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view test/tests/opcodes6809.pl @ 408:0af33282b518
Fix cycle counting for relative branches.
The original creator of the cycle counting code appears to have mangled two
different approaches to counting the cycles for relative branches into the
final product which led to counting too many cycles for the branch
instructions. The comments in the cycle table were correct but the code was
doing some incorrect things.
Also add the missing LBRN entry to the cycle table. The one labelled LBRN
was not, in fact, LBRN, but one of the actual useful branch instructions.
| author | William Astle <lost@l-w.ca> |
|---|---|
| date | Thu, 03 Mar 2016 21:38:21 -0700 |
| parents | 5e7f8e1ac99f |
| children | 3cd8aa013b88 |
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#!/usr/bin/perl # # these tests determine if the opcodes for each instruction, in each # addressing mode, are correct. # # The following list is used to construct the tests. The key is the # mneumonic and the value is a list of address mode characters as follows # # R: register/inherent # I: immediate # E: extended # D: direct # i: indexed # r: register to register (TFR, etc.) # p: psh/pul # each letter is followed by an = and the 2 or 4 digit opcode in hex # each entry is separated by a comma $lwasm = './lwasm/lwasm'; %insnlist = ( 'neg' => 'D=00,E=70,i=60', 'com' => 'D=03,E=73,i=63', 'lsr' => 'D=04,E=74,i=64', 'ror' => 'D=06,E=76,i=66', 'asr' => 'D=07,E=77,i=67', 'lsl' => 'D=08,E=78,i=68', 'rol' => 'D=09,E=79,i=69', 'dec' => 'D=0A,E=7A,i=6A', 'inc' => 'D=0C,E=7C,i=6C', 'tst' => 'D=0D,E=7D,i=6D', 'jmp' => 'D=0E,E=7E,i=6E', 'clr' => 'D=0F,E=7F,i=6F', 'nop' => 'R=12', 'sync' => 'R=13', 'lbra' => 'b=16', 'lbsr' => 'b=17', 'daa' => 'R=19', 'orcc' => 'I=1A', 'andcc' => 'I=1C', 'sex' => 'R=1D', 'exg' => 'r=1E', 'tfr' => 'r=1F', 'bra' => 'b=20', 'brn' => 'b=21', 'lbrn' => 'b=1021', 'bhi' => 'b=22', 'lbhi' => 'b=1022', 'bls' => 'b=23', 'lbls' => 'b=1023', 'bcc' => 'b=24', 'lbcc' => 'b=1024', 'bhs' => 'b=24', 'lbhs' => 'b=1024', 'bcs' => 'b=25', 'lbcs' => 'b=1025', 'blo' => 'b=25', 'lblo' => 'b=1025', 'bne' => 'b=26', 'lbne' => 'b=1026', 'beq' => 'b=27', 'lbeq' => 'b=1027', 'bvc' => 'b=28', 'lbvc' => 'b=1028', 'bvs' => 'b=29', 'lbvs' => 'b=1029', 'bpl' => 'b=2A', 'lbpl' => 'b=102A', 'bmi' => 'b=2B', 'lbmi' => 'b=102B', 'bge' => 'b=2C', 'lbge' => 'b=102C', 'blt' => 'b=2D', 'lblt' => 'b=102D', 'bgt' => 'b=2E', 'lbgt' => 'b=102E', 'ble' => 'b=2F', 'lble' => 'b=102F', 'leax' => 'i=30', 'leay' => 'i=31', 'leas' => 'i=32', 'leau' => 'i=33', 'pshs' => 'p=34', 'puls' => 'p=35', 'pshu' => 'p=36', 'pulu' => 'p=37', 'rts' => 'R=39', 'abx' => 'R=3A', 'rti' => 'R=3B', 'cwai' => 'I=3C', 'mul' => 'R=3D', 'swi' => 'R=3F', 'swi2' => 'R=103F', 'swi3' => 'R=113F', 