From ba1712e77b31704fd9ba16d14e15518e7a7dd104 Mon Sep 17 00:00:00 2001 From: Ralph Amissah Date: Sat, 1 Oct 2016 14:12:13 -0400 Subject: 0.7.0 using dub remote dependencies (local src related to sdlang removed) --- src/undead/doformat.d | 1620 ----------------------- src/undead/internal/file.d | 25 - src/undead/stream.d | 3076 -------------------------------------------- 3 files changed, 4721 deletions(-) delete mode 100644 src/undead/doformat.d delete mode 100644 src/undead/internal/file.d delete mode 100644 src/undead/stream.d (limited to 'src/undead') diff --git a/src/undead/doformat.d b/src/undead/doformat.d deleted file mode 100644 index 4fc0daf..0000000 --- a/src/undead/doformat.d +++ /dev/null @@ -1,1620 +0,0 @@ -// Written in the D programming language. - -/** - Copyright: Copyright Digital Mars 2000-2013. - - License: $(HTTP boost.org/LICENSE_1_0.txt, Boost License 1.0). - - Authors: $(HTTP walterbright.com, Walter Bright), $(HTTP erdani.com, - Andrei Alexandrescu), and Kenji Hara - - Source: $(PHOBOSSRC std/_format.d) - */ -module undead.doformat; - -//debug=format; // uncomment to turn on debugging printf's - -import core.vararg; -import std.exception; -import std.meta; -import std.range.primitives; -import std.traits; -import std.format; - -version(CRuntime_DigitalMars) -{ - version = DigitalMarsC; -} - -version (DigitalMarsC) -{ - // This is DMC's internal floating point formatting function - extern (C) - { - extern shared char* function(int c, int flags, int precision, - in real* pdval, - char* buf, size_t* psl, int width) __pfloatfmt; - } -} - -/********************************************************************** - * Signals a mismatch between a format and its corresponding argument. - */ -class FormatException : Exception -{ - @safe pure nothrow - this() - { - super("format error"); - } - - @safe pure nothrow - this(string msg, string fn = __FILE__, size_t ln = __LINE__, Throwable next = null) - { - super(msg, fn, ln, next); - } -} - - -// Legacy implementation - -enum Mangle : char -{ - Tvoid = 'v', - Tbool = 'b', - Tbyte = 'g', - Tubyte = 'h', - Tshort = 's', - Tushort = 't', - Tint = 'i', - Tuint = 'k', - Tlong = 'l', - Tulong = 'm', - Tfloat = 'f', - Tdouble = 'd', - Treal = 'e', - - Tifloat = 'o', - Tidouble = 'p', - Tireal = 'j', - Tcfloat = 'q', - Tcdouble = 'r', - Tcreal = 'c', - - Tchar = 'a', - Twchar = 'u', - Tdchar = 'w', - - Tarray = 'A', - Tsarray = 'G', - Taarray = 'H', - Tpointer = 'P', - Tfunction = 'F', - Tident = 'I', - Tclass = 'C', - Tstruct = 'S', - Tenum = 'E', - Ttypedef = 'T', - Tdelegate = 'D', - - Tconst = 'x', - Timmutable = 'y', -} - -// return the TypeInfo for a primitive type and null otherwise. This -// is required since for arrays of ints we only have the mangled char -// to work from. If arrays always subclassed TypeInfo_Array this -// routine could go away. -private TypeInfo primitiveTypeInfo(Mangle m) -{ - // BUG: should fix this in static this() to avoid double checked locking bug - __gshared TypeInfo[Mangle] dic; - if (!dic.length) - { - dic = [ - Mangle.Tvoid : typeid(void), - Mangle.Tbool : typeid(bool), - Mangle.Tbyte : typeid(byte), - Mangle.Tubyte : typeid(ubyte), - Mangle.Tshort : typeid(short), - Mangle.Tushort : typeid(ushort), - Mangle.Tint : typeid(int), - Mangle.Tuint : typeid(uint), - Mangle.Tlong : typeid(long), - Mangle.Tulong : typeid(ulong), - Mangle.Tfloat : typeid(float), - Mangle.Tdouble : typeid(double), - Mangle.Treal : typeid(real), - Mangle.Tifloat : typeid(ifloat), - Mangle.Tidouble : typeid(idouble), - Mangle.Tireal : typeid(ireal), - Mangle.Tcfloat : typeid(cfloat), - Mangle.Tcdouble : typeid(cdouble), - Mangle.Tcreal : typeid(creal), - Mangle.Tchar : typeid(char), - Mangle.Twchar : typeid(wchar), - Mangle.Tdchar : typeid(dchar) - ]; - } - auto p = m in dic; - return p ? *p : null; -} - -// This stuff has been removed from the docs and is planned for deprecation. -/* - * Interprets variadic argument list pointed to by argptr whose types - * are given by arguments[], formats them according to embedded format - * strings in the variadic argument list, and sends the resulting - * characters to putc. - * - * The variadic arguments are consumed in order. Each is formatted - * into a sequence of chars, using the default format specification - * for its type, and the characters are sequentially passed to putc. - * If a $(D char[]), $(D wchar[]), or $(D dchar[]) argument is - * encountered, it is interpreted as a format string. As many - * arguments as specified in the format string are consumed and - * formatted according to the format specifications in that string and - * passed to putc. If there are too few remaining arguments, a - * $(D FormatException) is thrown. If there are more remaining arguments than - * needed by the format specification, the default processing of - * arguments resumes until they are all consumed. - * - * Params: - * putc = Output is sent do this delegate, character by character. - * arguments = Array of $(D TypeInfo)s, one for each argument to be formatted. - * argptr = Points to variadic argument list. - * - * Throws: - * Mismatched arguments and formats result in a $(D FormatException) being thrown. - * - * Format_String: - * $(I Format strings) - * consist of characters interspersed with - * $(I format specifications). Characters are simply copied - * to the output (such as putc) after any necessary conversion - * to the corresponding UTF-8 sequence. - * - * A $(I format specification) starts with a '%' character, - * and has the following grammar: - -$(CONSOLE -$(I FormatSpecification): - $(B '%%') - $(B '%') $(I Flags) $(I Width) $(I Precision) $(I FormatChar) - -$(I Flags): - $(I empty) - $(B '-') $(I Flags) - $(B '+') $(I Flags) - $(B '#') $(I Flags) - $(B '0') $(I Flags) - $(B ' ') $(I Flags) - -$(I Width): - $(I empty) - $(I Integer) - $(B '*') - -$(I Precision): - $(I empty) - $(B '.') - $(B '.') $(I Integer) - $(B '.*') - -$(I Integer): - $(I Digit) - $(I Digit) $(I Integer) - -$(I Digit): - $(B '0') - $(B '1') - $(B '2') - $(B '3') - $(B '4') - $(B '5') - $(B '6') - $(B '7') - $(B '8') - $(B '9') - -$(I FormatChar): - $(B 's') - $(B 'b') - $(B 'd') - $(B 'o') - $(B 'x') - $(B 'X') - $(B 'e') - $(B 'E') - $(B 'f') - $(B 'F') - $(B 'g') - $(B 'G') - $(B 'a') - $(B 'A') -) - $(DL - $(DT $(I Flags)) - $(DL - $(DT $(B '-')) - $(DD - Left justify the result in the field. - It overrides any $(B 0) flag.) - - $(DT $(B '+')) - $(DD Prefix positive numbers in a signed conversion with a $(B +). - It overrides any $(I space) flag.) - - $(DT $(B '#')) - $(DD Use alternative formatting: - $(DL - $(DT For $(B 'o'):) - $(DD Add to precision as necessary so that the first digit - of the octal formatting is a '0', even if both the argument - and the $(I Precision) are zero.) - $(DT For $(B 'x') ($(B 'X')):) - $(DD If non-zero, prefix result with $(B 0x) ($(B 0X)).) - $(DT For floating point formatting:) - $(DD Always insert the decimal point.) - $(DT For $(B 'g') ($(B 'G')):) - $(DD Do not elide trailing zeros.) - )) - - $(DT $(B '0')) - $(DD For integer and floating point formatting when not nan or - infinity, use leading zeros - to pad rather than spaces. - Ignore if there's a $(I Precision).) - - $(DT $(B ' ')) - $(DD Prefix positive numbers in a signed conversion with a space.) - ) - - $(DT $(I Width)) - $(DD - Specifies the minimum field width. - If the width is a $(B *), the next argument, which must be - of type $(B int), is taken as the width. - If the width is negative, it is as if the $(B -) was given - as a $(I Flags) character.) - - $(DT $(I Precision)) - $(DD Gives the precision for numeric conversions. - If the precision is a $(B *), the next argument, which must be - of type $(B int), is taken as the precision. If it is negative, - it is as if there was no $(I Precision).) - - $(DT $(I FormatChar)) - $(DD - $(DL - $(DT $(B 's')) - $(DD The corresponding argument is formatted in a manner consistent - with its type: - $(DL - $(DT $(B bool)) - $(DD The result is 'true' or 'false'.) - $(DT integral types) - $(DD The $(B %d) format is used.) - $(DT floating point types) - $(DD The $(B %g) format is used.) - $(DT string types) - $(DD The result is the string converted to UTF-8.) - A $(I Precision) specifies the maximum number of characters - to use in the result. - $(DT classes derived from $(B Object)) - $(DD The result is the string returned from the class instance's - $(B .toString()) method. - A $(I Precision) specifies the maximum number of characters - to use in the result.) - $(DT non-string static and dynamic arrays) - $(DD The result is [s0, s1, ...] - where sk is the kth element - formatted with the default format.) - )) - - $(DT $(B 'b','d','o','x','X')) - $(DD The corresponding argument must be an integral type - and is formatted as an integer. If the argument is a signed type - and the $(I FormatChar) is $(B d) it is converted to - a signed string of characters, otherwise it is treated as - unsigned. An argument of type $(B bool) is formatted as '1' - or '0'. The base used is binary for $(B b), octal for $(B o), - decimal - for $(B d), and hexadecimal for $(B x) or $(B X). - $(B x) formats using lower case letters, $(B X) uppercase. - If there are fewer resulting digits than the $(I Precision), - leading zeros are used as necessary. - If the $(I Precision) is 0 and the number is 0, no digits - result.) - - $(DT $(B 'e','E')) - $(DD A floating point number is formatted as one digit before - the decimal point, $(I Precision) digits after, the $(I FormatChar), - ±, followed by at least a two digit exponent: $(I d.dddddd)e$(I ±dd). - If there is no $(I Precision), six - digits are generated after the decimal point. - If the $(I Precision) is 0, no decimal point is generated.) - - $(DT $(B 'f','F')) - $(DD A floating point number is formatted in decimal notation. - The $(I Precision) specifies the number of digits generated - after the decimal point. It defaults to six. At least one digit - is generated before the decimal point. If the $(I Precision) - is zero, no decimal point is generated.) - - $(DT $(B 'g','G')) - $(DD A floating point number is formatted in either $(B e) or - $(B f) format for $(B g); $(B E) or $(B F) format for - $(B G). - The $(B f) format is used if the exponent for an $(B e) format - is greater than -5 and less than the $(I Precision). - The $(I Precision) specifies the number of significant - digits, and defaults to six. - Trailing zeros are elided after the decimal point, if the fractional - part is zero then no decimal point is generated.) - - $(DT $(B 'a','A')) - $(DD A floating point number is formatted in hexadecimal - exponential notation 0x$(I h.hhhhhh)p$(I ±d). - There is one hexadecimal digit before the decimal point, and as - many after as specified by the $(I Precision). - If the $(I Precision) is zero, no decimal point is generated. - If there is no $(I Precision), as many hexadecimal digits as - necessary to exactly represent the mantissa are generated. - The exponent is written in as few digits as possible, - but at least one, is in decimal, and represents a power of 2 as in - $(I h.hhhhhh)*2$(I ±d). - The exponent for zero is zero. - The hexadecimal digits, x and p are in upper case if the - $(I FormatChar) is upper case.) - ) - - Floating point NaN's are formatted as $(B nan) if the - $(I FormatChar) is lower case, or $(B NAN) if upper. - Floating point infinities are formatted as $(B inf) or - $(B infinity) if the - $(I FormatChar) is lower case, or $(B INF) or $(B INFINITY) if upper. - )) - -Example: - -------------------------- -import core.stdc.stdio; -import std.format; - -void myPrint(...) -{ - void putc(dchar c) - { - fputc(c, stdout); - } - - std.format.doFormat(&putc, _arguments, _argptr); -} - -void main() -{ - int x = 27; - - // prints 'The answer is 27:6' - myPrint("The answer is %s:", x, 