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| author | Kartik K. Agaram <vc@akkartik.com> | 2017-10-12 09:40:41 -0700 |
|---|---|---|
| committer | Kartik K. Agaram <vc@akkartik.com> | 2017-10-12 09:40:41 -0700 |
| commit | d331cded4ddfecef7f72a4ff1a6f1c7040515e3b (patch) | |
| tree | faee29ba554fab7e790e999de69850e5e6a53070 | |
| parent | a893d3b6cefecc15a998d1efabbca54abab337b8 (diff) | |
| download | mu-d331cded4ddfecef7f72a4ff1a6f1c7040515e3b.tar.gz | |
4027
Hacky one-time html rendering for a single layer in subx.
| -rw-r--r-- | html/subx/010core.cc.html | 249 |
1 files changed, 249 insertions, 0 deletions
diff --git a/html/subx/010core.cc.html b/html/subx/010core.cc.html new file mode 100644 index 00000000..ce74e6e8 --- /dev/null +++ b/html/subx/010core.cc.html @@ -0,0 +1,249 @@ +<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd"> +<html> +<head> +<meta http-equiv="content-type" content="text/html; charset=UTF-8"> +<title>Mu - subx/010core.cc</title> +<meta name="Generator" content="Vim/7.4"> +<meta name="plugin-version" content="vim7.4_v2"> +<meta name="syntax" content="cpp"> +<meta name="settings" content="number_lines,use_css,pre_wrap,no_foldcolumn,expand_tabs,line_ids,prevent_copy="> +<meta name="colorscheme" content="minimal"> +<style type="text/css"> +<!-- +pre { white-space: pre-wrap; font-family: monospace; color: #aaaaaa; background-color: #080808; } +body { font-size: 12pt; font-family: monospace; color: #aaaaaa; background-color: #080808; } +a { color:#eeeeee; text-decoration: none; } +a:hover { text-decoration: underline; } +* { font-size: 12pt; font-size: 1em; } +.Constant { color: #00a0a0; } +.Conceal { color: #4e4e4e; } +.cSpecial { color: #008000; } +.SalientComment { color: #00ffff; } +.Delimiter { color: #800080; } +.LineNr { color: #444444; } +.Identifier { color: #c0a020; } +.Normal { color: #aaaaaa; background-color: #080808; padding-bottom: 1px; } +.PreProc { color: #800080; } +.Comment { color: #9090ff; } +.Comment a { color:#0000ee; text-decoration:underline; } +.traceContains { color: #008000; } +--> +</style> + +<script type='text/javascript'> +<!-- + +/* function to open any folds containing a jumped-to line before jumping to it */ +function JumpToLine() +{ + var lineNum; + lineNum = window.location.hash; + lineNum = lineNum.substr(1); /* strip off '#' */ + + if (lineNum.indexOf('L') == -1) { + lineNum = 'L'+lineNum; + } + lineElem = document.getElementById(lineNum); + /* Always jump to new location even if the line was hidden inside a fold, or + * we corrected the raw number to a line ID. + */ + if (lineElem) { + lineElem.scrollIntoView(true); + } + return true; +} +if ('onhashchange' in window) { + window.onhashchange = JumpToLine; +} + +--> +</script> +</head> +<body onload='JumpToLine();'> +<pre id='vimCodeElement'> +<span id="L1" class="LineNr"> 1 </span><span class="SalientComment">//:: simulated x86 registers</span> +<span id="L2" class="LineNr"> 2 </span> +<span id="L3" class="LineNr"> 3 </span><span class="Delimiter">:(before "End Types")</span> +<span id="L4" class="LineNr"> 4 </span><span class="Normal">enum</span> <span class="Delimiter">{</span> +<span id="L5" class="LineNr"> 5 </span> EAX<span class="Delimiter">,</span> +<span id="L6" class="LineNr"> 6 </span> ECX<span class="Delimiter">,</span> +<span id="L7" class="LineNr"> 7 </span> EDX<span class="Delimiter">,</span> +<span id="L8" class="LineNr"> 8 </span> EBX<span class="Delimiter">,</span> +<span id="L9" class="LineNr"> 9 </span> ESP<span class="Delimiter">,</span> +<span id="L10" class="LineNr"> 10 </span> EBP<span class="Delimiter">,</span> +<span id="L11" class="LineNr"> 11 </span> ESI<span class="Delimiter">,</span> +<span id="L12" class="LineNr"> 12 </span> EDI<span