355 lines
28 KiB
Plaintext
355 lines
28 KiB
Plaintext
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<!DOCTYPE html>
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<html lang="en">
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<head>
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<meta charset="UTF-8">
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<meta name="generator" content="TempleOS V5.03">
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<meta name="viewport" content="width=device-width">
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<link rel="stylesheet" href="/style/templeos.css">
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<script src="/script/templeos.js"></script>
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<style type="text/css">
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.cF0{color:#000000;background-color:#ffffff;}
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.cF1{color:#0000aa;background-color:#ffffff;}
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.cF2{color:#00aa00;background-color:#ffffff;}
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.cF3{color:#00aaaa;background-color:#ffffff;}
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.cF4{color:#aa0000;background-color:#ffffff;}
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.cF5{color:#aa00aa;background-color:#ffffff;}
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.cF6{color:#aa5500;background-color:#ffffff;}
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.cF7{color:#aaaaaa;background-color:#ffffff;}
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.cF8{color:#555555;background-color:#ffffff;}
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.cF9{color:#5555ff;background-color:#ffffff;}
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.cFA{color:#55ff55;background-color:#ffffff;}
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.cFB{color:#55ffff;background-color:#ffffff;}
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.cFC{color:#ff5555;background-color:#ffffff;}
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.cFD{color:#ff55ff;background-color:#ffffff;}
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.cFE{color:#ffff55;background-color:#ffffff;}
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.cFF{color:#ffffff;background-color:#ffffff;}
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</style>
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</head>
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<body>
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<pre id="content">
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<a name="l1"></a><span class=cF5> HolyC</span><span class=cF0>
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<a name="l2"></a>
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<a name="l3"></a>* See </span><a href="/Wb/Doc/CompilerOverview.DD.HTML#l1"><span class=cF4>::/Doc/CompilerOverview.DD</span></a><span class=cF0>.
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<a name="l4"></a>
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<a name="l5"></a>* See </span><a href="/Wb/Doc/ScopingLinkage.DD.HTML#l1"><span class=cF4>Scoping and Linkage</span></a><span class=cF0> for details on </span><span class=cF2>extern</span><span class=cF0>, </span><span class=cF2>import</span><span class=cF0>, </span><span class=cF2>_extern</span><span class=cF0>, </span><span class=cF2>_import</span><span class=cF0>, etc.
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<a name="l6"></a>
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<a name="l7"></a>* Built-in types include </span><span class=cF2>I0,I8,I16,I32,I64</span><span class=cF0> for signed 0-8 byte ints and </span><span class=cF2>U0,U8,U1
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<a name="l8"></a>6,U32,U64</span><span class=cF0> for unsigned 0-8 byte ints and </span><span class=cF2>F64</span><span class=cF0> for 8 byte floats.
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<a name="l9"></a>
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<a name="l10"></a></span><span class=cF2> U0 void, but ZERO size!
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<a name="l11"></a> I8 char
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<a name="l12"></a> U8 unsigned char
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<a name="l13"></a> I16 short
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<a name="l14"></a> U16 unsigned short
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<a name="l15"></a> I32 int
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<a name="l16"></a> U32 unsigned int
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<a name="l17"></a> I64 long (64-bit)
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<a name="l18"></a> U64 unsigned long (64-bit)
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<a name="l19"></a> F64 double</span><span class=cF0>
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<a name="l20"></a> </span><span class=cF4>no F32 float.</span><span class=cF0>
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<a name="l21"></a>
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<a name="l22"></a>* Function with no args, or just default args can be called without parentheses.
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<a name="l23"></a>
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<a name="l24"></a> ></span><span class=cF2>Dir("*");</span><span class=cF0>
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<a name="l25"></a> ></span><span class=cF2>Dir();</span><span class=cF0>
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<a name="l26"></a> ></span><span class=cF2>Dir;</span><span class=cF0>
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<a name="l27"></a>
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<a name="l28"></a>* Default args don't have to be on the end. This code is valid:
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<a name="l29"></a> </span><span class=cF2>U0 Test(I64 i=4,I64 j,I64 k=5)
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<a name="l30"></a> {
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<a name="l31"></a> Print("%X %X %X\n",i,j,k);
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<a name="l32"></a> }
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<a name="l33"></a>
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<a name="l34"></a> Test(,3);</span><span class=cF0>
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<a name="l35"></a>
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<a name="l36"></a>* A char const all alone is sent to </span><a href="/Wb/Kernel/KeyDev.HC.HTML#l20"><span class=cF4>PutChars</span></a><span class=cF0>(). A string with or without args
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<a name="l37"></a>is sent to </span><a href="/Wb/Kernel/StrPrint.HC.HTML#l890"><span class=cF4>Print</span></a><span class=cF0>(). An empty string literal signals a variable fmt_str follows.