6); -} ------------------------- - */ -void doFormat()(scope void delegate(dchar) putc, TypeInfo[] arguments, va_list ap) -{ - import std.utf : toUCSindex, isValidDchar, UTFException, toUTF8; - import core.stdc.string : strlen; - import core.stdc.stdlib : alloca, malloc, realloc, free; - import core.stdc.stdio : snprintf; - - size_t bufLength = 1024; - void* argBuffer = malloc(bufLength); - scope(exit) free(argBuffer); - - size_t bufUsed = 0; - foreach (ti; arguments) - { - // Ensure the required alignment - bufUsed += ti.talign - 1; - bufUsed -= (cast(size_t)argBuffer + bufUsed) & (ti.talign - 1); - auto pos = bufUsed; - // Align to next word boundary - bufUsed += ti.tsize + size_t.sizeof - 1; - bufUsed -= (cast(size_t)argBuffer + bufUsed) & (size_t.sizeof - 1); - // Resize buffer if necessary - while (bufUsed > bufLength) - { - bufLength *= 2; - argBuffer = realloc(argBuffer, bufLength); - } - // Copy argument into buffer - va_arg(ap, ti, argBuffer + pos); - } - - auto argptr = argBuffer; - void* skipArg(TypeInfo ti) - { - // Ensure the required alignment - argptr += ti.talign - 1; - argptr -= cast(size_t)argptr & (ti.talign - 1); - auto p = argptr; - // Align to next word boundary - argptr += ti.tsize + size_t.sizeof - 1; - argptr -= cast(size_t)argptr & (size_t.sizeof - 1); - return p; - } - auto getArg(T)() - { - return *cast(T*)skipArg(typeid(T)); - } - - TypeInfo ti; - Mangle m; - uint flags; - int field_width; - int precision; - - enum : uint - { - FLdash = 1, - FLplus = 2, - FLspace = 4, - FLhash = 8, - FLlngdbl = 0x20, - FL0pad = 0x40, - FLprecision = 0x80, - } - - static TypeInfo skipCI(TypeInfo valti) - { - for (;;) - { - if (typeid(valti).name.length == 18 && - typeid(valti).name[9..18] == "Invariant") - valti = (cast(TypeInfo_Invariant)valti).base; - else if (typeid(valti).name.length == 14 && - typeid(valti).name[9..14] == "Const") - valti = (cast(TypeInfo_Const)valti).base; - else - break; - } - - return valti; - } - - void formatArg(char fc) - { - bool vbit; - ulong vnumber; - char vchar; - dchar vdchar; - Object vobject; - real vreal; - creal vcreal; - Mangle m2; - int signed = 0; - uint base = 10; - int uc; - char[ulong.sizeof * 8] tmpbuf; // long enough to print long in binary - const(char)* prefix = ""; - string s; - - void putstr(const char[] s) - { - //printf("putstr: s = %.*s, flags = x%x\n", s.length, s.ptr, flags); - ptrdiff_t padding = field_width - - (strlen(prefix) + toUCSindex(s, s.length)); - ptrdiff_t prepad = 0; - ptrdiff_t postpad = 0; - if (padding > 0) - { - if (flags & FLdash) - postpad = padding; - else - prepad = padding; - } - - if (flags & FL0pad) - { - while (*prefix) - putc(*prefix++); - while (prepad--) - putc('0'); - } - else - { - while (prepad--) - putc(' '); - while (*prefix) - putc(*prefix++); - } - - foreach (dchar c; s) - putc(c); - - while (postpad--) - putc(' '); - } - - void putreal(real v) - { - //printf("putreal %Lg\n", vreal); - - switch (fc) - { - case 's': - fc = 'g'; - break; - - case 'f', 'F', 'e', 'E', 'g', 'G', 'a', 'A': - break; - - default: - //printf("fc = '%c'\n", fc); - Lerror: - throw new FormatException("incompatible format character for floating point type"); - } - version (DigitalMarsC) - { - uint sl; - char[] fbuf = tmpbuf; - if (!(flags & FLprecision)) - precision = 6; - while (1) - { - sl = fbuf.length; - prefix = (*__pfloatfmt)(fc, flags | FLlngdbl, - precision, &v, cast(char*)fbuf, &sl, field_width); - if (sl != -1) - break; - sl = fbuf.length * 2; - fbuf = (cast(char*)alloca(sl * char.sizeof))[0 .. sl]; - } - putstr(fbuf[0 .. sl]); - } - else - { - ptrdiff_t sl; - char[] fbuf = tmpbuf; - char[12] format; - format[0] = '%'; - int i = 1; - if (flags & FLdash) - format[i++] = '-'; - if (flags & FLplus) - format[i++] = '+'; - if (flags & FLspace) - format[i++] = ' '; - if (flags & FLhash) - format[i++] = '#'; - if (flags & FL0pad) - format[i++] = '0'; - format[i + 0] = '*'; - format[i + 1] = '.'; - format[i + 2] = '*'; - format[i + 3] = 'L'; - format[i + 4] = fc; - format[i + 5] = 0; - if (!(flags & FLprecision)) - precision = -1; - while (1) - { - sl = fbuf.length; - int n; - version (CRuntime_Microsoft) - { - import std.math : isNaN, isInfinity; - if (isNaN(v)) // snprintf writes 1.#QNAN - n = snprintf(fbuf.ptr, sl, "nan"); - else if (isInfinity(v)) // snprintf writes 1.#INF - n = snprintf(fbuf.ptr, sl, v < 0 ? "-inf" : "inf"); - else - n = snprintf(fbuf.ptr, sl, format.ptr, field_width, - precision, cast(double)v); - } - else - n = snprintf(fbuf.ptr, sl, format.ptr, field_width, - precision, v); - //printf("format = '%s', n = %d\n", cast(char*)format, n); - if (n >= 0 && n < sl) - { sl = n; - break; - } - if (n < 0) - sl = sl * 2; - else - sl = n + 1; - fbuf = (cast(char*)alloca(sl * char.sizeof))[0 .. sl]; - } - putstr(fbuf[0 .. sl]); - } - return; - } - - static Mangle getMan(TypeInfo ti) - { - auto m = cast(Mangle)typeid(ti).name[9]; - if (typeid(ti).name.length == 20 && - typeid(ti).name[9..20] == "StaticArray") - m = cast(Mangle)'G'; - return m; - } - - /* p = pointer to the first element in the array - * len = number of elements in the array - * valti = type of the elements - */ - void putArray(void* p, size_t len, TypeInfo valti) - { - //printf("\nputArray(len = %u), tsize = %u\n", len, valti.tsize); - putc('['); - valti = skipCI(valti); - size_t tsize = valti.tsize; - auto argptrSave = argptr; - auto tiSave = ti; - auto mSave = m; - ti = valti; - //printf("\n%.*s\n", typeid(valti).name.length, typeid(valti).name.ptr); - m = getMan(valti); - while (len--) - { - //doFormat(putc, (&valti)[0 .. 1], p); - argptr = p; - formatArg('s'); - p += tsize; - if (len > 0) putc(','); - } - m = mSave; - ti = tiSave; - argptr = argptrSave; - putc(']'); - } - - void putAArray(ubyte[long] vaa, TypeInfo valti, TypeInfo keyti) - { - putc('['); - bool comma=false; - auto argptrSave = argptr; - auto tiSave = ti; - auto mSave = m; - valti = skipCI(valti); - keyti = skipCI(keyti); - foreach (ref fakevalue; vaa) - { - if (comma) putc(','); - comma = true; - void *pkey = &fakevalue; - version (D_LP64) - pkey -= (long.sizeof + 15) & ~(15); - else - pkey -= (long.sizeof + size_t.sizeof - 1) & ~(size_t.sizeof - 1); - - // the key comes before the value - auto keysize = keyti.tsize; - version (D_LP64) - auto keysizet = (keysize + 15) & ~(15); - else - auto keysizet = (keysize + size_t.sizeof - 1) & ~(size_t.sizeof - 1); - - void* pvalue = pkey + keysizet; - - //doFormat(putc, (&keyti)[0..1], pkey); - m = getMan(keyti); - argptr = pkey; - - ti = keyti; - formatArg('s'); - - putc(':'); - //doFormat(putc, (&valti)[0..1], pvalue); - m = getMan(valti); - argptr = pvalue; - - ti = valti; - formatArg('s'); - } - m = mSave; - ti = tiSave; - argptr = argptrSave; - putc(']'); - } - - //printf("formatArg(fc = '%c', m = '%c')\n", fc, m); - int mi; - switch (m) - { - case Mangle.Tbool: - vbit = getArg!(bool)(); - if (fc != 's') - { vnumber = vbit; - goto Lnumber; - } - putstr(vbit ? "true" : "false"); - return; - - case Mangle.Tchar: - vchar = getArg!(char)(); - if (fc != 's') - { vnumber = vchar; - goto Lnumber; - } - L2: - putstr((&vchar)[0 .. 1]); - return; - - case Mangle.Twchar: - vdchar = getArg!(wchar)(); - goto L1; - - case Mangle.Tdchar: - vdchar = getArg!(dchar)(); - L1: - if (fc != 's') - { vnumber = vdchar; - goto Lnumber; - } - if (vdchar <= 0x7F) - { vchar = cast(char)vdchar; - goto L2; - } - else - { if (!isValidDchar(vdchar)) - throw new UTFException("invalid dchar in format"); - char[4] vbuf; - putstr(toUTF8(vbuf, vdchar)); - } - return; - - case Mangle.Tbyte: - signed = 1; - vnumber = getArg!(byte)(); - goto Lnumber; - - case Mangle.Tubyte: - vnumber = getArg!(ubyte)(); - goto Lnumber; - - case Mangle.Tshort: - signed = 1; - vnumber = getArg!(short)(); - goto Lnumber; - - case Mangle.Tushort: - vnumber = getArg!(ushort)(); - goto Lnumber; - - case Mangle.Tint: - signed = 1; - vnumber = getArg!(int)(); - goto Lnumber; - - case Mangle.Tuint: - Luint: - vnumber = getArg!(uint)(); - goto Lnumber; - - case Mangle.Tlong: - signed = 1; - vnumber = cast(ulong)getArg!(long)(); - goto Lnumber; - - case Mangle.Tulong: - Lulong: - vnumber = getArg!(ulong)(); - goto Lnumber; - - case Mangle.Tclass: - vobject = getArg!(Object)(); - if (vobject is null) - s = "null"; - else - s = vobject.toString(); - goto Lputstr; - - case Mangle.Tpointer: - vnumber = cast(ulong)getArg!(void*)(); - if (fc != 'x') uc = 1; - flags |= FL0pad; - if (!(flags & FLprecision)) - { flags |= FLprecision; - precision = (void*).sizeof; - } - base = 16; - goto Lnumber; - - case Mangle.Tfloat: - case Mangle.Tifloat: - if (fc == 'x' || fc == 'X') - goto Luint; - vreal = getArg!(float)(); - goto Lreal; - - case Mangle.Tdouble: - case Mangle.Tidouble: - if (fc == 'x' || fc == 'X') - goto Lulong; - vreal = getArg!(double)(); - goto Lreal; - - case Mangle.Treal: - case Mangle.Tireal: - vreal = getArg!(real)(); - goto Lreal; - - case Mangle.Tcfloat: - vcreal = getArg!(cfloat)(); - goto Lcomplex; - - case Mangle.Tcdouble: - vcreal = getArg!(cdouble)(); - goto Lcomplex; - - case Mangle.Tcreal: - vcreal = getArg!(creal)(); - goto Lcomplex; - - case Mangle.Tsarray: - putArray(argptr, (cast(TypeInfo_StaticArray)ti).len, (cast(TypeInfo_StaticArray)ti).next); - return; - - case Mangle.Tarray: - mi = 10; - if (typeid(ti).name.length == 14 && - typeid(ti).name[9..14] == "Array") - { // array of non-primitive types - TypeInfo tn = (cast(TypeInfo_Array)ti).next; - tn = skipCI(tn); - switch (cast(Mangle)typeid(tn).name[9]) - { - case Mangle.Tchar: goto LarrayChar; - case Mangle.Twchar: goto LarrayWchar; - case Mangle.Tdchar: goto LarrayDchar; - default: - break; - } - void[] va = getArg!(void[])(); - putArray(va.ptr, va.length, tn); - return; - } - if (typeid(ti).name.length == 25 && - typeid(ti).name[9..25] == "AssociativeArray") - { // associative array - ubyte[long] vaa = getArg!(ubyte[long])(); - putAArray(vaa, - (cast(TypeInfo_AssociativeArray)ti).next, - (cast(TypeInfo_AssociativeArray)ti).key); - return; - } - - while (1) - { - m2 = cast(Mangle)typeid(ti).name[mi]; - switch (m2) - { - case Mangle.Tchar: - LarrayChar: - s = getArg!(string)(); - goto Lputstr; - - case Mangle.Twchar: - LarrayWchar: - wchar[] sw = getArg!(wchar[])(); - s = toUTF8(sw); - goto Lputstr; - - case Mangle.Tdchar: - LarrayDchar: - s = toUTF8(getArg!(dstring)()); - Lputstr: - if (fc != 's') - throw new FormatException("string"); - if (flags & FLprecision && precision < s.length) - s = s[0 .. precision]; - putstr(s); - break; - - case Mangle.Tconst: - case Mangle.Timmutable: - mi++; - continue; - - default: - TypeInfo ti2 = primitiveTypeInfo(m2); - if (!ti2) - goto Lerror; - void[] va = getArg!(void[])(); - putArray(va.ptr, va.length, ti2); - } - return; - } - assert(0); - - case Mangle.Ttypedef: - ti = (cast(TypeInfo_Typedef)ti).base; - m = cast(Mangle)typeid(ti).name[9]; - formatArg(fc); - return; - - case Mangle.Tenum: - ti = (cast(TypeInfo_Enum)ti).base; - m = cast(Mangle)typeid(ti).name[9]; - formatArg(fc); - return; - - case Mangle.Tstruct: - { TypeInfo_Struct tis = cast(TypeInfo_Struct)ti; - if (tis.xtoString is null) - throw new FormatException("Can't convert " ~ tis.toString() - ~ " to string: \"string toString()\" not defined"); - s = tis.xtoString(skipArg(tis)); - goto Lputstr; - } - - default: - goto Lerror; - } - - Lnumber: - switch (fc) - { - case 's': - case 'd': - if (signed) - { if (cast(long)vnumber < 0) - { prefix = "-"; - vnumber = -vnumber; - } - else if (flags & FLplus) - prefix = "+"; - else if (flags & FLspace) - prefix = " "; - } - break; - - case 'b': - signed = 0; - base = 2; - break; - - case 'o': - signed = 0; - base = 8; - break; - - case 'X': - uc = 1; - if (flags & FLhash && vnumber) - prefix = "0X"; - signed = 0; - base = 16; - break; - - case 'x': - if (flags & FLhash && vnumber) - prefix = "0x"; - signed = 0; - base = 16; - break; - - default: - goto Lerror; - } - - if (!signed) - { - switch (m) - { - case Mangle.Tbyte: - vnumber &= 0xFF; - break; - - case Mangle.Tshort: - vnumber &= 0xFFFF; - break; - - case Mangle.Tint: - vnumber &= 0xFFFFFFFF; - break; - - default: - break; - } - } - - if (flags & FLprecision && fc != 'p') - flags &= ~FL0pad; - - if (vnumber < base) - { - if (vnumber == 0 && precision == 0 && flags & FLprecision && - !