class="Delimiter">,</span> +<span id="L13" class="LineNr"> 13 </span> NUM_INT_REGISTERS<span class="Delimiter">,</span> +<span id="L14" class="LineNr"> 14 </span><span class="Delimiter">};</span> +<span id="L15" class="LineNr"> 15 </span><span class="Normal">union</span> reg <span class="Delimiter">{</span> +<span id="L16" class="LineNr"> 16 </span> <span class="Normal">int32_t</span> i<span class="Delimiter">;</span> +<span id="L17" class="LineNr"> 17 </span> <span class="Normal">uint32_t</span> u<span class="Delimiter">;</span> +<span id="L18" class="LineNr"> 18 </span><span class="Delimiter">};</span> +<span id="L19" class="LineNr"> 19 </span><span class="Delimiter">:(before "End Globals")</span> +<span id="L20" class="LineNr"> 20 </span>reg R[NUM_INT_REGISTERS] = <span class="Delimiter">{</span> <span class="Delimiter">{</span><span class="Constant">0</span><span class="Delimiter">}</span> <span class="Delimiter">};</span> +<span id="L21" class="LineNr"> 21 </span><span class="Normal">uint32_t</span> EIP = <span class="Constant">0</span><span class="Delimiter">;</span> +<span id="L22" class="LineNr"> 22 </span><span class="Delimiter">:(before "End Reset")</span> +<span id="L23" class="LineNr"> 23 </span>bzero<span class="Delimiter">(</span>R<span class="Delimiter">,</span> <span class="Normal">sizeof</span><span class="Delimiter">(</span>R<span class="Delimiter">));</span> +<span id="L24" class="LineNr"> 24 </span>EIP = <span class="Constant">0</span><span class="Delimiter">;</span> +<span id="L25" class="LineNr"> 25 </span> +<span id="L26" class="LineNr"> 26 </span><span class="SalientComment">//:: simulated flag registers; just a subset that we care about</span> +<span id="L27" class="LineNr"> 27 </span> +<span id="L28" class="LineNr"> 28 </span><span class="Delimiter">:(before "End Globals")</span> +<span id="L29" class="LineNr"> 29 </span><span class="Normal">bool</span> SF = <span class="Constant">false</span><span class="Delimiter">;</span> <span class="Comment">// sign flag</span> +<span id="L30" class="LineNr"> 30 </span><span class="Normal">bool</span> ZF = <span class="Constant">false</span><span class="Delimiter">;</span> <span class="Comment">// zero flag</span> +<span id="L31" class="LineNr"> 31 </span><span class="Normal">bool</span> OF = <span class="Constant">false</span><span class="Delimiter">;</span> <span class="Comment">// overflow flag</span> +<span id="L32" class="LineNr"> 32 </span><span class="Delimiter">:(before "End Reset")</span> +<span id="L33" class="LineNr"> 33 </span>SF = ZF = OF = <span class="Constant">false</span><span class="Delimiter">;</span> +<span id="L34" class="LineNr"> 34 </span> +<span id="L35" class="LineNr"> 35 </span><span class="Comment">//: how the flag registers are updated after each instruction</span> +<span id="L36" class="LineNr"> 36 </span> +<span id="L37" class="LineNr"> 37 </span><span class="Delimiter">:(before "End Includes")</span> +<span id="L38" class="LineNr"> 38 </span><span class="Comment">// beware: no side-effects in args</span> +<span id="L39" class="LineNr"> 39 </span><span class="PreProc">#define BINARY_ARITHMETIC_OP(op</span><span class="Delimiter">,</span><span class="PreProc"> arg1</span><span class="Delimiter">,</span><span class="PreProc"> arg2) </span><span class="Delimiter">{</span><span class="PreProc"> \</span> +<span id="L40" class="LineNr"> 40 </span><span class="PreProc"> </span><span class="Comment">/*</span><span class="Comment"> arg1 and arg2 must be signed </span><span class="Comment">*/</span><span class="PreProc"> \</span> +<span id="L41" class="LineNr"> 41 </span><span class="PreProc"> </span><span class="Normal">int64_t</span><span class="PreProc"> tmp = arg1 op arg2</span><span class="Delimiter">;</span><span