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<a name="l38"></a>
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<a name="l39"></a> </span><span class=cF2>void DemoC(char drv,char *fmt,char *name,int age)
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<a name="l40"></a> {
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<a name="l41"></a> printf("Hello World!\n");
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<a name="l42"></a> printf("%s age %d\n",name,age);
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<a name="l43"></a> printf(fmt,name,age);
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<a name="l44"></a> putchar(drv);
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<a name="l45"></a> putchar('*');
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<a name="l46"></a> }
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<a name="l47"></a>
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<a name="l48"></a> U0 DemoHolyC(U8 drv,U8 *fmt,U8 *name,I64 age)
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<a name="l49"></a> {
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<a name="l50"></a> "Hello World!\n";
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<a name="l51"></a> "%s age %d\n",name,age;
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<a name="l52"></a> "" fmt,name,age;
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<a name="l53"></a> '' drv;
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<a name="l54"></a> '*';
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<a name="l55"></a> }
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<a name="l56"></a></span><span class=cF0>
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<a name="l57"></a>* When dealing with function addresses such as for callbacks, precede the name
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<a name="l58"></a>with "</span><span class=cF2>&</span><span class=cF0>".
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<a name="l59"></a>
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<a name="l60"></a>* Type casting is postfix. To typecast int or F64, use </span><a href="/Wb/Kernel/KernelB.HH.HTML#l121"><span class=cF4>ToI64</span></a><span class=cF0>(), </span><a href="/Wb/Kernel/KernelB.HH.HTML#l119"><span class=cF4>ToBool</span></a><span class=cF0>() or </span><span class=cF4>
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<a name="l61"></a></span><a href="/Wb/Kernel/KernelB.HH.HTML#l120"><span class=cF4>ToF64</span></a><span class=cF0>(). (TempleOS follows normal C float<-->int conversion, but sometimes you
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<a name="l62"></a>want to override. These functions are better than multiplying by "1.0" to
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<a name="l63"></a>convert to float.)
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<a name="l64"></a>
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<a name="l65"></a>* There is no </span><span class=cF2>main()</span><span class=cF0> function. Any code outside of functions gets executed upon
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<a name="l66"></a>start-up, in order.
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<a name="l67"></a>
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<a name="l68"></a>* There are no bit fields, but there are </span><span class=cF4><u>bit access</u></span><span class=cF0> routines and you can access
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<a name="l69"></a>bytes or words within any int. See </span><a href="/Wb/Kernel/KernelA.HH.HTML#l105"><span class=cF4>I64 declaration</span></a><span class=cF0>. A class can be accessed as
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<a name="l70"></a>a whole are subints, if you put a type in front of the </span><span class=cF2>class</span><span class=cF0> declaration.
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<a name="l71"></a>
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<a name="l72"></a> </span><span class=cF2>public I64i union I64 //"I64i" is intrinsic. We are defining "I64".
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<a name="l73"></a> {
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<a name="l74"></a> I8i i8[8];
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<a name="l75"></a> U8i u8[8];
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<a name="l76"></a> I16 i16[4];
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<a name="l77"></a> U16 u16[4];
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<a name="l78"></a> I32 i32[2];
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<a name="l79"></a> U32 u32[2];
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<a name="l80"></a> };
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<a name="l81"></a>
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<a name="l82"></a> I64 i=0x123456780000DEF0;
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<a name="l83"></a> i.u16[1]=0x9ABC;
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<a name="l84"></a></span><span class=cF0>
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<a name="l85"></a>* Variable arg count functions (</span><span class=cF2>...</span><span class=cF0>) can access their args with built-in
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<a name="l86"></a>variables similar to '</span><span class=cF2>this</span><span class=cF0>' in C++. They are '</span><span class=cF2>I64 argc</span><span class=cF0>' and '</span><span class=cF2>I64 argv[]</span><span class=cF0>'.
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<a name="l87"></a>
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<a name="l88"></a> </span><span class=cF2>I64 AddNums(...)