(fc == 'o' && flags & FLhash)) - { - putstr(null); - return; - } - if (precision == 0 || !(flags & FLprecision)) - { vchar = cast(char)('0' + vnumber); - if (vnumber < 10) - vchar = cast(char)('0' + vnumber); - else - vchar = cast(char)((uc ? 'A' - 10 : 'a' - 10) + vnumber); - goto L2; - } - } - - { - ptrdiff_t n = tmpbuf.length; - char c; - int hexoffset = uc ? ('A' - ('9' + 1)) : ('a' - ('9' + 1)); - - while (vnumber) - { - c = cast(char)((vnumber % base) + '0'); - if (c > '9') - c += hexoffset; - vnumber /= base; - tmpbuf[--n] = c; - } - if (tmpbuf.length - n < precision && precision < tmpbuf.length) - { - ptrdiff_t m = tmpbuf.length - precision; - tmpbuf[m .. n] = '0'; - n = m; - } - else if (flags & FLhash && fc == 'o') - prefix = "0"; - putstr(tmpbuf[n .. tmpbuf.length]); - return; - } - - Lreal: - putreal(vreal); - return; - - Lcomplex: - putreal(vcreal.re); - if (vcreal.im >= 0) - { - putc('+'); - } - putreal(vcreal.im); - putc('i'); - return; - - Lerror: - throw new FormatException("formatArg"); - } - - for (int j = 0; j < arguments.length; ) - { - ti = arguments[j++]; - //printf("arg[%d]: '%.*s' %d\n", j, typeid(ti).name.length, typeid(ti).name.ptr, typeid(ti).name.length); - //ti.print(); - - flags = 0; - precision = 0; - field_width = 0; - - ti = skipCI(ti); - int mi = 9; - do - { - if (typeid(ti).name.length <= mi) - goto Lerror; - m = cast(Mangle)typeid(ti).name[mi++]; - } while (m == Mangle.Tconst || m == Mangle.Timmutable); - - if (m == Mangle.Tarray) - { - if (typeid(ti).name.length == 14 && - typeid(ti).name[9..14] == "Array") - { - TypeInfo tn = (cast(TypeInfo_Array)ti).next; - tn = skipCI(tn); - switch (cast(Mangle)typeid(tn).name[9]) - { - case Mangle.Tchar: - case Mangle.Twchar: - case Mangle.Tdchar: - ti = tn; - mi = 9; - break; - default: - break; - } - } - L1: - Mangle m2 = cast(Mangle)typeid(ti).name[mi]; - string fmt; // format string - wstring wfmt; - dstring dfmt; - - /* For performance reasons, this code takes advantage of the - * fact that most format strings will be ASCII, and that the - * format specifiers are always ASCII. This means we only need - * to deal with UTF in a couple of isolated spots. - */ - - switch (m2) - { - case Mangle.Tchar: - fmt = getArg!(string)(); - break; - - case Mangle.Twchar: - wfmt = getArg!(wstring)(); - fmt = toUTF8(wfmt); - break; - - case Mangle.Tdchar: - dfmt = getArg!(dstring)(); - fmt = toUTF8(dfmt); - break; - - case Mangle.Tconst: - case Mangle.Timmutable: - mi++; - goto L1; - - default: - formatArg('s'); - continue; - } - - for (size_t i = 0; i < fmt.length; ) - { dchar c = fmt[i++]; - - dchar getFmtChar() - { // Valid format specifier characters will never be UTF - if (i == fmt.length) - throw new FormatException("invalid specifier"); - return fmt[i++]; - } - - int getFmtInt() - { int n; - - while (1) - { - n = n * 10 + (c - '0'); - if (n < 0) // overflow - throw new FormatException("int overflow"); - c = getFmtChar(); - if (c < '0' || c > '9') - break; - } - return n; - } - - int getFmtStar() - { Mangle m; - TypeInfo ti; - - if (j == arguments.length) - throw new FormatException("too few arguments"); - ti = arguments[j++]; - m = cast(Mangle)typeid(ti).name[9]; - if (m != Mangle.Tint) - throw new FormatException("int argument expected"); - return getArg!(int)(); - } - - if (c != '%') - { - if (c > 0x7F) // if UTF sequence - { - i--; // back up and decode UTF sequence - import std.utf : decode; - c = decode(fmt, i); - } - Lputc: - putc(c); - continue; - } - - // Get flags {-+ #} - flags = 0; - while (1) - { - c = getFmtChar(); - switch (c) - { - case '-': flags |= FLdash; continue; - case '+': flags |= FLplus; continue; - case ' ': flags |= FLspace; continue; - case '#': flags |= FLhash; continue; - case '0': flags |= FL0pad; continue; - - case '%': if (flags == 0) - goto Lputc; - break; - - default: break; - } - break; - } - - // Get field width - field_width = 0; - if (c == '*') - { - field_width = getFmtStar(); - if (field_width < 0) - { flags |= FLdash; - field_width = -field_width; - } - - c = getFmtChar(); - } - else if (c >= '0' && c <= '9') - field_width = getFmtInt(); - - if (flags & FLplus) - flags &= ~FLspace; - if (flags & FLdash) - flags &= ~FL0pad; - - // Get precision - precision = 0; - if (c == '.') - { flags |= FLprecision; - //flags &= ~FL0pad; - - c = getFmtChar(); - if (c == '*') - { - precision = getFmtStar(); - if (precision < 0) - { precision = 0; - flags &= ~FLprecision; - } - - c = getFmtChar(); - } - else if (c >= '0' && c <= '9') - precision = getFmtInt(); - } - - if (j == arguments.length) - goto Lerror; - ti = arguments[j++]; - ti = skipCI(ti); - mi = 9; - do - { - m = cast(Mangle)typeid(ti).name[mi++]; - } while (m == Mangle.Tconst || m == Mangle.Timmutable); - - if (c > 0x7F) // if UTF sequence - goto Lerror; // format specifiers can't be UTF - formatArg(cast(char)c); - } - } - else - { - formatArg('s'); - } - } - return; - - Lerror: - throw new FormatException(); -} - - -private bool needToSwapEndianess(Char)(ref FormatSpec!Char f) -{ - import std.system : endian, Endian; - - return endian == Endian.littleEndian && f.flPlus - || endian == Endian.bigEndian && f.flDash; -} - -/* ======================== Unit Tests ====================================== */ - -unittest -{ - import std.conv : octal; - - int i; - string s; - - debug(format) printf("std.format.format.unittest\n"); - - s = format("hello world! %s %s %s%s%s", true, 57, 1_000_000_000, 'x', " foo"); - assert(s == "hello world! true 57 1000000000x foo"); - - s = format("%s %A %s", 1.67, -1.28, float.nan); - /* The host C library is used to format floats. - * C99 doesn't specify what the hex digit before the decimal point - * is for %A. - */ - //version (linux) - // assert(s == "1.67 -0XA.3D70A3D70A3D8P-3 nan"); - //else version (OSX) - // assert(s == "1.67 -0XA.3D70A3D70A3D8P-3 nan", s); - //else - version (MinGW) - assert(s == "1.67 -0XA.3D70A3D70A3D8P-3 nan", s); - else version (CRuntime_Microsoft) - assert(s == "1.67 -0X1.47AE14P+0 nan" - || s == "1.67 -0X1.47AE147AE147BP+0 nan", s); // MSVCRT 14+ (VS 2015) - else - assert(s == "1.67 -0X1.47AE147AE147BP+0 nan", s); - - s = format("%x %X", 0x1234AF, 0xAFAFAFAF); - assert(s == "1234af AFAFAFAF"); - - s = format("%b %o", 0x1234AF, 0xAFAFAFAF); - assert(s == "100100011010010101111 25753727657"); - - s = format("%d %s", 0x1234AF, 0xAFAFAFAF); - assert(s == "1193135 2947526575"); - - //version(X86_64) - //{ - // pragma(msg, "several format tests disabled on x86_64 due to bug 5625"); - //} - //else - //{ - s = format("%s", 1.2 + 3.4i); - assert(s == "1.2+3.4i", s); - - //s = format("%x %X", 1.32, 6.78f); - //assert(s == "3ff51eb851eb851f 40D8F5C3"); - - //} - - s = format("%#06.*f",2,12.345); - assert(s == "012.35"); - - s = format("%#0*.*f",6,2,12.345); - assert(s == "012.35"); - - s = format("%7.4g:", 12.678); - assert(s == " 12.68:"); - - s = format("%7.4g:", 12.678L); - assert(s == " 12.68:"); - - s = format("%04f|%05d|%#05x|%#5x",-4.0,-10,1,1); - assert(s == "-4.000000|-0010|0x001| 0x1"); - - i = -10; - s = format("%d|%3d|%03d|%1d|%01.4f",i,i,i,i,cast(double) i); - assert(s == "-10|-10|-10|-10|-10.0000"); - - i = -5; - s = format("%d|%3d|%03d|%1d|%01.4f",i,i,i,i,cast(double) i); - assert(s == "-5| -5|-05|-5|-5.0000"); - - i = 0; - s = format("%d|%3d|%03d|%1d|%01.4f",i,i,i,i,cast(double) i); - assert(s == "0| 0|000|0|0.0000"); - - i = 5; - s = format("%d|%3d|%03d|%1d|%01.4f",i,i,i,i,cast(double) i); - assert(s == "5| 5|005|5|5.0000"); - - i = 10; - s = format("%d|%3d|%03d|%1d|%01.4f",i,i,i,i,cast(double) i); - assert(s == "10| 10|010|10|10.0000"); - - s = format("%.0d", 0); - assert(s == ""); - - s = format("%.g", .34); - assert(s == "0.3"); - - s = format("%.0g", .34); - assert(s == "0.3"); - - s = format("%.2g", .34); - assert(s == "0.34"); - - s = format("%0.0008f", 1e-08); - assert(s == "0.00000001"); - - s = format("%0.0008f", 1e-05); - assert(s == "0.00001000"); - - s = "helloworld"; - string r; - r = format("%.2s", s[0..5]); - assert(r == "he"); - r = format("%.20s", s[0..5]); - assert(r == "hello"); - r = format("%8s", s[0..5]); - assert(r == " hello"); - - byte[] arrbyte = new byte[4]; - arrbyte[0] = 100; - arrbyte[1] = -99; - arrbyte[3] = 0; - r = format("%s", arrbyte); - assert(r == "[100, -99, 0, 0]"); - - ubyte[] arrubyte = new ubyte[4]; - arrubyte[0] = 100; - arrubyte[1] = 200; - arrubyte[3] = 0; - r = format("%s", arrubyte); - assert(r == "[100, 200, 0, 0]"); - - short[] arrshort = new short[4]; - arrshort[0] = 100; - arrshort[1] = -999; - arrshort[3] = 0; - r = format("%s", arrshort); - assert(r == "[100, -999, 0, 0]"); - - ushort[] arrushort = new ushort[4]; - arrushort[0] = 100; - arrushort[1] = 20_000; - arrushort[3] = 0; - r = format("%s", arrushort); - assert(r == "[100, 20000, 0, 0]"); - - int[] arrint = new int[4]; - arrint[0] = 100; - arrint[1] = -999; - arrint[3] = 0; - r = format("%s", arrint); - assert(r == "[100, -999, 0, 0]"); - - long[] arrlong = new long[4]; - arrlong[0] = 100; - arrlong[1] = -999; - arrlong[3] = 0; - r = format("%s", arrlong); - assert(r == "[100, -999, 0, 0]"); - - ulong[] arrulong = new ulong[4]; - arrulong[0] = 100; - arrulong[1] = 999; - arrulong[3] = 0; - r = format("%s", arrulong); - assert(r == "[100, 999, 0, 0]"); - - string[] arr2 = new string[4]; - arr2[0] = "hello"; - arr2[1] = "world"; - arr2[3] = "foo"; - r = format("%s", arr2); - assert(r == `["hello", "world", "", "foo"]`); - - r = format("%.8d", 7); - assert(r == "00000007"); - r = format("%.8x", 10); - assert(r == "0000000a"); - - r = format("%-3d", 7); - assert(r == "7 "); - - r = format("%*d", -3, 7); - assert(r == "7 "); - - r = format("%.*d", -3, 7); - assert(r == "7"); - - r = format("abc"c); - assert(r == "abc"); - - //format() returns the same type as inputted. - wstring wr; - wr = format("def"w); - assert(wr == "def"w); - - dstring dr; - dr = format("ghi"d); - assert(dr == "ghi"d); - - void* p = cast(void*)0xDEADBEEF; - r = format("%s", p); - assert(r == "DEADBEEF"); - - r = format("%#x", 0xabcd); - assert(r == "0xabcd"); - r = format("%#X", 0xABCD); - assert(r == "0XABCD"); - - r = format("%#o", octal!12345); - assert(r == "012345"); - r = format("%o", 9); - assert(r == "11"); - r = format("%#o", 0); // issue 15663 - assert(r == "0"); - - r = format("%+d", 123); - assert(r == "+123"); - r = format("%+d", -123); - assert(r == "-123"); - r = format("% d", 123); - assert(r == " 123"); - r = format("% d", -123); - assert(r == "-123"); - - r = format("%%"); - assert(r == "%"); - - r = format("%d", true); - assert(r == "1"); - r = format("%d", false); - assert(r == "0"); - - r = format("%d", 'a'); - assert(r == "97"); - wchar wc = 'a'; - r = format("%d", wc); - assert(r == "97"); - dchar dc = 'a'; - r = format("%d", dc); - assert(r == "97"); - - byte b = byte.max; - r = format("%x", b); - assert(r == "7f"); - r = format("%x", ++b); - assert(r == "80"); - r = format("%x", ++b); - assert(r == "81"); - - short sh = short.max; - r = format("%x", sh); - assert(r == "7fff"); - r = format("%x", ++sh); - assert(r == "8000"); - r = format("%x", ++sh); - assert(r == "8001"); - - i = int.max; - r = format("%x", i); - assert(r == "7fffffff"); - r = format("%x", ++i); - assert(r == "80000000"); - r = format("%x", ++i); - assert(r == "80000001"); - - r = format("%x", 10); - assert(r == "a"); - r = format("%X", 10); - assert(r == "A"); - r = format("%x", 15); - assert(r == "f"); - r = format("%X", 15); - assert(r == "F"); - - Object c = null; - r = format("%s", c); - assert(r == "null"); - - enum