class="PreProc"> \</span> +<span id="L42" class="LineNr"> 42 </span><span class="PreProc"> arg1 = arg1 op arg2</span><span class="Delimiter">;</span><span class="PreProc"> \</span> +<span id="L43" class="LineNr"> 43 </span><span class="PreProc"> SF = (arg1 < </span><span class="Constant">0</span><span class="PreProc">)</span><span class="Delimiter">;</span><span class="PreProc"> \</span> +<span id="L44" class="LineNr"> 44 </span><span class="PreProc"> ZF = (arg1 == </span><span class="Constant">0</span><span class="PreProc">)</span><span class="Delimiter">;</span><span class="PreProc"> \</span> +<span id="L45" class="LineNr"> 45 </span><span class="PreProc"> OF = (arg1 != tmp)</span><span class="Delimiter">;</span><span class="PreProc"> \</span> +<span id="L46" class="LineNr"> 46 </span><span class="Delimiter">}</span> +<span id="L47" class="LineNr"> 47 </span> +<span id="L48" class="LineNr"> 48 </span><span class="PreProc">#define BINARY_BITWISE_OP(op</span><span class="Delimiter">,</span><span class="PreProc"> arg1</span><span class="Delimiter">,</span><span class="PreProc"> arg2) </span><span class="Delimiter">{</span><span class="PreProc"> \</span> +<span id="L49" class="LineNr"> 49 </span><span class="PreProc"> </span><span class="Comment">/*</span><span class="Comment"> arg1 and arg2 must be unsigned </span><span class="Comment">*/</span><span class="PreProc"> \</span> +<span id="L50" class="LineNr"> 50 </span><span class="PreProc"> arg1 = arg1 op arg2</span><span class="Delimiter">;</span><span class="PreProc"> \</span> +<span id="L51" class="LineNr"> 51 </span><span class="PreProc"> SF = (arg1 >> </span><span class="Constant">31</span><span class="PreProc">)</span><span class="Delimiter">;</span><span class="PreProc"> \</span> +<span id="L52" class="LineNr"> 52 </span><span class="PreProc"> ZF = (arg1 == </span><span class="Constant">0</span><span class="PreProc">)</span><span class="Delimiter">;</span><span class="PreProc"> \</span> +<span id="L53" class="LineNr"> 53 </span><span class="PreProc"> OF = </span><span class="Constant">false</span><span class="Delimiter">;</span><span class="PreProc"> \</span> +<span id="L54" class="LineNr"> 54 </span><span class="Delimiter">}</span> +<span id="L55" class="LineNr"> 55 </span> +<span id="L56" class="LineNr"> 56 </span><span class="SalientComment">//:: simulated RAM</span> +<span id="L57" class="LineNr"> 57 </span> +<span id="L58" class="LineNr"> 58 </span><span class="Delimiter">:(before "End Globals")</span> +<span id="L59" class="LineNr"> 59 </span>map<<span class="Normal">uint32_t</span><span class="Delimiter">,</span> <span class="Normal">uint8_t</span>> Memory<span class="Delimiter">;</span> +<span id="L60" class="LineNr"> 60 </span><span class="Normal">uint32_t</span> End_of_program = <span class="Constant">0</span><span class="Delimiter">;</span> +<span id="L61" class="LineNr"> 61 </span><span class="Delimiter">:(before "End Reset")</span> +<span id="L62" class="LineNr"> 62 </span>Memory<span class="Delimiter">.</span>clear<span class="Delimiter">();</span> +<span id="L63" class="LineNr"> 63 </span>End_of_program = <span class="Constant">0</span><span class="Delimiter">;</span> +<span id="L64" class="LineNr"> 64 </span> +<span id="L65" class="LineNr"> 65 </span><span class="SalientComment">//:: core interpreter loop</span> +<span id="L66" class="LineNr"> 66 </span> +<span id="L67" class="LineNr"> 67 </span><span class="Delimiter">:(scenario add_imm32_to_eax)</span> +<span id="L68" class="LineNr"> 68 </span><span class="Comment"># In scenarios, programs are a series of hex bytes, each (variable-length)</span> +<span id="L69" class="LineNr"> 69 </span><span class="Comment"># instruction on one line.