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<a name="l89"></a> {
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<a name="l90"></a> I64 i,res=0;
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<a name="l91"></a> for (i=0;i<argc;i++)
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<a name="l92"></a> res+=argv[i];
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<a name="l93"></a> return res;
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<a name="l94"></a> }
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<a name="l95"></a>
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<a name="l96"></a> </span><span class=cF0>></span><span class=cF2>AddNums(1,2,3);</span><span class=cF0>
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<a name="l97"></a> ans=6
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<a name="l98"></a> </span><span class=cF2>
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<a name="l99"></a>
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<a name="l100"></a> public U0 GrPrint(CDC *dc,I64 x,I64 y,U8 *fmt,...)
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<a name="l101"></a> {
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<a name="l102"></a> U8 *buf=</span><a href="/Wb/Kernel/StrPrint.HC.HTML#l208"><span class=cF4>StrPrintJoin</span></a><span class=cF2>(NULL,fmt,argc,argv);//SPrintF() with </span><a href="/Wb/Kernel/Mem/MAllocFree.HC.HTML#l387"><span class=cF4>MAlloc</span></a><span class=cF2>()ed string.
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<a name="l103"></a> </span><a href="/Wb/Adam/Gr/GrBitMap.HC.HTML#l913"><span class=cF4>GrPutS</span></a><span class=cF2>(dc,x,y,buf); //Plot string at x,y pixels. GrPutS is not public.
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<a name="l104"></a> Free(buf);
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<a name="l105"></a> }
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<a name="l106"></a>
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<a name="l107"></a> ...
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<a name="l108"></a>
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<a name="l109"></a> GrPrint(gr.dc,(GR_WIDTH-10*FONT_WIDTH)>>1,(GR_HEIGHT-FONT_HEIGHT)>>1,
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<a name="l110"></a> "Score:%4d",score); //Print score in the center of the scrn.
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<a name="l111"></a> ...
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<a name="l112"></a>
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<a name="l113"></a></span><span class=cF0>
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<a name="l114"></a>* Allows "</span><span class=cF2>5<i<j+1<20</span><span class=cF0>" instead of "</span><span class=cF2>5<i && i<j+1 && j+1<20</span><span class=cF0>".
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<a name="l115"></a>
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<a name="l116"></a> </span><span class=cF2>if (13<=age<20)
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<a name="l117"></a> "Teen-ager";
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<a name="l118"></a></span><span class=cF0>
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<a name="l119"></a>* if you know a switch stmt will not exceed the lowest or highest case values. </span><span class=cF2>
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<a name="l120"></a>switch []</span><span class=cF0> is a little faster because it doesn't check.
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<a name="l121"></a>
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<a name="l122"></a>* </span><span class=cF2>switch</span><span class=cF0> stmts always use a jump table. Don't use them with cases with really
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<a name="l123"></a>big, sparse ranges.
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<a name="l124"></a>
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<a name="l125"></a>* Allows ranges like "</span><span class=cF2>case 4...7:</span><span class=cF0>" in </span><span class=cF2>switch</span><span class=cF0> stmts.
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<a name="l126"></a>
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<a name="l127"></a>* A no case number causes next higher int case in </span><span class=cF2>switch</span><span class=cF0> stmts. See </span><span class=cF4>
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<a name="l128"></a></span><a href="/Wb/Demo/NullCase.HC.HTML#l1"><span class=cF4>::/Demo/NullCase.HC</span></a><span class=cF0>.
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<a name="l129"></a>
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<a name="l130"></a> </span><span class=cF2>I64 i;
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<a name="l131"></a> for (i=0;i<20;i++)
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<a name="l132"></a> switch (i) {
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<a name="l133"></a> case: "Zero\n"; break; //Starts at zero
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<a name="l134"></a> case: "One\n"; break; //One plus prev case.
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<a name="l135"></a> case: "Two\n"; break;
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<a name="l136"></a> case: "Three\n"; break;
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<a name="l137"></a> case 10: "Ten\n"; break;
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<a name="l138"></a> case: "Eleven\n"; break; //One plus prev case.
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<a name="l139"></a> }</span><span class=cF0>
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<a name="l140"></a>
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<a name="l141"></a>* Switch statements can be nestled with a single switch expression! This is
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<a name="l142"></a>known as a "sub_switch" statement. </span><span class=cF2>start</span><span class=cF0>/</span><span class=cF2>end</span><span class=cF0> are used to group cases. Don't
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<a name="l143"></a>goto out of, throw an exception out of, or return out of the </span><span class=cF2>start</span><span class=cF0> front porch
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<a name="l144"></a>area. See </span><a href="/Wb/Demo/SubSwitch.HC.HTML#l1"><span class=cF4>::/Demo/SubSwitch.HC</span></a><span class=cF0>.