TestEnum - { - Value1, Value2 - } - r = format("%s", TestEnum.Value2); - assert(r == "Value2"); - - immutable(char[5])[int] aa = ([3:"hello", 4:"betty"]); - r = format("%s", aa.values); - assert(r == `["hello", "betty"]` || r == `["betty", "hello"]`); - r = format("%s", aa); - assert(r == `[3:"hello", 4:"betty"]` || r == `[4:"betty", 3:"hello"]`); - - static const dchar[] ds = ['a','b']; - for (int j = 0; j < ds.length; ++j) - { - r = format(" %d", ds[j]); - if (j == 0) - assert(r == " 97"); - else - assert(r == " 98"); - } - - r = format(">%14d<, %s", 15, [1,2,3]); - assert(r == "> 15<, [1, 2, 3]"); - - assert(format("%8s", "bar") == " bar"); - assert(format("%8s", "b\u00e9ll\u00f4") == " b\u00e9ll\u00f4"); -} diff --git a/src/undead/internal/file.d b/src/undead/internal/file.d deleted file mode 100644 index f756674..0000000 --- a/src/undead/internal/file.d +++ /dev/null @@ -1,25 +0,0 @@ -// Written in the D programming language - -module undead.internal.file; - -// Copied from std.file. undead doesn't have access to it, but some modules -// in undead used std.file.deleteme when they were in Phobos, so this gives -// them access to a version of it. -public @property string deleteme() @safe -{ - import std.conv : to; - import std.file : tempDir; - import std.path : buildPath; - import std.process : thisProcessID; - static _deleteme = "deleteme.dmd.unittest.pid"; - static _first = true; - - if(_first) - { - _deleteme = buildPath(tempDir(), _deleteme) ~ to!string(thisProcessID); - _first = false; - } - - return _deleteme; -} - diff --git a/src/undead/stream.d b/src/undead/stream.d deleted file mode 100644 index dc81b7f..0000000 --- a/src/undead/stream.d +++ /dev/null @@ -1,3076 +0,0 @@ -// Written in the D programming language - -/** - * $(RED Deprecated: This module is considered out-dated and not up to Phobos' - * current standards.) - * - * Source: $(PHOBOSSRC std/_stream.d) - * Macros: - * WIKI = Phobos/StdStream - */ - -/* - * Copyright (c) 2001-2005 - * Pavel "EvilOne" Minayev - * with buffering and endian support added by Ben Hinkle - * with buffered readLine performance improvements by Dave Fladebo - * with opApply inspired by (and mostly copied from) Regan Heath - * with bug fixes and MemoryStream/SliceStream enhancements by Derick Eddington - * - * Permission to use, copy, modify, distribute and sell this software - * and its documentation for any purpose is hereby granted without fee, - * provided that the above copyright notice appear in all copies and - * that both that copyright notice and this permission notice appear - * in supporting documentation. Author makes no representations about - * the suitability of this software for any purpose. It is provided - * "as is" without express or implied warranty. - */ -module undead.stream; - -import std.internal.cstring; - -/* Class structure: - * InputStream interface for reading - * OutputStream interface for writing - * Stream abstract base of stream implementations - * File an OS file stream - * FilterStream a base-class for wrappers around another stream - * BufferedStream a buffered stream wrapping another stream - * BufferedFile a buffered File - * EndianStream a wrapper stream for swapping byte order and BOMs - * SliceStream a portion of another stream - * MemoryStream a stream entirely stored in main memory - * TArrayStream a stream wrapping an array-like buffer - */ - -/// A base class for stream exceptions. -class StreamException: Exception { - /// Construct a StreamException with given error message. - this(string msg) { super(msg); } -} - -/// Thrown when unable to read data from Stream. -class ReadException: StreamException { - /// Construct a ReadException with given error message. - this(string msg) { super(msg); } -} - -/// Thrown when unable to write data to Stream. -class WriteException: StreamException { - /// Construct a WriteException with given error message. - this(string msg) { super(msg); } -} - -/// Thrown when unable to move Stream pointer. -class SeekException: StreamException { - /// Construct a SeekException with given error message. - this(string msg) { super(msg); } -} - -// seek whence... -enum SeekPos { - Set, - Current, - End -} - -private { - import std.conv; - import std.algorithm; - import std.ascii; - //import std.format; - import std.system; // for Endian enumeration - import std.utf; - import core.bitop; // for bswap - import core.vararg; - import std.file; - import undead.internal.file; - import undead.doformat; -} - -/// InputStream is the interface for readable streams. - -interface InputStream { - - /*** - * Read exactly size bytes into the buffer. - * - * Throws a ReadException if it is not correct. - */ - void readExact(void* buffer, size_t size); - - /*** - * Read a block of data big enough to fill the given array buffer. - * - * Returns: the actual number of bytes read. Unfilled bytes are not modified. - */ - size_t read(ubyte[] buffer); - - /*** - * Read a basic type or counted string. - * - * Throw a ReadException if it could not be read. - * Outside of byte, ubyte, and char, the format is - * implementation-specific and should not be used except as opposite actions - * to write. - */ - void read(out byte x); - void read(out ubyte x); /// ditto - void read(out short x); /// ditto - void read(out ushort x); /// ditto - void read(out int x); /// ditto - void read(out uint x); /// ditto - void read(out long x); /// ditto - void read(out ulong x); /// ditto - void read(out float x); /// ditto - void read(out double x); /// ditto - void read(out real x); /// ditto - void read(out ifloat x); /// ditto - void read(out idouble x); /// ditto - void read(out ireal x); /// ditto - void read(out cfloat x); /// ditto - void read(out cdouble x); /// ditto - void read(out creal x); /// ditto - void read(out char x); /// ditto - void read(out wchar x); /// ditto - void read(out dchar x); /// ditto - - // reads a string, written earlier by write() - void read(out char[] s); /// ditto - - // reads a Unicode string, written earlier by write() - void read(out wchar[] s); /// ditto - - /*** - * Read a line that is terminated with some combination of carriage return and - * line feed or end-of-file. - * - * The terminators are not included. The wchar version - * is identical. The optional buffer parameter is filled (reallocating - * it if necessary) and a slice of the result is returned. - */ - char[] readLine(); - char[] readLine(char[] result); /// ditto - wchar[] readLineW(); /// ditto - wchar[] readLineW(wchar[] result); /// ditto - - /*** - * Overload foreach statements to read the stream line by line and call the - * supplied delegate with each line or with each line with line number. - * - * The string passed in line may be reused between calls to the delegate. - * Line numbering starts at 1. - * Breaking out of the foreach will leave the stream - * position at the beginning of the next line to be read. - * For example, to echo a file line-by-line with line numbers run: - * ------------------------------------ - * Stream file = new BufferedFile("sample.txt"); - * foreach(ulong n, char[] line; file) - * { - * writefln("line %d: %s", n, line); - * } - * file.close(); - * ------------------------------------ - */ - - // iterate through the stream line-by-line - int opApply(scope int delegate(ref char[] line) dg); - int opApply(scope int delegate(ref ulong n, ref char[] line) dg); /// ditto - int opApply(scope int delegate(ref wchar[] line) dg); /// ditto - int opApply(scope int delegate(ref ulong n, ref wchar[] line) dg); /// ditto - - /// Read a string of the given length, - /// throwing ReadException if there was a problem. - char[] readString(size_t length); - - /*** - * Read a string of the given length, throwing ReadException if there was a - * problem. - * - * The file format is implementation-specific and should not be used - * except as opposite actions to write. - */ - - wchar[] readStringW(size_t length); - - - /*** - * Read and return the next character in the stream. - * - * This is the only method that will handle ungetc properly. - * getcw's format is implementation-specific. - * If EOF is reached then getc returns char.init and getcw returns wchar.init. - */ - - char getc(); - wchar getcw(); /// ditto - - /*** - * Push a character back onto the stream. - * - * They will be returned in first-in last-out order from getc/getcw. - * Only has effect on further calls to getc() and getcw(). - */ - char ungetc(char c); - wchar ungetcw(wchar c); /// ditto - - /*** - * Scan a string from the input using a similar form to C's scanf - * and std.format. - * - * An argument of type string is interpreted as a format string. - * All other arguments must be pointer types. - * If a format string is not present a default will be supplied computed from - * the base type of the pointer type. An argument of type string* is filled - * (possibly with appending characters) and a slice of the result is assigned - * back into the argument. For example the following readf statements - * are equivalent: - * -------------------------- - * int x; - * double y; - * string s; - * file.readf(&x, " hello ", &y, &s); - * file.readf("%d hello %f %s", &x, &y, &s); - * file.readf("%d hello %f", &x, &y, "%s", &s); - * -------------------------- - */ - int vreadf(TypeInfo[] arguments, va_list args); - int readf(...); /// ditto - - /// Retrieve the number of bytes available for immediate reading. - @property size_t available(); - - /*** - * Return whether the current file position is the same as the end of the - * file. - * - * This does not require actually reading past the end, as with stdio. For - * non-seekable streams this might only return true after attempting to read - * past the end. - */ - - @property bool eof(); - - @property bool isOpen(); /// Return true if the stream is currently open. -} - -/// Interface for writable streams. -interface OutputStream { - - /*** - * Write exactly size bytes from buffer, or throw a WriteException if that - * could not be done. - */ - void writeExact(const void* buffer, size_t size); - - /*** - * Write as much of the buffer as possible, - * returning the number of bytes written. - */ - size_t write(const(ubyte)[] buffer); - - /*** - * Write a basic type. - * - * Outside of byte, ubyte, and char, the format is implementation-specific - * and should only be used in conjunction with read. - * Throw WriteException on error. - */ - void write(byte x); - void write(ubyte x); /// ditto - void write(short x); /// ditto - void write(ushort x); /// ditto - void write(int x); /// ditto - void write(uint x); /// ditto - void write(long x); /// ditto - void write(ulong x); /// ditto - void write(float x); /// ditto - void write(double x); /// ditto - void write(real x); /// ditto - void write(ifloat x); /// ditto - void write(idouble x); /// ditto - void write(ireal x); /// ditto - void write(cfloat x); /// ditto - void write(cdouble x); /// ditto - void write(creal x); /// ditto - void write(char x); /// ditto - void write(wchar x); /// ditto - void write(dchar x); /// ditto - - /*** - * Writes a string, together with its length. - * - * The format is implementation-specific - * and should only be used in conjunction with read. - * Throw WriteException on error. - */ - void write(const(char)[] s); - void write(const(wchar)[] s); /// ditto - - /*** - * Write a line of text, - * appending the line with an operating-system-specific line ending. - * - * Throws WriteException on error. - */ - void writeLine(const(char)[] s); - - /*** - * Write a line of text, - * appending the line with an operating-system-specific line ending. - * - * The format is implementation-specific. - * Throws WriteException on error. - */ - void writeLineW(const(wchar)[] s); - - /*** - * Write a string of text. - * - * Throws WriteException if it could not be fully written. - */ - void