</span> +<span id="L70" class="LineNr"> 70 </span># +<span id="L71" class="LineNr"> 71 </span><span class="Comment"># x86 instructions consist of the following parts (see cheatsheet.pdf):</span> +<span id="L72" class="LineNr"> 72 </span><span class="Comment"># opcode ModRM SIB displacement immediate</span> +<span id="L73" class="LineNr"> 73 </span><span class="Comment"># instruction mod, reg, R/M bits scale, index, base</span> +<span id="L74" class="LineNr"> 74 </span><span class="Comment"># 1-3 bytes 0/1 byte 0/1 byte 0/1/2/4 bytes 0/1/2/4 bytes</span> +<span id="L75" class="LineNr"> 75 </span> <span class="Conceal">¦</span> <span class="Constant">0x05</span> 0a 0b 0c 0d <span class="Comment"># add 0x0d0c0b0a to EAX</span> +<span id="L76" class="LineNr"> 76 </span><span class="traceContains">+load: 1 -> 05</span> +<span id="L77" class="LineNr"> 77 </span><span class="traceContains">+load: 2 -> 0a</span> +<span id="L78" class="LineNr"> 78 </span><span class="traceContains">+load: 3 -> 0b</span> +<span id="L79" class="LineNr"> 79 </span><span class="traceContains">+load: 4 -> 0c</span> +<span id="L80" class="LineNr"> 80 </span><span class="traceContains">+load: 5 -> 0d</span> +<span id="L81" class="LineNr"> 81 </span><span class="traceContains">+run: add imm32 0x0d0c0b0a to reg EAX</span> +<span id="L82" class="LineNr"> 82 </span><span class="traceContains">+reg: storing 0x0d0c0b0a in reg EAX</span> +<span id="L83" class="LineNr"> 83 </span> +<span id="L84" class="LineNr"> 84 </span><span class="Delimiter">:(code)</span> +<span id="L85" class="LineNr"> 85 </span><span class="Comment">// helper for tests: load a program into memory from a textual representation</span> +<span id="L86" class="LineNr"> 86 </span><span class="Comment">// of its bytes, and run it</span> +<span id="L87" class="LineNr"> 87 </span><span class="Normal">void</span> run<span class="Delimiter">(</span><span class="Normal">const</span> string& text_bytes<span class="Delimiter">)</span> <span class="Delimiter">{</span> +<span id="L88" class="LineNr"> 88 </span> load_program<span class="Delimiter">(</span>text_bytes<span class="Delimiter">);</span> +<span id="L89" class="LineNr"> 89 </span> EIP = <span class="Constant">1</span><span class="Delimiter">;</span> <span class="Comment">// preserve null pointer</span> +<span id="L90" class="LineNr"> 90 </span> <span class="Normal">while</span> <span class="Delimiter">(</span>EIP < End_of_program<span class="Delimiter">)</span> +<span id="L91" class="LineNr"> 91 </span> <span class="Conceal">¦</span> run_one_instruction<span class="Delimiter">();</span> +<span id="L92" class="LineNr"> 92 </span><span class="Delimiter">}</span> +<span id="L93" class="LineNr"> 93 </span> +<span id="L94" class="LineNr"> 94 </span><span class="Normal">void</span> load_program<span class="Delimiter">(</span><span class="Normal">const</span> string& text_bytes<span class="Delimiter">)</span> <span class="Delimiter">{</span> +<span id="L95" class="LineNr"> 95 </span> <span class="Comment">// now, to read the hex bytes in ASCII, we'll use C's strtol</span> +<span id="L96" class="LineNr"> 96 </span> <span class="Comment">// strtol needs a char*, so we grab the buffer backing the string object</span> +<span id="L97" class="LineNr"> 97 </span> <span class="Normal">uint32_t</span> addr = <span class="Constant">1</span><span class="Delimiter">;</span> +<span id="L98" class="LineNr"> 98 </span> <span class="Normal">char</span>* curr = <span class="Normal">const_cast</span><<span class="Normal">char</span>*><span class="Delimiter">(</span>&text_bytes[<span class="Constant">0</span>]<span class="Delimiter">);</span> <span class="Comment">// non-standard approach, but blessed by Herb Sutter (<a