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<a name="l145"></a>
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<a name="l146"></a> </span><span class=cF2>I64 i;
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<a name="l147"></a> for (i=0;i<10;i++)
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<a name="l148"></a> switch (i) {
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<a name="l149"></a> case 0: "Zero "; break;
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<a name="l150"></a> case 2: "Two "; break;
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<a name="l151"></a> case 4: "Four "; break;
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<a name="l152"></a> start:
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<a name="l153"></a> "[";
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<a name="l154"></a> case 1: "One"; break;
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<a name="l155"></a> case 3: "Three";break;
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<a name="l156"></a> case 5: "Five"; break;
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<a name="l157"></a> end:
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<a name="l158"></a> "] ";
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<a name="l159"></a> break;
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<a name="l160"></a> }</span><span class=cF0>
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<a name="l161"></a> OutPut:
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<a name="l162"></a> ></span><span class=cF2>Zero [One] Two [Three] Four [Five]</span><span class=cF0>
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<a name="l163"></a>
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<a name="l164"></a>* A </span><span class=cF2>no_warn</span><span class=cF0> stmt will suppress an unused var warning.
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<a name="l165"></a>
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<a name="l166"></a>* You can have multiple member vars of a class named "</span><span class=cF2>pad</span><span class=cF0>" or "</span><span class=cF2>reserved</span><span class=cF0>", and it
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<a name="l167"></a>won't issue warnings.
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<a name="l168"></a>
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<a name="l169"></a>* </span><span class=cF2>noreg</span><span class=cF0> or </span><span class=cF2>reg</span><span class=cF0> can be placed before a function local var name. You can,
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<a name="l170"></a>optionally, specify a reg after the </span><span class=cF2>reg</span><span class=cF0> keyword.
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<a name="l171"></a>
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<a name="l172"></a> </span><span class=cF2>U0 Main()
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<a name="l173"></a> {
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<a name="l174"></a> //Only use </span><a href="/Wb/Kernel/KernelA.HH.HTML#l1804"><span class=cF4>REGG_LOCAL_VARS</span></a><span class=cF2> or </span><a href="/Wb/Kernel/KernelA.HH.HTML#l1805"><span class=cF4>REGG_LOCAL_NON_PTR_VARS</span></a><span class=cF2> for reg vars or else
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<a name="l175"></a> clobbered.
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<a name="l176"></a> I64 reg R15 i=5, noreg j=4;
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<a name="l177"></a> no_warn i;
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<a name="l178"></a> asm {
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<a name="l179"></a> MOV RAX,R15
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<a name="l180"></a> CALL &PUT_HEX_U64
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<a name="l181"></a> MOV RAX,'\n'
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<a name="l182"></a> CALL &PUT_CHARS
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<a name="l183"></a> MOV RAX,U64 &j[RBP]
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<a name="l184"></a> CALL &PUT_HEX_U64
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<a name="l185"></a> MOV RAX,'\n'
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<a name="l186"></a> CALL &PUT_CHARS
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<a name="l187"></a> }
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<a name="l188"></a> }
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<a name="l189"></a></span><span class=cF0>
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|
|
<a name="l190"></a>* </span><span class=cF2>interrupt</span><span class=cF0>, </span><span class=cF2>haserrcode</span><span class=cF0>, </span><span class=cF2>public</span><span class=cF0>, </span><span class=cF2>argpop</span><span class=cF0> or </span><span class=cF2>noargpop</span><span class=cF0> are function flags. See </span><span class=cF4>
|
||
|
|
<a name="l191"></a></span><a href="/Wb/Kernel/SerialDev/Keyboard.HC.HTML#l411"><span class=cF4>IRQKbd</span></a><span class=cF0>().
|
||
|
|
<a name="l192"></a>
|
||
|
|
<a name="l193"></a>* A single quote can encompass multiple characters. </span><span class=cF2>'ABC'</span><span class=cF0> is equ to </span><span class=cF2>0x434241</span><span class=cF0>. </span><span class=cF4>
|
||
|
|
<a name="l194"></a></span><a href="/Wb/Kernel/KeyDev.HC.HTML#l20"><span class=cF4>PutChars</span></a><span class=cF0>() takes multiple characters.