writeString(const(char)[] s); - - /*** - * Write a string of text. - * - * The format is implementation-specific. - * Throws WriteException if it could not be fully written. - */ - void writeStringW(const(wchar)[] s); - - /*** - * Print a formatted string into the stream using printf-style syntax, - * returning the number of bytes written. - */ - size_t vprintf(const(char)[] format, va_list args); - size_t printf(const(char)[] format, ...); /// ditto - - /*** - * Print a formatted string into the stream using writef-style syntax. - * References: std.format. - * Returns: self to chain with other stream commands like flush. - */ - OutputStream writef(...); - OutputStream writefln(...); /// ditto - OutputStream writefx(TypeInfo[] arguments, va_list argptr, int newline = false); /// ditto - - void flush(); /// Flush pending output if appropriate. - void close(); /// Close the stream, flushing output if appropriate. - @property bool isOpen(); /// Return true if the stream is currently open. -} - - -/*** - * Stream is the base abstract class from which the other stream classes derive. - * - * Stream's byte order is the format native to the computer. - * - * Reading: - * These methods require that the readable flag be set. - * Problems with reading result in a ReadException being thrown. - * Stream implements the InputStream interface in addition to the - * readBlock method. - * - * Writing: - * These methods require that the writeable flag be set. Problems with writing - * result in a WriteException being thrown. Stream implements the OutputStream - * interface in addition to the following methods: - * writeBlock - * copyFrom - * copyFrom - * - * Seeking: - * These methods require that the seekable flag be set. - * Problems with seeking result in a SeekException being thrown. - * seek, seekSet, seekCur, seekEnd, position, size, toString, toHash - */ - -// not really abstract, but its instances will do nothing useful -class Stream : InputStream, OutputStream { - private import std.string, std.digest.crc, core.stdc.stdlib, core.stdc.stdio; - - // stream abilities - bool readable = false; /// Indicates whether this stream can be read from. - bool writeable = false; /// Indicates whether this stream can be written to. - bool seekable = false; /// Indicates whether this stream can be seeked within. - protected bool isopen = true; /// Indicates whether this stream is open. - - protected bool readEOF = false; /** Indicates whether this stream is at eof - * after the last read attempt. - */ - - protected bool prevCr = false; /** For a non-seekable stream indicates that - * the last readLine or readLineW ended on a - * '\r' character. - */ - - this() {} - - /*** - * Read up to size bytes into the buffer and return the number of bytes - * actually read. A return value of 0 indicates end-of-file. - */ - abstract size_t readBlock(void* buffer, size_t size); - - // reads block of data of specified size, - // throws ReadException on error - void readExact(void* buffer, size_t size) { - for(;;) { - if (!size) return; - size_t readsize = readBlock(buffer, size); // return 0 on eof - if (readsize == 0) break; - buffer += readsize; - size -= readsize; - } - if (size != 0) - throw new ReadException("not enough data in stream"); - } - - // reads block of data big enough to fill the given - // array, returns actual number of bytes read - size_t read(ubyte[] buffer) { - return readBlock(buffer.ptr, buffer.length); - } - - // read a single value of desired type, - // throw ReadException on error - void read(out byte x) { readExact(&x, x.sizeof); } - void read(out ubyte x) { readExact(&x, x.sizeof); } - void read(out short x) { readExact(&x, x.sizeof); } - void read(out ushort x) { readExact(&x, x.sizeof); } - void read(out int x) { readExact(&x, x.sizeof); } - void read(out uint x) { readExact(&x, x.sizeof); } - void read(out long x) { readExact(&x, x.sizeof); } - void read(out ulong x) { readExact(&x, x.sizeof); } - void read(out float x) { readExact(&x, x.sizeof); } - void read(out double x) { readExact(&x, x.sizeof); } - void read(out real x) { readExact(&x, x.sizeof); } - void read(out ifloat x) { readExact(&x, x.sizeof); } - void read(out idouble x) { readExact(&x, x.sizeof); } - void read(out ireal x) { readExact(&x, x.sizeof); } - void read(out cfloat x) { readExact(&x, x.sizeof); } - void read(out cdouble x) { readExact(&x, x.sizeof); } - void read(out creal x) { readExact(&x, x.sizeof); } - void read(out char x) { readExact(&x, x.sizeof); } - void read(out wchar x) { readExact(&x, x.sizeof); } - void read(out dchar x) { readExact(&x, x.sizeof); } - - // reads a string, written earlier by write() - void read(out char[] s) { - size_t len; - read(len); - s = readString(len); - } - - // reads a Unicode string, written earlier by write() - void read(out wchar[] s) { - size_t len; - read(len); - s = readStringW(len); - } - - // reads a line, terminated by either CR, LF, CR/LF, or EOF - char[] readLine() { - return readLine(null); - } - - // reads a line, terminated by either CR, LF, CR/LF, or EOF - // reusing the memory in buffer if result will fit and otherwise - // allocates a new string - char[] readLine(char[] result) { - size_t strlen = 0; - char ch = getc(); - while (readable) { - switch (ch) { - case '\r': - if (seekable) { - ch = getc(); - if (ch != '\n') - ungetc(ch); - } else { - prevCr = true; - } - goto case; - case '\n': - case char.init: - result.length = strlen; - return result; - - default: - if (strlen < result.length) { - result[strlen] = ch; - } else { - result ~= ch; - } - strlen++; - } - ch = getc(); - } - result.length = strlen; - return result; - } - - // reads a Unicode line, terminated by either CR, LF, CR/LF, - // or EOF; pretty much the same as the above, working with - // wchars rather than chars - wchar[] readLineW() { - return readLineW(null); - } - - // reads a Unicode line, terminated by either CR, LF, CR/LF, - // or EOF; - // fills supplied buffer if line fits and otherwise allocates a new string. - wchar[] readLineW(wchar[] result) { - size_t strlen = 0; - wchar c = getcw(); - while (readable) { - switch (c) { - case '\r': - if (seekable) { - c = getcw(); - if (c != '\n') - ungetcw(c); - } else { - prevCr = true; - } - goto case; - case '\n': - case wchar.init: - result.length = strlen; - return result; - - default: - if (strlen < result.length) { - result[strlen] = c; - } else { - result ~= c; - } - strlen++; - } - c = getcw(); - } - result.length = strlen; - return result; - } - - // iterate through the stream line-by-line - due to Regan Heath - int opApply(scope int delegate(ref char[] line) dg) { - int res = 0; - char[128] buf; - while (!eof) { - char[] line = readLine(buf); - res = dg(line); - if (res) break; - } - return res; - } - - // iterate through the stream line-by-line with line count and string - int opApply(scope int delegate(ref ulong n, ref char[] line) dg) { - int res = 0; - ulong n = 1; - char[128] buf; - while (!eof) { - auto line = readLine(buf); - res = dg(n,line); - if (res) break; - n++; - } - return res; - } - - // iterate through the stream line-by-line with wchar[] - int opApply(scope int delegate(ref wchar[] line) dg) { - int res = 0; - wchar[128] buf; - while (!eof) { - auto line = readLineW(buf); - res = dg(line); - if (res) break; - } - return res; - } - - // iterate through the stream line-by-line with line count and wchar[] - int opApply(scope int delegate(ref ulong n, ref wchar[] line) dg) { - int res = 0; - ulong n = 1; - wchar[128] buf; - while (!eof) { - auto line = readLineW(buf); - res = dg(n,line); - if (res) break; - n++; - } - return res; - } - - // reads a string of given length, throws - // ReadException on error - char[] readString(size_t length) { - char[] result = new char[length]; - readExact(result.ptr, length); - return result; - } - - // reads a Unicode string of given length, throws - // ReadException on error - wchar[] readStringW(size_t length) { - auto result = new wchar[length]; - readExact(result.ptr, result.length * wchar.sizeof); - return result; - } - - // unget buffer - private wchar[] unget; - final bool ungetAvailable() { return unget.length > 1; } - - // reads and returns next character from the stream, - // handles characters pushed back by ungetc() - // returns char.init on eof. - char getc() { - char c; - if (prevCr) { - prevCr = false; - c = getc(); - if (c != '\n') - return c; - } - if (unget.length > 1) { - c = cast(char)unget[unget.length - 1]; - unget.length = unget.length - 1; - } else { - readBlock(&c,1); - } - return c; - } - - // reads and returns next Unicode character from the - // stream, handles characters pushed back by ungetc() - // returns wchar.init on eof. - wchar getcw() { - wchar c; - if (prevCr) { - prevCr = false; - c = getcw(); - if (c != '\n') - return c; - } - if (unget.length > 1) { - c = unget[unget.length - 1]; - unget.length = unget.length - 1; - } else { - void* buf = &c; - size_t n = readBlock(buf,2); - if (n == 1 && readBlock(buf+1,1) == 0) - throw new ReadException("not enough data in stream"); - } - return c; - } - - // pushes back character c into the stream; only has - // effect on further calls to getc() and getcw() - char ungetc(char c) { - if (c == c.init) return c; - // first byte is a dummy so that we never set length to 0 - if (unget.length == 0) - unget.length = 1; - unget ~= c; - return c; - } - - // pushes back Unicode character c into the stream; only - // has effect on further calls to getc() and getcw() - wchar ungetcw(wchar c) { - if (c == c.init) return c; - // first byte is a dummy so that we never set length to 0 - if (unget.length == 0) - unget.length = 1; - unget ~= c; - return c; - } - - int vreadf(TypeInfo[] arguments, va_list args) { - string fmt; - int j = 0; - int count = 0, i = 0; - char c; - bool firstCharacter = true; - while ((j < arguments.length || i < fmt.length) && !eof) { - if(firstCharacter) { - c = getc(); - firstCharacter = false; - } - if (fmt.length == 0 || i == fmt.length) { - i = 0; - if (arguments[j] is typeid(string) || arguments[j] is typeid(char[]) - || arguments[j] is typeid(const(char)[])) { - fmt = va_arg!(string)(args); - j++; - continue; - } else if (arguments[j] is typeid(int*) || - arguments[j] is typeid(byte*) || - arguments[j] is typeid(short*) || - arguments[j] is typeid(long*)) { - fmt = "%d"; - } else if (arguments[j] is typeid(uint*) || - arguments[j] is typeid(ubyte*) || - arguments[j] is typeid(ushort*) || - arguments[j] is typeid(ulong*)) { - fmt = "%d"; - } else if (arguments[j] is typeid(float*) || - arguments[j] is typeid(double*) || - arguments[j] is typeid(real*)) { - fmt = "%f"; - } else if (arguments[j] is typeid(char[]*) || - arguments[j] is typeid(wchar[]*) || - arguments[j] is typeid(dchar[]*)) { - fmt = "%s"; - } else if (arguments[j] is typeid(char*)) { - fmt = "%c"; - } - } - if (fmt[i] == '%') { // a field - i++; - bool suppress = false; - if (fmt[i] == '*') { // suppress assignment - suppress = true; - i++; - } - // read field width - int width = 0; - while (isDigit(fmt[i])) { - width = width * 10 + (fmt[i] - '0'); - i++; - } - if (width == 0) - width = -1; - // skip any modifier if present - if (fmt[i] == 'h' || fmt[i] == 'l' || fmt[i] == 'L') - i++; - // check the typechar and act accordingly - switch (fmt[i]) { - case 'd': // decimal/hexadecimal/octal integer - case 'D': - case 'u': - case 'U': - case 'o': - case 'O': - case 'x': - case 'X': - case 'i': - case 'I': - { - while (isWhite(c)) { - c = getc(); - count++; - } - bool neg = false; - if (c == '-') { - neg = true; - c = getc(); - count++; - } else if (c == '+') { - c = getc(); - count++; - } - char ifmt = cast(char)(fmt[i] | 0x20); - if (ifmt == 'i') { // undetermined base - if (c == '0') { // octal or hex - c = getc(); - count++; - if (c == 'x' || c == 'X') { // hex - ifmt = 'x'; - c = getc(); - count++; - } else { // octal - ifmt = 'o'; - } - } - else // decimal - ifmt = 'd'; - } - long n = 0; - switch (ifmt) - { - case 'd': // decimal - case 'u': { - while (isDigit(c) && width) { - n = n * 10 + (c - '0'); - width--; - c = getc(); - count++; - } - } break; - - case 'o': { // octal - while (isOctalDigit(c) && width) { - n = n * 8 + (c - '0'); - width--; - c = getc(); - count++; - } - } break; - - case 'x': { // hexadecimal - while (isHexDigit(c) && width) { - n *= 0x10; - if (isDigit(c)) - n += c - '0'; - else - n += 0xA + (c | 0x20) - 'a'; - width--; - c = getc(); - count++; - } - } break; - - default: - assert(0); - } - if (neg) - n = -n; - if (arguments[j] is typeid(int*)) { - int* p = va_arg!