href="http://herbsutter.com/2008/04/07/cringe-not-vectors-are-guaranteed-to-be-contiguous/#comment-483)">http://herbsutter.com/2008/04/07/cringe-not-vectors-are-guaranteed-to-be-contiguous/#comment-483)</a></span> +<span id="L99" class="LineNr"> 99 </span> <span class="Normal">char</span>* max = curr + strlen<span class="Delimiter">(</span>curr<span class="Delimiter">);</span> +<span id="L100" class="LineNr">100 </span> <span class="Normal">while</span> <span class="Delimiter">(</span>curr < max<span class="Delimiter">)</span> <span class="Delimiter">{</span> +<span id="L101" class="LineNr">101 </span> <span class="Conceal">¦</span> <span class="Comment">// skip whitespace</span> +<span id="L102" class="LineNr">102 </span> <span class="Conceal">¦</span> <span class="Normal">while</span> <span class="Delimiter">(</span>*curr == <span class="Constant">' '</span> || *curr == <span class="cSpecial">'\n'</span><span class="Delimiter">)</span> ++curr<span class="Delimiter">;</span> +<span id="L103" class="LineNr">103 </span> <span class="Conceal">¦</span> <span class="Comment">// skip comments</span> +<span id="L104" class="LineNr">104 </span> <span class="Conceal">¦</span> <span class="Normal">if</span> <span class="Delimiter">(</span>*curr == <span class="Constant">'#'</span><span class="Delimiter">)</span> <span class="Delimiter">{</span> +<span id="L105" class="LineNr">105 </span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> <span class="Normal">while</span> <span class="Delimiter">(</span>*curr != <span class="cSpecial">'\n'</span><span class="Delimiter">)</span> <span class="Delimiter">{</span> +<span id="L106" class="LineNr">106 </span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> ++curr<span class="Delimiter">;</span> +<span id="L107" class="LineNr">107 </span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> <span class="Normal">if</span> <span class="Delimiter">(</span>curr >= max<span class="Delimiter">)</span> <span class="Identifier">break</span><span class="Delimiter">;</span> +<span id="L108" class="LineNr">108 </span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> <span class="Delimiter">}</span> +<span id="L109" class="LineNr">109 </span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> ++curr<span class="Delimiter">;</span> +<span id="L110" class="LineNr">110 </span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> <span class="Identifier">continue</span><span class="Delimiter">;</span> +<span id="L111" class="LineNr">111 </span> <span class="Conceal">¦</span> <span class="Delimiter">}</span> +<span id="L112" class="LineNr">112 </span> <span class="Conceal">¦</span> put<span class="Delimiter">(</span>Memory<span class="Delimiter">,</span> addr<span class="Delimiter">,</span> strtol<span class="Delimiter">(</span>curr<span class="Delimiter">,</span> &curr<span class="Delimiter">,</span> <span class="Comment">/*</span><span class="Comment">hex</span><span class="Comment">*/</span><span class="Constant">16</span><span class="Delimiter">));</span> +<span id="L113" class="LineNr">113 </span> <span class="Conceal">¦</span> trace<span class="Delimiter">(</span><span class="Constant">99</span><span class="Delimiter">,</span> <span class="Constant">"load"</span><span class="Delimiter">)</span> << addr << <span class="Constant">" -> "</span> << HEXBYTE << <span class="Normal">static_cast</span><<span class="Normal">unsigned</span> <span class="Normal">int</span>><span class="Delimiter">(</span>get_or_insert<span class="Delimiter">(</span>Memory<span class="Delimiter">,</span> addr<span class="Delimiter">))</span> << end<span class="Delimiter">();</span> <span class="Comment">// ugly that iostream doesn't print uint8_t as an integer</span> +<span id="L114" class="LineNr">114 </span> <span class="Conceal">¦</span> addr++<span