'nega' => 'R=40', 'coma' => 'R=43', 'lsra' => 'R=44', 'rora' => 'R=46', 'asra' => 'R=47', 'lsla' => 'R=48', 'rola' => 'R=49', 'deca' => 'R=4A', 'inca' => 'R=4C', 'tsta' => 'R=4D', 'clra' => 'R=4F', 'negb' => 'R=50', 'comb' => 'R=53', 'lsrb' => 'R=54', 'rorb' => 'R=56', 'asrb' => 'R=57', 'lslb' => 'R=58', 'rolb' => 'R=59', 'decb' => 'R=5A', 'incb' => 'R=5C', 'tstb' => 'R=5D', 'clrb' => 'R=5F', 'suba' => 'I=80,D=90,i=A0,E=B0', 'cmpa' => 'I=81,D=91,i=A1,E=B1', 'sbca' => 'I=82,D=92,i=A2,E=B2', 'subd' => 'I=83,D=93,i=A3,E=B3', 'cmpd' => 'I=1083,D=1093,i=10A3,E=10B3', 'cmpu' => 'I=1183,D=1193,i=11A3,E=11B3', 'anda' => 'I=84,D=94,i=A4,E=B4', 'bita' => 'I=85,D=95,i=A5,E=B5', 'lda' => 'I=86,D=96,i=A6,E=B6', 'sta' => 'D=97,i=A7,E=B7', 'eora' => 'I=88,D=98,i=A8,E=B8', 'adca' => 'I=89,D=99,i=A9,E=B9', 'ora' => 'I=8A,D=9A,i=AA,E=BA', 'adda' => 'I=8B,D=9B,i=AB,E=BB', 'cmpx' => 'I=8C,D=9C,i=AC,E=BC', 'cmpy' => 'I=108C,D=109C,i=10AC,E=10BC', 'cmps' => 'I=118C,D=119C,i=11AC,E=11BC', 'bsr' => 'b=8D', 'jsr' => 'D=9D,i=AD,E=BD', 'ldx' => 'I=8E,D=9E,i=AE,E=BE', 'ldy' => 'I=108E,D=109E,i=10AE,E=10BE', 'stx' => 'D=9F,i=AF,E=BF', 'sty' => 'D=109F,i=10AF,E=10BF', 'subb' => 'I=C0,D=D0,i=E0,E=F0', 'cmpb' => 'I=C1,D=D1,i=E1,E=F1', 'sbcb' => 'I=C2,D=D2,i=E2,E=F2', 'addd' => 'I=C3,D=D3,i=E3,E=F3', 'andb' => 'I=C4,D=D4,i=E4,E=F4', 'bitb' => 'I=C5,D=D5,i=E5,E=F5', 'ldb' => 'I=C6,D=D6,i=E6,E=F6', 'stb' => 'D=D7,i=E7,E=F7', 'eorb' => 'I=C8,D=D8,i=E8,E=F8', 'adcb' => 'I=C9,D=D9,i=E9,E=F9', 'orb' => 'I=CA,D=DA,i=EA,E=FA', 'addb' => 'I=CB,D=DB,i=EB,E=FB', 'ldd' => 'I=CC,D=DC,i=EC,E=FC', 'std' => 'D=DD,i=ED,E=FD', 'ldu' => 'I=CE,D=DE,i=EE,E=FE', 'lds' => 'I=10CE,D=10DE,i=10EE,E=10FE', 'stu' => 'D=DF,i=EF,E=FF', 'sts' => 'D=10DF,i=10EF,E=10FF' ); foreach $i (keys %insnlist) { # print "$i ... $insnlist{$i}\n"; @modes = split(/,/, $insnlist{$i}); foreach $j (@modes) { ($mc, $oc) = split(/=/, $j); $operand = ''; if ($mc eq 'D') { $operand = '<0'; } elsif ($mc eq 'E') { $operand = '>0'; } elsif ($mc eq 'I') { $operand = '#0'; } elsif ($mc eq 'i') { $operand = ',x'; } elsif ($mc eq 'r') { $operand = 'a,a'; } elsif ($mc eq 'p') { $operand = 'cc'; } elsif ($mc eq 'b') { $operand = '*'; } $asmcode = "\t$i $operand"; # now feed the asm code to the assembler and fetch the result $tf = ".asmtmp.$$.$i.$mc"; open H, ">$tf.asm"; print H "$asmcode\n"; close H; $r = `$lwasm --raw --list -o $tf $tf.asm`; open H, "<$tf"; binmode H; $buffer = ''; $r = read(H, $buffer, 10); close H; unlink $tf; unlink "$tf.asm"; if ($r == 0) { $st = 'FAIL (no result)'; } else { @bytes = split(//,$buffer); $rc = sprintf('%02X', ord($bytes[0])); if (length($oc) > 2) { $rc .= sprintf('%02X', ord($bytes[1])); } if ($rc ne $oc) { $st = "FAIL ($rc ≠ $oc, $asmcode)"; } else { $st = 'PASS'; } } print "$i" . "_$mc $st\n"; } }