(int*)(args); - *p = cast(int)n; - } else if (arguments[j] is typeid(short*)) { - short* p = va_arg!(short*)(args); - *p = cast(short)n; - } else if (arguments[j] is typeid(byte*)) { - byte* p = va_arg!(byte*)(args); - *p = cast(byte)n; - } else if (arguments[j] is typeid(long*)) { - long* p = va_arg!(long*)(args); - *p = n; - } else if (arguments[j] is typeid(uint*)) { - uint* p = va_arg!(uint*)(args); - *p = cast(uint)n; - } else if (arguments[j] is typeid(ushort*)) { - ushort* p = va_arg!(ushort*)(args); - *p = cast(ushort)n; - } else if (arguments[j] is typeid(ubyte*)) { - ubyte* p = va_arg!(ubyte*)(args); - *p = cast(ubyte)n; - } else if (arguments[j] is typeid(ulong*)) { - ulong* p = va_arg!(ulong*)(args); - *p = cast(ulong)n; - } - j++; - i++; - } break; - - case 'f': // float - case 'F': - case 'e': - case 'E': - case 'g': - case 'G': - { - while (isWhite(c)) { - c = getc(); - count++; - } - bool neg = false; - if (c == '-') { - neg = true; - c = getc(); - count++; - } else if (c == '+') { - c = getc(); - count++; - } - real r = 0; - while (isDigit(c) && width) { - r = r * 10 + (c - '0'); - width--; - c = getc(); - count++; - } - if (width && c == '.') { - width--; - c = getc(); - count++; - double frac = 1; - while (isDigit(c) && width) { - r = r * 10 + (c - '0'); - frac *= 10; - width--; - c = getc(); - count++; - } - r /= frac; - } - if (width && (c == 'e' || c == 'E')) { - width--; - c = getc(); - count++; - if (width) { - bool expneg = false; - if (c == '-') { - expneg = true; - width--; - c = getc(); - count++; - } else if (c == '+') { - width--; - c = getc(); - count++; - } - real exp = 0; - while (isDigit(c) && width) { - exp = exp * 10 + (c - '0'); - width--; - c = getc(); - count++; - } - if (expneg) { - while (exp--) - r /= 10; - } else { - while (exp--) - r *= 10; - } - } - } - if(width && (c == 'n' || c == 'N')) { - width--; - c = getc(); - count++; - if(width && (c == 'a' || c == 'A')) { - width--; - c = getc(); - count++; - if(width && (c == 'n' || c == 'N')) { - width--; - c = getc(); - count++; - r = real.nan; - } - } - } - if(width && (c == 'i' || c == 'I')) { - width--; - c = getc(); - count++; - if(width && (c == 'n' || c == 'N')) { - width--; - c = getc(); - count++; - if(width && (c == 'f' || c == 'F')) { - width--; - c = getc(); - count++; - r = real.infinity; - } - } - } - if (neg) - r = -r; - if (arguments[j] is typeid(float*)) { - float* p = va_arg!(float*)(args); - *p = r; - } else if (arguments[j] is typeid(double*)) { - double* p = va_arg!(double*)(args); - *p = r; - } else if (arguments[j] is typeid(real*)) { - real* p = va_arg!(real*)(args); - *p = r; - } - j++; - i++; - } break; - - case 's': { // string - while (isWhite(c)) { - c = getc(); - count++; - } - char[] s; - char[]* p; - size_t strlen; - if (arguments[j] is typeid(char[]*)) { - p = va_arg!(char[]*)(args); - s = *p; - } - while (!isWhite(c) && c != char.init) { - if (strlen < s.length) { - s[strlen] = c; - } else { - s ~= c; - } - strlen++; - c = getc(); - count++; - } - s = s[0 .. strlen]; - if (arguments[j] is typeid(char[]*)) { - *p = s; - } else if (arguments[j] is typeid(char*)) { - s ~= 0; - auto q = va_arg!(char*)(args); - q[0 .. s.length] = s[]; - } else if (arguments[j] is typeid(wchar[]*)) { - auto q = va_arg!(const(wchar)[]*)(args); - *q = toUTF16(s); - } else if (arguments[j] is typeid(dchar[]*)) { - auto q = va_arg!(const(dchar)[]*)(args); - *q = toUTF32(s); - } - j++; - i++; - } break; - - case 'c': { // character(s) - char* s = va_arg!(char*)(args); - if (width < 0) - width = 1; - else - while (isWhite(c)) { - c = getc(); - count++; - } - while (width-- && !eof) { - *(s++) = c; - c = getc(); - count++; - } - j++; - i++; - } break; - - case 'n': { // number of chars read so far - int* p = va_arg!(int*)(args); - *p = count; - j++; - i++; - } break; - - default: // read character as is - goto nws; - } - } else if (isWhite(fmt[i])) { // skip whitespace - while (isWhite(c)) - c = getc(); - i++; - } else { // read character as is - nws: - if (fmt[i] != c) - break; - c = getc(); - i++; - } - } - ungetc(c); - return count; - } - - int readf(...) { - return vreadf(_arguments, _argptr); - } - - // returns estimated number of bytes available for immediate reading - @property size_t available() { return 0; } - - /*** - * Write up to size bytes from buffer in the stream, returning the actual - * number of bytes that were written. - */ - abstract size_t writeBlock(const void* buffer, size_t size); - - // writes block of data of specified size, - // throws WriteException on error - void writeExact(const void* buffer, size_t size) { - const(void)* p = buffer; - for(;;) { - if (!size) return; - size_t writesize = writeBlock(p, size); - if (writesize == 0) break; - p += writesize; - size -= writesize; - } - if (size != 0) - throw new WriteException("unable to write to stream"); - } - - // writes the given array of bytes, returns - // actual number of bytes written - size_t write(const(ubyte)[] buffer) { - return writeBlock(buffer.ptr, buffer.length); - } - - // write a single value of desired type, - // throw WriteException on error - void write(byte x) { writeExact(&x, x.sizeof); } - void write(ubyte x) { writeExact(&x, x.sizeof); } - void write(short x) { writeExact(&x, x.sizeof); } - void write(ushort x) { writeExact(&x, x.sizeof); } - void write(int x) { writeExact(&x, x.sizeof); } - void write(uint x) { writeExact(&x, x.sizeof); } - void write(long x) { writeExact(&x, x.sizeof); } - void write(ulong x) { writeExact(&x, x.sizeof); } - void write(float x) { writeExact(&x, x.sizeof); } - void write(double x) { writeExact(&x, x.sizeof); } - void write(real x) { writeExact(&x, x.sizeof); } - void write(ifloat x) { writeExact(&x, x.sizeof); } - void write(idouble x) { writeExact(&x, x.sizeof); } - void write(ireal x) { writeExact(&x, x.sizeof); } - void write(cfloat x) { writeExact(&x, x.sizeof); } - void write(cdouble x) { writeExact(&x, x.sizeof); } - void write(creal x) { writeExact(&x, x.sizeof); } - void write(char x) { writeExact(&x, x.sizeof); } - void write(wchar x) { writeExact(&x, x.sizeof); } - void write(dchar x) { writeExact(&x, x.sizeof); } - - // writes a string, together with its length - void write(const(char)[] s) { - write(s.length); - writeString(s); - } - - // writes a Unicode string, together with its length - void write(const(wchar)[] s) { - write(s.length); - writeStringW(s); - } - - // writes a line, throws WriteException on error - void writeLine(const(char)[] s) { - writeString(s); - version (Windows) - writeString("\r\n"); - else version (Mac) - writeString("\r"); - else - writeString("\n"); - } - - // writes a Unicode line, throws WriteException on error - void writeLineW(const(wchar)[] s) { - writeStringW(s); - version (Windows) - writeStringW("\r\n"); - else version (Mac) - writeStringW("\r"); - else - writeStringW("\n"); - } - - // writes a string, throws WriteException on error - void writeString(const(char)[] s) { - writeExact(s.ptr, s.length); - } - - // writes a Unicode string, throws WriteException on error - void writeStringW(const(wchar)[] s) { - writeExact(s.ptr, s.length * wchar.sizeof); - } - - // writes data to stream using vprintf() syntax, - // returns number of bytes written - size_t vprintf(const(char)[] format, va_list args) { - // shamelessly stolen from OutBuffer, - // by Walter's permission - char[1024] buffer; - char* p = buffer.ptr; - // Can't use `tempCString()` here as it will result in compilation error: - // "cannot mix core.std.stdlib.alloca() and exception handling". - auto f = toStringz(format); - size_t psize = buffer.length; - size_t count; - while (true) { - version (Windows) { - count = vsnprintf(p, psize, f, args); - if (count != -1) - break; - psize *= 2; - p = cast(char*) alloca(psize); - } else version (Posix) { - count = vsnprintf(p, psize, f, args); - if (count == -1) - psize *= 2; - else if (count >= psize) - psize = count + 1; - else - break; - p = cast(char*) alloca(psize); - } else - throw new Exception("unsupported platform"); - } - writeString(p[0 .. count]); - return count; - } - - // writes data to stream using printf() syntax, - // returns number of bytes written - size_t printf(const(char)[] format, ...) { - va_list ap; - va_start(ap, format); - auto result = vprintf(format, ap); - va_end(ap); - return result; - } - - private void doFormatCallback(dchar c) { - char[4] buf; - auto b = std.utf.toUTF8(buf, c); - writeString(b); - } - - // writes data to stream using writef() syntax, - OutputStream writef(...) { - return writefx(_arguments,_argptr,0); - } - - // writes data with trailing newline - OutputStream writefln(...) { - return writefx(_arguments,_argptr,1); - } - - // writes data with optional trailing newline - OutputStream writefx(TypeInfo[] arguments, va_list argptr, int newline=false) { - doFormat(&doFormatCallback,arguments,argptr); - if (newline) - writeLine(""); - return this; - } - - /*** - * Copies all data from s into this stream. - * This may throw ReadException or WriteException on failure. - * This restores the file position of s so that it is unchanged. - */ - void copyFrom(Stream s) { - if (seekable) { - ulong pos = s.position; - s.position = 0; - copyFrom(s, s.size); - s.position = pos; - } else { - ubyte[128] buf; - while (!s.eof) { - size_t m = s.readBlock(buf.ptr, buf.length); - writeExact(buf.ptr, m); - } - } - } - - /*** - * Copy a specified number of bytes from the given stream into this one. - * This may throw ReadException or WriteException on failure. - * Unlike the previous form, this doesn't restore the file position of s. - */ - void copyFrom(Stream s, ulong count) { - ubyte[128] buf; - while (count > 0) { - size_t n = cast(size_t)(count 1) - unget.length = 1; // keep at least 1 so that data ptr stays - } - - // close the stream somehow; the default just flushes the buffer - void close() { - if (isopen) - flush(); - readEOF = prevCr = isopen = readable = writeable = seekable = false; - } - - /*** - * Read the entire stream and return it as a string. - * If the stream is not seekable the contents from the current position to eof - * is read and returned. - */ - override string toString() { - if (!readable) - return super.toString(); - try - { - size_t pos; - size_t rdlen; - size_t blockSize; - char[] result; - if (seekable) { - ulong orig_pos = position; - scope(exit) position = orig_pos; - position = 0; - blockSize = cast(size_t)size; - result = new char[blockSize]; - while (blockSize > 0) { - rdlen = readBlock(&result[pos], blockSize); - pos += rdlen; - blockSize -= rdlen; - } - } else { - blockSize = 4096; - result = new char[blockSize]; - while ((rdlen = readBlock(&result[pos], blockSize)) > 0) { - pos += rdlen; - blockSize += rdlen; - result.length = result.length + blockSize; - } - } - return cast(string) result[0 .. pos]; - } - catch (Throwable) - { - return super.toString(); - } - } - - /*** - * Get a hash of the stream by reading each byte and using it in a CRC-32 - * checksum. - */ - override size_t toHash() @trusted { - if (!readable || !seekable) - return super.toHash(); - try - { - ulong pos = position; - scope(exit) position = pos; - CRC32 crc; - crc.start(); - position = 0; - ulong len = size; - for (ulong i = 0; i < len; i++) - { - ubyte c; - read(c); - crc.put(c); - } - - union resUnion - { - size_t hash; - ubyte[4] crcVal; - } - resUnion res; - res.crcVal = crc.finish(); - return res.hash; - } - catch (Throwable) - { - return super.toHash(); - } - } - - // helper for checking that the stream is readable - final protected void assertReadable() { - if (!readable) - throw new ReadException("Stream is not readable"); - } - // helper for checking that the stream is writeable - final protected void assertWriteable() { - if (!writeable) - throw new WriteException("Stream is not writeable"); - } - // helper for checking that the stream is seekable - final protected void assertSeekable() { - if (!seekable) - throw new SeekException("Stream is not seekable"); - } - /+ - unittest { // unit test for Issue 3363 - import std.stdio; - immutable fileName = undead.internal.file.deleteme ~ "-issue3363.txt"; - auto w = File(fileName, "w"); - scope (exit) remove(fileName.ptr); - w.write("one two three"); - w.close(); - auto r = File(fileName, "r"); - const(char)[] constChar; - string str; - char[] chars; - r.readf("%s %s %s", &constChar, &str, &chars); - assert (constChar == "one", constChar); - assert (str == "two", str); - assert (chars == "three", chars); - } - - unittest { //unit tests for Issue 1668 - void tryFloatRoundtrip(float x, string fmt = "", string pad = "") { - auto s = new MemoryStream(); - s.writef(fmt, x, pad); - s.position = 0; - - float f; - assert(s.readf(&f)); - assert(x == f || (x != x && f != f)); //either equal or both NaN - } - - tryFloatRoundtrip(1.0); - tryFloatRoundtrip(1.0, "%f"); - tryFloatRoundtrip(1.0, "", " "); - tryFloatRoundtrip(1.0, "%f", " "); - - tryFloatRoundtrip(3.14); - tryFloatRoundtrip(3.14, "%f"); - tryFloatRoundtrip(3.14, "", " "); - tryFloatRoundtrip(3.14, "%f", " "); - - float nan = float.nan; - tryFloatRoundtrip(nan); - tryFloatRoundtrip(nan, "%f"); - tryFloatRoundtrip(nan, "", " "); - tryFloatRoundtrip(nan, "%f", " "); - - float inf = 1.0/0.0; - tryFloatRoundtrip(inf); - tryFloatRoundtrip(inf, "%f"); - tryFloatRoundtrip(inf, "", " "); - tryFloatRoundtrip(inf, "%f", " "); - - tryFloatRoundtrip(-inf); - tryFloatRoundtrip(-inf,"%f"); - tryFloatRoundtrip(-inf, "", " "); - tryFloatRoundtrip(-inf, "%f", " "); - } - +/ -} - -/*** - * A base class for streams that wrap a source stream with additional - * functionality. - * - * The method implementations forward read/write/seek calls to the - * source stream. A FilterStream can change the position of the source stream - * arbitrarily and may not keep the source stream state in sync with the - * FilterStream, even upon flushing and closing the FilterStream. It is - * recommended to not make any assumptions about the state of the source position - * and read/write state after a FilterStream has acted upon it. Specifc subclasses - * of FilterStream should document how they modify the source stream and if any - * invariants hold true between the source and filter. - */ -class FilterStream : Stream { - private Stream s; // source stream - - /// Property indicating when this stream closes to close the source stream as - /// well. - /// Defaults to true. - bool nestClose = true; - - /// Construct a FilterStream for the given source. - this(Stream source) { - s = source; - resetSource(); - } - - // source getter/setter - - /*** - * Get the current source stream. - */ - final Stream source(){return s;} - - /*** - * Set the current source stream. - * - * Setting the source stream closes this stream before attaching the new - * source. Attaching an open stream reopens this stream and resets the stream - * state. - */ - void source(Stream s) { - close(); - this.s = s; - resetSource(); - } - - /*** - * Indicates the source stream changed state and that this stream should reset - * any readable, writeable, seekable, isopen and buffering flags. - */ - void resetSource() { - if (s !is null) { - readable = s.readable; - writeable = s.writeable; - seekable = s.seekable; - isopen = s.isOpen; - } else { - readable = writeable = seekable = false; - isopen = false; - } - readEOF = prevCr = false; - } - - // read from source - override size_t readBlock(void* buffer, size_t size) { - size_t res = s.readBlock(buffer,size); - readEOF = res == 0; - return res; - } - - // write to source - override size_t writeBlock(const void* buffer, size_t size) { - return s.writeBlock(buffer,size); - } - - // close stream - override void close() { - if (isopen) { - super.close(); - if (nestClose) - s.close(); - } - } - - // seek on source - override ulong seek(long offset, SeekPos whence) { - readEOF = false; - return s.seek(offset,whence); - } - - override @property size_t available() { return s.available; } - override void flush() { super.flush(); s.flush(); } -} - -/*** - * This subclass is for buffering a source stream. - * - * A buffered stream must be - * closed explicitly to ensure the final buffer content is written to the source - * stream. The source stream position is changed according to the block size so - * reading or writing to the BufferedStream may not change the source stream - * position by the same amount. - */ -class BufferedStream : FilterStream { - ubyte[] buffer; // buffer, if any - size_t bufferCurPos; // current position in buffer - size_t bufferLen; // amount of data in buffer - bool bufferDirty = false; - size_t bufferSourcePos; // position in buffer of source stream position - ulong streamPos; // absolute position in source stream - - /* Example of relationship between fields: - * - * s ...01234567890123456789012EOF - * buffer |-- --| - * bufferCurPos | - * bufferLen |-- --| - * bufferSourcePos | - * - */ - - invariant() { - assert(bufferSourcePos <= bufferLen); - assert(bufferCurPos <= bufferLen); - assert(bufferLen <= buffer.length); - } - - enum size_t DefaultBufferSize = 8192; - - /*** - * Create a buffered stream for the stream source with the buffer size - * bufferSize. - */ - this(Stream source, size_t bufferSize = DefaultBufferSize) { - super(source); - if (bufferSize) - buffer = new ubyte[bufferSize]; - } - - override protected void resetSource() { - super.resetSource(); - streamPos = 0; - bufferLen = bufferSourcePos = bufferCurPos = 0; - bufferDirty = false; - } - - // reads block of data of specified size using any buffered data - // returns actual number of bytes read - override size_t readBlock(void* result, size_t len) { - if (len == 0) return 0; - - assertReadable(); - - ubyte* outbuf = cast(ubyte*)result; - size_t readsize = 0; - - if (bufferCurPos + len < bufferLen) { - // buffer has all the data so copy it - outbuf[0 .. len] = buffer[bufferCurPos .. bufferCurPos+len]; - bufferCurPos += len; - readsize = len; - goto ExitRead; - } - - readsize = bufferLen - bufferCurPos; - if (readsize > 0) { - // buffer has some data so copy what is left - outbuf[0 .. readsize] = buffer[bufferCurPos .. bufferLen]; - outbuf += readsize; - bufferCurPos += readsize; - len -= readsize; - } - - flush(); - - if (len >= buffer.length) { - // buffer can't hold the data so fill output buffer directly - size_t siz = super.readBlock(outbuf, len); - readsize += siz; - streamPos += siz; - } else { - // read a new block into buffer - bufferLen = super.readBlock(buffer.ptr, buffer.length); - if (bufferLen < len) len = bufferLen; - outbuf[0 .. len] = buffer[0 .. len]; - bufferSourcePos = bufferLen; - streamPos += bufferLen; - bufferCurPos = len; - readsize += len; - } - - ExitRead: - return readsize; - } - - // write block of data of specified size - // returns actual number of bytes written - override size_t writeBlock(const void* result, size_t len) { - assertWriteable(); - - ubyte* buf = cast(ubyte*)result; - size_t writesize = 0; - - if (bufferLen == 0) { - // buffer is empty so fill it if possible - if ((len < buffer.length) && (readable)) { - // read in data if the buffer is currently empty - bufferLen = s.readBlock(buffer.ptr, buffer.length); - bufferSourcePos = bufferLen; - streamPos += bufferLen; - - } else if (len >= buffer.length) { - // buffer can't hold the data so write it directly and exit - writesize = s.writeBlock(buf,len); - streamPos += writesize; - goto ExitWrite; - } - } - - if (bufferCurPos + len <= buffer.length) { - // buffer has space for all the data so copy it and exit - buffer[bufferCurPos .. bufferCurPos+len] = buf[0 .. len]; - bufferCurPos += len; - bufferLen = bufferCurPos > bufferLen ? bufferCurPos : bufferLen; - writesize = len; - bufferDirty = true; - goto ExitWrite; - } - - writesize = buffer.length - bufferCurPos; - if (writesize > 0) { - // buffer can take some data - buffer[bufferCurPos .. buffer.length] = buf[0 .. writesize]; - bufferCurPos = bufferLen = buffer.length; - buf += writesize; - len -= writesize; - bufferDirty = true; - } - - assert(bufferCurPos == buffer.length); - assert(bufferLen == buffer.length); - - flush(); - - writesize += writeBlock(buf,len); - - ExitWrite: - return writesize; - } - - override ulong seek(long offset, SeekPos whence) { - assertSeekable(); - - if ((whence != SeekPos.Current) || - (offset + bufferCurPos < 0) || - (offset + bufferCurPos >= bufferLen)) { - flush(); - streamPos = s.seek(offset,whence); - } else { - bufferCurPos += offset; - } - readEOF = false; - return streamPos-bufferSourcePos+bufferCurPos; - } - - // Buffered readLine - Dave Fladebo - // reads a line, terminated by either CR, LF, CR/LF, or EOF - // reusing the memory in buffer if result will fit, otherwise - // will reallocate (using concatenation) - template TreadLine(T) { - T[] readLine(T[] inBuffer) - { - size_t lineSize = 0; - bool haveCR = false; - T c = '\0'; - size_t idx = 0; - ubyte* pc = cast(ubyte*)&c; - - L0: - for(;;) { - size_t start = bufferCurPos; - L1: - foreach(ubyte b; buffer[start .. bufferLen]) { - bufferCurPos++; - pc[idx] = b; - if(idx < T.sizeof - 1) { - idx++; - continue L1; - } else { - idx = 0; - } - if(c == '\n' || haveCR) { - if(haveCR && c != '\n') bufferCurPos--; - break L0; - } else { - if(c == '\r') { - haveCR = true; - } else { - if(lineSize < inBuffer.length) { - inBuffer[lineSize] = c; - } else { - inBuffer ~= c; - } - lineSize++; - } - } - } - flush(); - size_t res = super.readBlock(buffer.ptr, buffer.length); - if(!res) break L0; // EOF - bufferSourcePos = bufferLen = res; - streamPos += res; - } - return inBuffer[0 .. lineSize]; - } - } // template TreadLine(T) - - override char[] readLine(char[] inBuffer) { - if (ungetAvailable()) - return super.readLine(inBuffer); - else - return TreadLine!(char).readLine(inBuffer); - } - alias readLine = Stream.readLine; - - override wchar[] readLineW(wchar[] inBuffer) { - if (ungetAvailable()) - return super.readLineW(inBuffer); - else - return TreadLine!