class="Delimiter">;</span> +<span id="L115" class="LineNr">115 </span> <span class="Delimiter">}</span> +<span id="L116" class="LineNr">116 </span> End_of_program = addr<span class="Delimiter">;</span> +<span id="L117" class="LineNr">117 </span><span class="Delimiter">}</span> +<span id="L118" class="LineNr">118 </span> +<span id="L119" class="LineNr">119 </span><span class="Comment">// skeleton of how x86 instructions are decoded</span> +<span id="L120" class="LineNr">120 </span><span class="Normal">void</span> run_one_instruction<span class="Delimiter">()</span> <span class="Delimiter">{</span> +<span id="L121" class="LineNr">121 </span> <span class="Normal">uint8_t</span> op=<span class="Constant">0</span><span class="Delimiter">,</span> op2=<span class="Constant">0</span><span class="Delimiter">,</span> op3=<span class="Constant">0</span><span class="Delimiter">;</span> +<span id="L122" class="LineNr">122 </span> <span class="Normal">switch</span><span class="Delimiter">(</span>op = next<span class="Delimiter">())</span> <span class="Delimiter">{</span> +<span id="L123" class="LineNr">123 </span> <span class="Comment">// our first opcode</span> +<span id="L124" class="LineNr">124 </span> <span class="Normal">case</span> <span class="Constant">0xf4</span>: <span class="Comment">// hlt</span> +<span id="L125" class="LineNr">125 </span> <span class="Conceal">¦</span> EIP = End_of_program<span class="Delimiter">;</span> +<span id="L126" class="LineNr">126 </span> <span class="Conceal">¦</span> <span class="Identifier">break</span><span class="Delimiter">;</span> +<span id="L127" class="LineNr">127 </span> <span class="Normal">case</span> <span class="Constant">0x05</span>: <span class="Delimiter">{</span> <span class="Comment">// add imm32 to EAX</span> +<span id="L128" class="LineNr">128 </span> <span class="Conceal">¦</span> <span class="Normal">int32_t</span> arg2 = imm32<span class="Delimiter">();</span> +<span id="L129" class="LineNr">129 </span> <span class="Conceal">¦</span> trace<span class="Delimiter">(</span><span class="Constant">2</span><span class="Delimiter">,</span> <span class="Constant">"run"</span><span class="Delimiter">)</span> << <span class="Constant">"add imm32 0x"</span> << HEXWORD << arg2 << <span class="Constant">" to reg EAX"</span> << end<span class="Delimiter">();</span> +<span id="L130" class="LineNr">130 </span> <span class="Conceal">¦</span> BINARY_ARITHMETIC_OP<span class="Delimiter">(</span>+<span class="Delimiter">,</span> R[EAX]<span class="Delimiter">.</span>i<span class="Delimiter">,</span> arg2<span class="Delimiter">);</span> +<span id="L131" class="LineNr">131 </span> <span class="Conceal">¦</span> trace<span class="Delimiter">(</span><span class="Constant">98</span><span class="Delimiter">,</span> <span class="Constant">"reg"</span><span class="Delimiter">)</span> << <span class="Constant">"storing 0x"</span> << HEXWORD << R[EAX]<span class="Delimiter">.</span>i << <span class="Constant">" in reg EAX"</span> << end<span class="Delimiter">();</span> +<span id="L132" class="LineNr">132 </span> <span class="Conceal">¦</span> <span class="Identifier">break</span><span class="Delimiter">;</span> +<span id="L133" class="LineNr">133 </span> <span class="Delimiter">}</span> +<span id="L134" class="LineNr">134 </span> <span class="Comment">// End Single-Byte Opcodes</span> +<span id="L135" class="LineNr">135 </span> <span class="Normal">case</span> <span class="Constant">0x0f</span>: +<span id="L136" class="LineNr">136 </span> <span class="Conceal">¦</span> <span class="Normal">switch</span><span class="Delimiter">(</span>op2 = next<span class="Delimiter">())</span> <span class="Delimiter">{</span> +<span id="L137" class="LineNr">137 </span> <span