|
||
|
|
<a name="l195"></a>
|
||
|
|
<a name="l196"></a> </span><span class=cF2>asm {
|
||
|
|
<a name="l197"></a> HELLO_WORLD::
|
||
|
|
<a name="l198"></a> PUSH RBP
|
||
|
|
<a name="l199"></a> MOV RBP,RSP
|
||
|
|
<a name="l200"></a> MOV RAX,'Hello '
|
||
|
|
<a name="l201"></a> CALL &PUT_CHARS
|
||
|
|
<a name="l202"></a> MOV RAX,'World\n'
|
||
|
|
<a name="l203"></a> CALL &PUT_CHARS
|
||
|
|
<a name="l204"></a> LEAVE
|
||
|
|
<a name="l205"></a> RET
|
||
|
|
<a name="l206"></a> }
|
||
|
|
<a name="l207"></a> Call(HELLO_WORLD);
|
||
|
|
<a name="l208"></a> PutChars('Hello ');
|
||
|
|
<a name="l209"></a> PutChars('World\n');
|
||
|
|
<a name="l210"></a></span><span class=cF0>
|
||
|
|
<a name="l211"></a>* The "</span><span class=cF2>`</span><span class=cF0>" operator raises a base to a power.
|
||
|
|
<a name="l212"></a>
|
||
|
|
<a name="l213"></a>* There is no question-colon operator.
|
||
|
|
<a name="l214"></a>
|
||
|
|
<a name="l215"></a>* TempleOS </span><a href="/Wb/Compiler/CInit.HC.HTML#l287"><span class=cF4>operator precedence</span></a><span class=cF0>
|
||
|
|
<a name="l216"></a> </span><span class=cF2>`</span><span class=cF0>,</span><span class=cF2>>></span><span class=cF0>,</span><span class=cF2><<</span><span class=cF0>
|
||
|
|
<a name="l217"></a> </span><span class=cF2>*</span><span class=cF0>,</span><span class=cF2>/</span><span class=cF0>,</span><span class=cF2>%</span><span class=cF0>
|
||
|
|
<a name="l218"></a> </span><span class=cF2>&</span><span class=cF0>
|
||
|
|
<a name="l219"></a> </span><span class=cF2>^</span><span class=cF0>
|
||
|
|
<a name="l220"></a> </span><span class=cF2>|</span><span class=cF0>
|
||
|
|
<a name="l221"></a> </span><span class=cF2>+</span><span class=cF0>,</span><span class=cF2>-</span><span class=cF0>
|
||
|
|
<a name="l222"></a> </span><span class=cF2><</span><span class=cF0>,</span><span class=cF2>></span><span class=cF0>,</span><span class=cF2><=</span><span class=cF0>,</span><span class=cF2>>=</span><span class=cF0>
|
||
|
|
<a name="l223"></a> </span><span class=cF2>==</span><span class=cF0>,</span><span class=cF2>!=</span><span class=cF0>
|
||
|
|
<a name="l224"></a> </span><span class=cF2>&&</span><span class=cF0>
|
||
|
|
<a name="l225"></a> </span><span class=cF2>^^</span><span class=cF0>
|
||
|
|
<a name="l226"></a> </span><span class=cF2>||</span><span class=cF0>
|
||
|
|
<a name="l227"></a> </span><span class=cF2>=</span><span class=cF0>,</span><span class=cF2><<=</span><span class=cF0>,</span><span class=cF2>>>=</span><span class=cF0>,</span><span class=cF2>*=</span><span class=cF0>,</span><span class=cF2>/=</span><span class=cF0>,</span><span class=cF2>&=</span><span class=cF0>,</span><span class=cF2>|=</span><span class=cF0>,</span><span class=cF2>^=</span><span class=cF0>,</span><span class=cF2>+=</span><span class=cF0>,</span><span class=cF2>-=</span><span class=cF0>
|
||
|
|
<a name="l228"></a>
|
||
|
|
<a name="l229"></a>* You can use </span><a href="/Wb/Compiler/CMisc.HC.HTML#l1"><span class=cF4>Option</span></a><span class=cF0>(</span><a href="/Wb/Kernel/KernelA.HH.HTML#l1549"><span class=cF4>OPTf_WARN_PAREN</span></a><span class=cF0>,ON) to find unnecessary parentheses in
|
||
|
|
<a name="l230"></a>code.
|
||
|
|
<a name="l231"></a>
|
||
|
|
<a name="l232"></a>* You can use </span><a href="/Wb/Compiler/CMisc.HC.HTML#l1"><span class=cF4>Option</span></a><span class=cF0>(</span><a href="/Wb/Kernel/KernelA.HH.HTML#l1550"><span class=cF4>OPTf_WARN_DUP_TYPES</span></a><span class=cF0>,ON) to find dup local var type stmts.
