmp_l %2, %1
bxx[2] {slabel, 1f}
move {const, 1}, %3
1: yields %3
proc cmxtxx
with any4 genreg
uses DD_REG = {const, 1}
gen cmp_l %1, %2
bxx[1] {slabel, 1f}
clr_l %a
1: yields %a
with genreg any4-genreg
uses DD_REG = {const, 1}
gen cmp_l %2, %1
bxx[2] {slabel, 1f}
clr_l %a
1: yields %a
with exact immediate4 imm_cmp4
uses DD_REG = {const, 1}
gen cmp_l %1, %2
bxx[1] {slabel, 1f}
clr_l %a
1: yields %a
with exact imm_cmp4 immediate4
uses DD_REG = {const, 1}
gen cmp_l %2, %1
bxx[2] {slabel, 1f}
clr_l %a
1: yields %a
with genreg STACK
uses DD_REG = {const, 1}
gen cmp_l {post_inc4, sp}, %1
bxx[2] {slabel, 1f}
clr_l %a
1: yields %a
with exact immediate4 STACK
uses DD_REG = {const, 1}
gen cmp_l %1, {post_inc4, sp}
bxx[1] {slabel, 1f}
clr_l %a
1: yields %a
pat cmi tlt and $1==4 && $3==4 call cmxtxxand("blt","bgt")
pat cmi tle and $1==4 && $3==4 call cmxtxxand("ble","bge")
pat cmi teq and $1==4 && $3==4 call cmxtxxand("beq","beq")
pat cmi tne and $1==4 && $3==4 call cmxtxxand("bne","bne")
pat cmi tge and $1==4 && $3==4 call cmxtxxand("bge","ble")
pat cmi tgt and $1==4 && $3==4 call cmxtxxand("bgt","blt")
pat cmu tlt and $1==4 && $3==4 call cmxtxxand("bcs","bhi")
pat cmu tle and $1==4 && $3==4 call cmxtxxand("bls","bcc")
pat cmu teq and $1==4 && $3==4 call cmxtxxand("beq","beq")
pat cmu tne and $1==4 && $3==4 call cmxtxxand("bne","bne")
pat cmu tge and $1==4 && $3==4 call cmxtxxand("bcc","bls")
pat cmu tgt and $1==4 && $3==4 call cmxtxxand("bhi","bcs")
pat cmi tlt ior $1==4 && $3==4 call cmxtxxior("bge","ble")
pat cmi tle ior $1==4 && $3==4 call cmxtxxior("bgt","blt")
pat cmi teq ior $1==4 && $3==4 call cmxtxxior("bne","bne")
pat cmi tne ior $1==4 && $3==4 call cmxtxxior("beq","beq")
pat cmi tge ior $1==4 && $3==4 call cmxtxxior("blt","bgt")
pat cmi tgt ior $1==4 && $3==4 call cmxtxxior("ble","bge")
pat cmu tlt ior $1==4 && $3==4 call cmxtxxior("bcc","bls")
pat cmu tle ior $1==4 && $3==4 call cmxtxxior("bhi","bcs")
pat cmu teq ior $1==4 && $3==4 call cmxtxxior("bne","bne")
pat cmu tne ior $1==4 && $3==4 call cmxtxxior("beq","beq")
pat cmu tge ior $1==4 && $3==4 call cmxtxxior("bcs","bhi")
pat cmu tgt ior $1==4 && $3==4 call cmxtxxior("bls","bcc")
pat cmi tlt $1==4 call cmxtxx("blt","bgt")
pat cmi tle $1==4 call cmxtxx("ble","bge")
pat cmi teq $1==4 call cmxtxx("beq","beq")
pat cmi tne $1==4 call cmxtxx("bne","bne")
pat cmi tge $1==4 call cmxtxx("bge","blt")
pat cmi tgt $1==4 call cmxtxx("bgt","blt")
pat cmu tlt $1==4 call cmxtxx("bcs","bhi")
pat cmu tle $1==4 call cmxtxx("bls","bcc")
pat cmu teq $1==4 call cmxtxx("beq","beq")
pat cmu tne $1==4 call cmxtxx("bne","bne")
pat cmu tge $1==4 call cmxtxx("bcc","bls")
pat cmu tgt $1==4 call cmxtxx("bhi","bcs")
proc cmxzxx example cmu zlt
with any4 genreg STACK
gen cmp_l %1, %2
bxx[1] {llabel, $2}
with genreg any4-genreg STACK
gen cmp_l %2, %1
bxx[2] {llabel, $2}