class="Conceal">¦</span> <span class="Comment">// End Two-Byte Opcodes Starting With 0f</span> +<span id="L138" class="LineNr">138 </span> <span class="Conceal">¦</span> <span class="Normal">default</span>: +<span id="L139" class="LineNr">139 </span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> cerr << <span class="Constant">"unrecognized second opcode after 0f: "</span> << std::hex << <span class="Normal">static_cast</span><<span class="Normal">int</span>><span class="Delimiter">(</span>op2<span class="Delimiter">)</span> << <span class="cSpecial">'\n'</span><span class="Delimiter">;</span> +<span id="L140" class="LineNr">140 </span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> exit<span class="Delimiter">(</span><span class="Constant">1</span><span class="Delimiter">);</span> +<span id="L141" class="LineNr">141 </span> <span class="Conceal">¦</span> <span class="Delimiter">}</span> +<span id="L142" class="LineNr">142 </span> <span class="Conceal">¦</span> <span class="Identifier">break</span><span class="Delimiter">;</span> +<span id="L143" class="LineNr">143 </span> <span class="Normal">case</span> <span class="Constant">0xf3</span>: +<span id="L144" class="LineNr">144 </span> <span class="Conceal">¦</span> <span class="Normal">switch</span><span class="Delimiter">(</span>op2 = next<span class="Delimiter">())</span> <span class="Delimiter">{</span> +<span id="L145" class="LineNr">145 </span> <span class="Conceal">¦</span> <span class="Comment">// End Two-Byte Opcodes Starting With f3</span> +<span id="L146" class="LineNr">146 </span> <span class="Conceal">¦</span> <span class="Normal">case</span> <span class="Constant">0x0f</span>: +<span id="L147" class="LineNr">147 </span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> <span class="Normal">switch</span><span class="Delimiter">(</span>op3 = next<span class="Delimiter">())</span> <span class="Delimiter">{</span> +<span id="L148" class="LineNr">148 </span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> <span class="Comment">// End Three-Byte Opcodes Starting With f3 0f</span> +<span id="L149" class="LineNr">149 </span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> <span class="Normal">default</span>: +<span id="L150" class="LineNr">150 </span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> cerr << <span class="Constant">"unrecognized third opcode after f3 0f: "</span> << std::hex << <span class="Normal">static_cast</span><<span class="Normal">int</span>><span class="Delimiter">(</span>op3<span class="Delimiter">)</span> << <span class="cSpecial">'\n'</span><span class="Delimiter">;</span> +<span id="L151" class="LineNr">151 </span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> exit<span class="Delimiter">(</span><span class="Constant">1</span><span class="Delimiter">);</span> +<span id="L152" class="LineNr">152 </span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> <span class="Delimiter">}</span> +<span id="L153" class="LineNr">153 </span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> <span class="Identifier">break</span><span class="Delimiter">;</span> +<span id="L154" class="LineNr">154 </span> <span class="Conceal">¦</span> <span class="Normal">default</span>: +<span id="L155" class="LineNr">155 </span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> cerr << <span class="Constant">"unrecognized second opcode after f3: "</span> << std::hex << <span class="Normal">static_cast</span><<span class="Normal">int</span>><span class="Delimiter">(</span>op2<span class="Delimiter">)</span> << <span class="cSpecial">'\n'</span><span class="Delimiter">;</span> +<span id="L156" class="LineNr">156 </span> <span class="Conceal">¦</span> <span class="Conceal">¦</span> exit<span class="Delimiter">(</span><span