|
||
|
|
<a name="l233"></a>
|
||
|
|
<a name="l234"></a>* With the </span><span class=cF2>#exe{}</span><span class=cF0> feature in your src code, you can place programs that insert
|
||
|
|
<a name="l235"></a>text into the stream of code being compiled. See </span><a href="/Wb/Kernel/KMain.HC.HTML#l16"><span class=cF4>#exe {}</span></a><span class=cF0> for an example where
|
||
|
|
<a name="l236"></a>the date/time and compile-time prompting for cfguration data is placed into a
|
||
|
|
<a name="l237"></a>program. </span><a href="/Wb/Compiler/CMisc.HC.HTML#l68"><span class=cF4>StreamPrint</span></a><span class=cF0>() places text into a src program stream following the
|
||
|
|
<a name="l238"></a>conclusion of the </span><span class=cF2>#exe{}</span><span class=cF0> blk.
|
||
|
|
<a name="l239"></a>
|
||
|
|
<a name="l240"></a>* No </span><span class=cF2>#define</span><span class=cF0> functions exist (I'm not a fan)
|
||
|
|
<a name="l241"></a>
|
||
|
|
<a name="l242"></a>* No </span><span class=cF2>typedef</span><span class=cF0>, use </span><span class=cF2>class</span><span class=cF0>.
|
||
|
|
<a name="l243"></a>
|
||
|
|
<a name="l244"></a>* No type-checking
|
||
|
|
<a name="l245"></a>
|
||
|
|
<a name="l246"></a>* Can't use </span><span class=cF2><></span><span class=cF0> with </span><span class=cF2>#include</span><span class=cF0>, use </span><span class=cF2>""</span><span class=cF0>.
|
||
|
|
<a name="l247"></a>
|
||
|
|
<a name="l248"></a>* "</span><span class=cF2>$</span><span class=cF0>" is an escape character. Two dollar signs signify an ordinary $. See </span><span class=cF4>
|
||
|
|
<a name="l249"></a></span><a href="/Wb/Doc/DolDocOverview.DD.HTML#l1"><span class=cF4>DolDoc</span></a><span class=cF0>. In </span><span class=cF2>asm</span><span class=cF0> or </span><a href="/Wb/Doc/HolyC.DD.HTML#l1"><span class=cF4>HolyC</span></a><span class=cF0> code, it also refers to the inst's address or the
|
||
|
|
<a name="l250"></a>offset in a </span><span class=cF2>class</span><span class=cF0> definition.
|
||
|
|
<a name="l251"></a>
|
||
|
|
<a name="l252"></a>* </span><span class=cF2>union</span><span class=cF0> is more like a class, so you don't reference it with a </span><span class=cF2>union</span><span class=cF0> label after
|
||
|
|
<a name="l253"></a>you define it. Some common unions are declared in </span><a href="/Wb/Kernel/KernelA.HH.HTML#l67"><span class=cF4>KernelA.HH</span></a><span class=cF0> for 1,2,4 and 8
|
||
|
|
<a name="l254"></a>byte objects. If you place a type in front of a union declaration, that is the
|
||
|
|
<a name="l255"></a>type when used by itself. See </span><a href="/Wb/Demo/SubIntAccess.HC.HTML#l1"><span class=cF4>::/Demo/SubIntAccess.HC</span></a><span class=cF0>.
|
||
|
|
<a name="l256"></a>
|
||
|
|
<a name="l257"></a>* </span><span class=cF2>class</span><span class=cF0> member vars can have meta data. </span><span class=cF2>format</span><span class=cF0> and </span><span class=cF2>data</span><span class=cF0> are two meta data types
|
||
|
|
<a name="l258"></a>now used. All compiler structures are saved and you can access the compiler's
|
||
|
|
<a name="l259"></a>info about classes and vars. See </span><a href="/Wb/Demo/ClassMeta.HC.HTML#l1"><span class=cF4>::/Demo/ClassMeta.HC</span></a><span class=cF0> and </span><a href="/Wb/Adam/DolDoc/DocForm.HC.HTML#l209"><span class=cF4>DocForm</span></a><span class=cF0>().
|
||
|
|
<a name="l260"></a>
|
||
|
|
<a name="l261"></a>* There is a keyword </span><span class=cF2>lastclass</span><span class=cF0> you use as a dft arg. It is set to the class
|
||
|
|
<a name="l262"></a>name of the prev arg. See </span><a href="/Wb/Demo/LastClass.HC.HTML#l1"><span class=cF4>::/Demo/LastClass.HC</span></a><span class=cF0>, </span><a href="/Wb/Adam/ADbg.HC.HTML#l161"><span class=cF4>ClassRep</span></a><span class=cF0>(), </span><a href="/Wb/Adam/DolDoc/DocForm.HC.HTML#l209"><span class=cF4>DocForm</span></a><span class=cF0>() and </span><span class=cF4>
|
||
|
|
<a name="l263"></a></span><a href="/Wb/Demo/Dsk/BlkDevRep.HC.HTML#l1"><span class=cF4>::/Demo/Dsk/BlkDevRep.HC</span></a><span class=cF0>.