with exact immediate4 imm_cmp4
kills ALL
gen cmp_l %1, %2
bxx[1] {llabel, $2}
with exact imm_cmp4 immediate4
kills ALL
gen cmp_l %2, %1
bxx[2] {llabel, $2}
with genreg STACK
gen cmp_l {post_inc4, sp}, %1
bxx[2] {llabel, $2}
with exact immediate4 STACK
gen cmp_l %1, {post_inc4, sp}
bxx[1] {llabel, $2}
pat cmu zlt $1==4 call cmxzxx("bcs","bhi")
pat cmu zle $1==4 call cmxzxx("bls","bcc")
pat cmu zeq $1==4 call cmxzxx("beq","beq")
pat cmu zne $1==4 call cmxzxx("bne","bne")
pat cmu zge $1==4 call cmxzxx("bcc","bls")
pat cmu zgt $1==4 call cmxzxx("bhi","bcs")
proc bxx1_in example loc loc cii loc bne
with imm_cmp1 STACK
gen cmp_b {const, lowb($4)}, %1
bxx* {llabel, $5}
proc bxx2_in example loc loc cii loc bne
with imm_cmp2 STACK
gen cmp_w {const, loww($4)}, %1
bxx* {llabel, $5}
pat loc loc cii loc blt $1==1 && $2==4 && in_1($4) call bxx1_in("blt")
pat loc loc cii loc ble $1==1 && $2==4 && in_1($4) call bxx1_in("ble")
pat loc loc cii loc beq $1==1 && $2==4 && in_1($4) call bxx1_in("beq")
pat loc loc cii loc bne $1==1 && $2==4 && in_1($4) call bxx1_in("bne")
pat loc loc cii loc bge $1==1 && $2==4 && in_1($4) call bxx1_in("bge")
pat loc loc cii loc bgt $1==1 && $2==4 && in_1($4) call bxx1_in("bgt")
pat loc loc cii loc blt $1==2 && $2==4 && in_2($4) call bxx2_in("blt")
pat loc loc cii loc ble $1==2 && $2==4 && in_2($4) call bxx2_in("ble")
pat loc loc cii loc beq $1==2 && $2==4 && in_2($4) call bxx2_in("beq")
pat loc loc cii loc bne $1==2 && $2==4 && in_2($4) call bxx2_in("bne")
pat loc loc cii loc bge $1==2 && $2==4 && in_2($4) call bxx2_in("bge")
pat loc loc cii loc bgt $1==2 && $2==4 && in_2($4) call bxx2_in("bgt")
pat loc loc cii $1==1 && $2==2
with DD_REG
gen ext_w %1 yields %1
pat loc loc cii $1==2 && $2==4
with DD_REG
gen ext_l %1 yields %1
pat loc loc cii $1==1 && $2==4
with DD_REG
#ifdef m68020
gen extb_l %1 yields %1
#else m68020
gen ext_w %1
ext_l %1 yields %1
#endif m68020
pat loc loc ciu $1==$2 /* skip this */
pat loc loc cui $1==$2 /* skip this */
/* The following rules should be handled by the peephole optimizer, I think */
pat loc dvi $1==2 && $2==4 leaving loc 1 sri 4
pat loc dvi $1==4 && $2==4 leaving loc 2 sri 4
pat loc dvi $1==8 && $2==4 leaving loc 3 sri 4
pat loc dvi $1==16 && $2==4 leaving loc 4 sri 4
pat loc dvi $1==32 && $2==4 leaving loc 5 sri 4
pat loc dvi $1==64 && $2==4 leaving loc 6 sri 4
pat loc dvi $1==128 && $2==4 leaving loc 7 sri 4
pat loc dvi $1==256 && $2==4 leaving loc 8 sri 4
pat loc dvu $1==2 && $2==4 leaving loc 1 sru 4
pat loc dvu $1==4 && $2==4 leaving loc 2 sru 4
pat loc dvu $1==8 && $2==4 leaving loc 3 sru 4
pat loc dvu $1==16 && $2==4 leaving loc 4 sru 4
pat loc dvu $1==32 && $2==4 leaving loc 5 sru 4
pat loc dvu $1==64 && $2==4 leaving loc 6 sru 4
pat loc dvu $1==128 && $2==4 leaving loc 7 sru 4
pat loc dvu $1==256 && $2==4 leaving loc 8 sru 4