class="Constant">1</span><span class="Delimiter">);</span> +<span id="L157" class="LineNr">157 </span> <span class="Conceal">¦</span> <span class="Delimiter">}</span> +<span id="L158" class="LineNr">158 </span> <span class="Conceal">¦</span> <span class="Identifier">break</span><span class="Delimiter">;</span> +<span id="L159" class="LineNr">159 </span> <span class="Normal">default</span>: +<span id="L160" class="LineNr">160 </span> <span class="Conceal">¦</span> cerr << <span class="Constant">"unrecognized opcode: "</span> << std::hex << <span class="Normal">static_cast</span><<span class="Normal">int</span>><span class="Delimiter">(</span>op<span class="Delimiter">)</span> << <span class="cSpecial">'\n'</span><span class="Delimiter">;</span> +<span id="L161" class="LineNr">161 </span> <span class="Conceal">¦</span> exit<span class="Delimiter">(</span><span class="Constant">1</span><span class="Delimiter">);</span> +<span id="L162" class="LineNr">162 </span> <span class="Delimiter">}</span> +<span id="L163" class="LineNr">163 </span><span class="Delimiter">}</span> +<span id="L164" class="LineNr">164 </span> +<span id="L165" class="LineNr">165 </span><span class="Normal">uint8_t</span> next<span class="Delimiter">()</span> <span class="Delimiter">{</span> +<span id="L166" class="LineNr">166 </span> <span class="Identifier">return</span> get_or_insert<span class="Delimiter">(</span>Memory<span class="Delimiter">,</span> EIP++<span class="Delimiter">);</span> +<span id="L167" class="LineNr">167 </span><span class="Delimiter">}</span> +<span id="L168" class="LineNr">168 </span> +<span id="L169" class="LineNr">169 </span><span class="Comment">// read a 32-bit immediate in little-endian order from the instruction stream</span> +<span id="L170" class="LineNr">170 </span><span class="Normal">int32_t</span> imm32<span class="Delimiter">()</span> <span class="Delimiter">{</span> +<span id="L171" class="LineNr">171 </span> <span class="Normal">int32_t</span> result = next<span class="Delimiter">();</span> +<span id="L172" class="LineNr">172 </span> result |= <span class="Delimiter">(</span>next<span class="Delimiter">()</span><<<span class="Constant">8</span><span class="Delimiter">);</span> +<span id="L173" class="LineNr">173 </span> result |= <span class="Delimiter">(</span>next<span class="Delimiter">()</span><<<span class="Constant">16</span><span class="Delimiter">);</span> +<span id="L174" class="LineNr">174 </span> result |= <span class="Delimiter">(</span>next<span class="Delimiter">()</span><<<span class="Constant">24</span><span class="Delimiter">);</span> +<span id="L175" class="LineNr">175 </span> <span class="Identifier">return</span> result<span class="Delimiter">;</span> +<span id="L176" class="LineNr">176 </span><span class="Delimiter">}</span> +<span id="L177" class="LineNr">177 </span> +<span id="L178" class="LineNr">178 </span><span class="Delimiter">:(before "End Includes")</span> +<span id="L179" class="LineNr">179 </span><span class="PreProc">#include </span><span class="Constant"><iomanip></span> +<span id="L180" class="LineNr">180 </span><span class="PreProc">#define HEXBYTE std::hex << std::setw(</span><span class="Constant">2</span><span class="PreProc">) << std::setfill(</span><span class="Constant">'0'</span><span class="PreProc">)</span> +<span id="L181" class="LineNr">181 </span><span class="PreProc">#define HEXWORD std::hex << std::setw(</span><span class="Constant">8</span><span class="PreProc">) << std::setfill(</span><span class="Constant">'0'</span><span class="PreProc">)</span> +<span id="L182" class="LineNr">182 </span><span class="PreProc">#include </span><span class="Constant"><stdint.h></span> +</pre> +</body> +</html> +<!-- vim: set foldmethod=manual : --> |