|
||
|
|
<a name="l264"></a>
|
||
|
|
<a name="l265"></a>* See </span><a href="/Wb/Demo/Exceptions.HC.HTML#l1"><span class=cF4>::/Demo/Exceptions.HC</span></a><span class=cF0>. </span><span class=cF2>try{} catch{}</span><span class=cF0> and </span><span class=cF2>throw</span><span class=cF0> are different from C++. </span><span class=cF2>th
|
||
|
|
<a name="l266"></a>row</span><span class=cF0> is a function with an 8-byte or less char arg. The char string passed in </span><span class=cF2>th
|
||
|
|
<a name="l267"></a>row()</span><span class=cF0> can be accessed from within a </span><span class=cF2>catch{}</span><span class=cF0> using the </span><span class=cF2>Fs->except_ch</span><span class=cF0>. Within a </span><span class=cF2>c
|
||
|
|
<a name="l268"></a>atch {}</span><span class=cF0> blk, set the var </span><span class=cF2>Fs->catch_except</span><span class=cF0> to </span><span class=cF2>TRUE</span><span class=cF0> if you want to terminate the
|
||
|
|
<a name="l269"></a>search for a hndlr. Use </span><a href="/Wb/Kernel/KExcept.HC.HTML#l45"><span class=cF4>PutExcept</span></a><span class=cF0>() as a hndlr, if you like.
|
||
|
|
<a name="l270"></a>
|
||
|
|
<a name="l271"></a>* A function is available similar to </span><span class=cF2>sizeof</span><span class=cF0> which provides the offset of a
|
||
|
|
<a name="l272"></a>member of a class. It's called </span><span class=cF2>offset</span><span class=cF0>. You place the class name and member
|
||
|
|
<a name="l273"></a>inside as in </span><span class=cF2>offset(classname.membername)</span><span class=cF0>. It has nothing to do with 16-bit
|
||
|
|
<a name="l274"></a>code. Both </span><span class=cF2>sizeof</span><span class=cF0> and </span><span class=cF2>offset</span><span class=cF0> only accept one level of member vars. That is,
|
||
|
|
<a name="l275"></a>you can't do </span><span class=cF2>sizeof(classname.membername.submembername)</span><span class=cF0>.
|
||
|
|
<a name="l276"></a>
|
||
|
|
<a name="l277"></a>* There is no </span><span class=cF2>continue</span><span class=cF0> stmt. Use </span><span class=cF2>goto</span><span class=cF0>.
|
||
|
|
<a name="l278"></a>
|
||
|
|
<a name="l279"></a>* </span><span class=cF2>lock{}</span><span class=cF0> can be used to apply asm </span><span class=cF2>LOCK</span><span class=cF0> prefixes to code for safe multicore
|
||
|
|
<a name="l280"></a>read-modify-write accesses. The code bracked with have </span><span class=cF2>LOCK</span><span class=cF0> asm prefix's
|
||
|
|
<a name="l281"></a>applied to relevant insts within. It's a little shoddy. See </span><span class=cF4>
|
||
|
|
<a name="l282"></a></span><a href="/Wb/Demo/MultiCore/Lock.HC.HTML#l1"><span class=cF4>::/Demo/MultiCore/Lock.HC</span></a><span class=cF0>.
|
||
|
|
<a name="l283"></a>
|
||
|
|
<a name="l284"></a>* There is a function called </span><a href="/Wb/Kernel/Mem/MAllocFree.HC.HTML#l384"><span class=cF4>MSize</span></a><span class=cF0>() which gives the size of an object alloced
|
||
|
|
<a name="l285"></a>off the heap. For larger size allocations, the system rounds-up to a power of
|
||
|
|
<a name="l286"></a>two, so </span><span class=cF2>MSize()</span><span class=cF0> lets you know the real size and you can take full advantage of
|
||
|
|
<a name="l287"></a>it.
|
||
|
|
<a name="l288"></a>
|
||
|
|
<a name="l289"></a>* You CAN </span><a href="/Wb/Kernel/Mem/MAllocFree.HC.HTML#l383"><span class=cF4>Free</span></a><span class=cF0>() a </span><span class=cF2>NULL</span><span class=cF0> ptr. Useful variants of </span><a href="/Wb/Kernel/Mem/MAllocFree.HC.HTML#l387"><span class=cF4>MAlloc</span></a><span class=cF0>() can be found </span><a href="/Wb/Kernel/Mem/MAllocFree.HC.HTML#l395"><span class=cF4>Here</span></a><span class=cF0>.
|
||
|
|
<a name="l290"></a>Each task has a heap and you can </span><span class=cF2>MAlloc</span><span class=cF0> and </span><span class=cF2>Free</span><span class=cF0> off-of other task's heaps, or
|
||
|
|
<a name="l291"></a>make an independent heap with </span><a href="/Wb/Kernel/Mem/HeapCtrl.HC.HTML#l1"><span class=cF4>HeapCtrlInit</span></a><span class=cF0>(). See </span><a href="/Wb/Adam/Opt/Utils/HeapLog.HC.HTML#l73"><span class=cF4>HeapLog</span></a><span class=cF0>() for an example.
|
||
|
|
<a name="l292"></a>
|
||
|
|
<a name="l293"></a>* The stk does not grow because virtual mem is not used. I recommend allocating
|
||
|
|
<a name="l294"></a>large local vars from the heap. You can change </span><a href="/Wb/Kernel/KernelA.HH.HTML#l2843"><span class=cF4>MEM_DFT_STK</span></a><span class=cF0> and recompile </span><span class=cF2>Kernel</span><span class=cF0>
|
||
|
|
<a name="l295"></a>or request more when doing a </span><a href="/Wb/Kernel/KTask.HC.HTML#l242"><span class=cF4>Spawn</span></a><span class=cF0>(). You can use </span><a href="/Wb/Kernel/KTask.HC.HTML#l110"><span class=cF4>CallStkGrow</span></a><span class=cF0>(), but it's odd.
|
||
|
|
<a name="l296"></a>See </span><a href="/Wb/Demo/StkGrow.HC.HTML#l1"><span class=cF4>::/Demo/StkGrow.HC</span></a><span class=cF0>.
|
||
|
|
<a name="l297"></a>
|
||
|
|
<a name="l298"></a>* Only one base class is allowed.
|
||
|
|
<a name="l299"></a>
|
||
|
|
<a name="l300"></a>* </span><span class=cF2>printf()</span><span class=cF0> has new codes. See </span><a href="/Wb/Doc/Print.DD.HTML#l1"><span class=cF4>Print("") Fmt Strings</span></a><span class=cF0>.
|
||
|
|
<a name="l301"></a>
|
||
|
|
<a name="l302"></a>* All values are extended to 64-bit when accessed. Intermediate calculations
|
||
|
|
<a name="l303"></a>are done with 64-bit values.
|
||
|
|
<a name="l304"></a>
|
||
|
|
<a name="l305"></a> </span><span class=cF2>U0 Main()
|
||
|
|
<a name="l306"></a> {
|
||
|
|
<a name="l307"></a> I16 i1;
|
||
|
|
<a name="l308"></a> I32 j1;
|
||
|
|
<a name="l309"></a> j1=i1=0x12345678; //Resulting i1 is 0x5678 but j1 is 0x12345678
|
||
|
|
<a name="l310"></a>
|
||
|
|
<a name="l311"></a> I64 i2=0x8000000000000000;
|
||
|
|
<a name="l312"></a> Print("%X\n",i2>>1); //Res is 0xC000000000000000 as expected
|
||
|
|
<a name="l313"></a>
|
||
|
|
<a name="l314"></a> U64 u3=0x8000000000000000;
|
||
|
|
<a name="l315"></a> Print("%X\n",u3>>1); //Res is 0x4000000000000000 as expected
|
||
|
|
<a name="l316"></a>
|
||
|
|
<a name="l317"></a> I32 i4=0x80000000; //const is loaded into a 64-bit reg var.
|
||
|
|
<a name="l318"></a> Print("%X\n",i4>>1); //Res is 0x40000000
|
||
|
|
<a name="l319"></a>
|
||
|
|
<a name="l320"></a> I32 i5=-0x80000000;
|
||
|
|
<a name="l321"></a> Print("%X\n",i5>>1); //Res is 0xFFFFFFFFC0000000
|
||
|
|
<a name="l322"></a> }
|
||
|
|
<a name="l323"></a></span><span class=cF0>
|
||
|
|
</span></pre></body>
|
||
|
|
</html>
|