(wchar).readLine(inBuffer); - } - alias readLineW = Stream.readLineW; - - override void flush() - out { - assert(bufferCurPos == 0); - assert(bufferSourcePos == 0); - assert(bufferLen == 0); - } - body { - if (writeable && bufferDirty) { - if (bufferSourcePos != 0 && seekable) { - // move actual file pointer to front of buffer - streamPos = s.seek(-bufferSourcePos, SeekPos.Current); - } - // write buffer out - bufferSourcePos = s.writeBlock(buffer.ptr, bufferLen); - if (bufferSourcePos != bufferLen) { - throw new WriteException("Unable to write to stream"); - } - } - super.flush(); - long diff = cast(long)bufferCurPos-bufferSourcePos; - if (diff != 0 && seekable) { - // move actual file pointer to current position - streamPos = s.seek(diff, SeekPos.Current); - } - // reset buffer data to be empty - bufferSourcePos = bufferCurPos = bufferLen = 0; - bufferDirty = false; - } - - // returns true if end of stream is reached, false otherwise - override @property bool eof() { - if ((buffer.length == 0) || !readable) { - return super.eof; - } - // some simple tests to avoid flushing - if (ungetAvailable() || bufferCurPos != bufferLen) - return false; - if (bufferLen == buffer.length) - flush(); - size_t res = super.readBlock(&buffer[bufferLen],buffer.length-bufferLen); - bufferSourcePos += res; - bufferLen += res; - streamPos += res; - return readEOF; - } - - // returns size of stream - override @property ulong size() { - if (bufferDirty) flush(); - return s.size; - } - - // returns estimated number of bytes available for immediate reading - override @property size_t available() { - return bufferLen - bufferCurPos; - } -} - -/// An exception for File errors. -class StreamFileException: StreamException { - /// Construct a StreamFileException with given error message. - this(string msg) { super(msg); } -} - -/// An exception for errors during File.open. -class OpenException: StreamFileException { - /// Construct an OpenFileException with given error message. - this(string msg) { super(msg); } -} - -/// Specifies the $(LREF File) access mode used when opening the file. -enum FileMode { - In = 1, /// Opens the file for reading. - Out = 2, /// Opens the file for writing. - OutNew = 6, /// Opens the file for writing, creates a new file if it doesn't exist. - Append = 10 /// Opens the file for writing, appending new data to the end of the file. -} - -version (Windows) { - private import core.sys.windows.windows; - extern (Windows) { - void FlushFileBuffers(HANDLE hFile); - DWORD GetFileType(HANDLE hFile); - } -} -version (Posix) { - private import core.sys.posix.fcntl; - private import core.sys.posix.unistd; - alias HANDLE = int; -} - -/// This subclass is for unbuffered file system streams. -class File: Stream { - - version (Windows) { - private HANDLE hFile; - } - version (Posix) { - private HANDLE hFile = -1; - } - - this() { - super(); - version (Windows) { - hFile = null; - } - version (Posix) { - hFile = -1; - } - isopen = false; - } - - // opens existing handle; use with care! - this(HANDLE hFile, FileMode mode) { - super(); - this.hFile = hFile; - readable = cast(bool)(mode & FileMode.In); - writeable = cast(bool)(mode & FileMode.Out); - version(Windows) { - seekable = GetFileType(hFile) == 1; // FILE_TYPE_DISK - } else { - auto result = lseek(hFile, 0, 0); - seekable = (result != ~0); - } - } - - /*** - * Create the stream with no open file, an open file in read mode, or an open - * file with explicit file mode. - * mode, if given, is a combination of FileMode.In - * (indicating a file that can be read) and FileMode.Out (indicating a file - * that can be written). - * Opening a file for reading that doesn't exist will error. - * Opening a file for writing that doesn't exist will create the file. - * The FileMode.OutNew mode will open the file for writing and reset the - * length to zero. - * The FileMode.Append mode will open the file for writing and move the - * file position to the end of the file. - */ - this(string filename, FileMode mode = FileMode.In) - { - this(); - open(filename, mode); - } - - - /*** - * Open a file for the stream, in an identical manner to the constructors. - * If an error occurs an OpenException is thrown. - */ - void open(string filename, FileMode mode = FileMode.In) { - close(); - int access, share, createMode; - parseMode(mode, access, share, createMode); - seekable = true; - readable = cast(bool)(mode & FileMode.In); - writeable = cast(bool)(mode & FileMode.Out); - version (Windows) { - hFile = CreateFileW(filename.tempCStringW(), access, share, - null, createMode, 0, null); - isopen = hFile != INVALID_HANDLE_VALUE; - } - version (Posix) { - hFile = core.sys.posix.fcntl.open(filename.tempCString(), access | createMode, share); - isopen = hFile != -1; - } - if (!isopen) - throw new OpenException(cast(string) ("Cannot open or create file '" - ~ filename ~ "'")); - else if ((mode & FileMode.Append) == FileMode.Append) - seekEnd(0); - } - - private void parseMode(int mode, - out int access, - out int share, - out int createMode) { - version (Windows) { - share |= FILE_SHARE_READ | FILE_SHARE_WRITE; - if (mode & FileMode.In) { - access |= GENERIC_READ; - createMode = OPEN_EXISTING; - } - if (mode & FileMode.Out) { - access |= GENERIC_WRITE; - createMode = OPEN_ALWAYS; // will create if not present - } - if ((mode & FileMode.OutNew) == FileMode.OutNew) { - createMode = CREATE_ALWAYS; // resets file - } - } - version (Posix) { - share = octal!666; - if (mode & FileMode.In) { - access = O_RDONLY; - } - if (mode & FileMode.Out) { - createMode = O_CREAT; // will create if not present - access = O_WRONLY; - } - if (access == (O_WRONLY | O_RDONLY)) { - access = O_RDWR; - } - if ((mode & FileMode.OutNew) == FileMode.OutNew) { - access |= O_TRUNC; // resets file - } - } - } - - /// Create a file for writing. - void create(string filename) { - create(filename, FileMode.OutNew); - } - - /// ditto - void create(string filename, FileMode mode) { - close(); - open(filename, mode | FileMode.OutNew); - } - - /// Close the current file if it is open; otherwise it does nothing. - override void close() { - if (isopen) { - super.close(); - if (hFile) { - version (Windows) { - CloseHandle(hFile); - hFile = null; - } else version (Posix) { - core.sys.posix.unistd.close(hFile); - hFile = -1; - } - } - } - } - - // destructor, closes file if still opened - ~this() { close(); } - - version (Windows) { - // returns size of stream - override @property ulong size() { - assertSeekable(); - uint sizehi; - uint sizelow = GetFileSize(hFile,&sizehi); - return (cast(ulong)sizehi << 32) + sizelow; - } - } - - override size_t readBlock(void* buffer, size_t size) { - assertReadable(); - version (Windows) { - auto dwSize = to!DWORD(size); - ReadFile(hFile, buffer, dwSize, &dwSize, null); - size = dwSize; - } else version (Posix) { - size = core.sys.posix.unistd.read(hFile, buffer, size); - if (size == -1) - size = 0; - } - readEOF = (size == 0); - return size; - } - - override size_t writeBlock(const void* buffer, size_t size) { - assertWriteable(); - version (Windows) { - auto dwSize = to!DWORD(size); - WriteFile(hFile, buffer, dwSize, &dwSize, null); - size = dwSize; - } else version (Posix) { - size = core.sys.posix.unistd.write(hFile, buffer, size); - if (size == -1) - size = 0; - } - return size; - } - - override ulong seek(long offset, SeekPos rel) { - assertSeekable(); - version (Windows) { - int hi = cast(int)(offset>>32); - uint low = SetFilePointer(hFile, cast(int)offset, &hi, rel); - if ((low == INVALID_SET_FILE_POINTER) && (GetLastError() != 0)) - throw new SeekException("unable to move file pointer"); - ulong result = (cast(ulong)hi << 32) + low; - } else version (Posix) { - auto result = lseek(hFile, cast(off_t)offset, rel); - if (result == cast(typeof(result))-1) - throw new SeekException("unable to move file pointer"); - } - readEOF = false; - return cast(ulong)result; - } - - /*** - * For a seekable file returns the difference of the size and position and - * otherwise returns 0. - */ - - override @property size_t available() { - if (seekable) { - ulong lavail = size - position; - if (lavail > size_t.max) lavail = size_t.max; - return cast(size_t)lavail; - } - return 0; - } - - // OS-specific property, just in case somebody wants - // to mess with underlying API - HANDLE handle() { return hFile; } - - // run a few tests - /+ - unittest { - import std.internal.cstring : tempCString; - - File file = new File; - int i = 666; - auto stream_file = undead.internal.file.deleteme ~ "-stream.$$$"; - file.create(stream_file); - // should be ok to write - assert(file.writeable); - file.writeLine("Testing stream.d:"); - file.writeString("Hello, world!"); - file.write(i); - // string#1 + string#2 + int should give exacly that - version (Windows) - assert(file.position == 19 + 13 + 4); - version (Posix) - assert(file.position == 18 + 13 + 4); - // we must be at the end of file - assert(file.eof); - file.close(); - // no operations are allowed when file is closed - assert(!file.readable && !file.writeable && !file.seekable); - file.open(stream_file); - // should be ok to read - assert(file.readable); - assert(file.available == file.size); - char[] line = file.readLine(); - char[] exp = "Testing stream.d:".dup; - assert(line[0] == 'T'); - assert(line.length == exp.length); - assert(!std.algorithm.cmp(line, "Testing stream.d:")); - // jump over "Hello, " - file.seek(7, SeekPos.Current); - version (Windows) - assert(file.position == 19 + 7); - version (Posix) - assert(file.position == 18 + 7); - assert(!std.algorithm.cmp(file.readString(6), "world!")); - i = 0; file.read(i); - assert(i == 666); - // string#1 + string#2 + int should give exacly that - version (Windows) - assert(file.position == 19 + 13 + 4); - version (Posix) - assert(file.position == 18 + 13 + 4); - // we must be at the end of file - assert(file.eof); - file.close(); - file.open(stream_file,FileMode.OutNew | FileMode.In); - file.writeLine("Testing stream.d:"); - file.writeLine("Another line"); - file.writeLine(""); - file.writeLine("That was blank"); - file.position = 0; - char[][] lines; - foreach(char[] line; file) { - lines ~= line.dup; - } - assert( lines.length == 4 ); - assert( lines[0] == "Testing stream.d:"); - assert( lines[1] == "Another line"); - assert( lines[2] == ""); - assert( lines[3] == "That was blank"); - file.position = 0; - lines = new char[][4]; - foreach(ulong n, char[] line; file) { - lines[cast(size_t)(n-1)] = line.dup; - } - assert( lines[0] == "Testing stream.d:"); - assert( lines[1] == "Another line"); - assert( lines[2] == ""); - assert( lines[3] == "That was blank"); - file.close(); - remove(stream_file.tempCString()); - } - +/ -} - -/*** - * This subclass is for buffered file system streams. - * - * It is a convenience class for wrapping a File in a BufferedStream. - * A buffered stream must be closed explicitly to ensure the final buffer - * content is written to the file. - */ -class BufferedFile: BufferedStream { - - /// opens file for reading - this() { super(new File()); } - - /// opens file in requested mode and buffer size - this(string filename, FileMode mode = FileMode.In, - size_t bufferSize = DefaultBufferSize) { - super(new File(filename,mode),bufferSize); - } - - /// opens file for reading with requested buffer size - this(File file, size_t bufferSize = DefaultBufferSize) { - super(file,bufferSize); - } - - /// opens existing handle; use with care! - this(HANDLE hFile, FileMode mode, size_t buffersize = DefaultBufferSize) { - super(new File(hFile,mode),buffersize); - } - - /// opens file in requested mode - void open(string filename, FileMode mode = FileMode.In) { - File sf = cast(File)s; - sf.open(filename,mode); - resetSource(); - } - - /// creates file in requested mode - void create(string filename, FileMode mode = FileMode.OutNew) { - File sf = cast(File)s; - sf.create(filename,mode); - resetSource(); - } - - // run a few tests same as File - /+ - unittest { - import std.internal.cstring : tempCString; - - BufferedFile file = new BufferedFile; - int i = 666; - auto stream_file = undead.internal.file.deleteme ~ "-stream.$$$"; - file.create(stream_file); - // should be ok to write - assert(file.writeable); - file.writeLine("Testing stream.d:"); - file.writeString("Hello, world!"); - file.write(i); - // string#1 + string#2 + int should give exacly that - version (Windows) - assert(file.position == 19 + 13 + 4); - version (Posix) - assert(file.position == 18 + 13 + 4); - // we must be at the end of file - assert(file.eof); - long oldsize = cast(long)file.size; - file.close(); - // no operations are allowed when file is closed - assert(!file.readable && !file.writeable && !file.seekable); - file.open(stream_file); - // should be ok to read - assert(file.readable); - // test getc/ungetc and size - char c1 = file.getc(); - file.ungetc(c1); - assert( file.size == oldsize ); - assert(!std.algorithm.cmp(file.readLine(), "Testing stream.d:")); - // jump over "Hello, " - file.seek(7, SeekPos.Current); - version (Windows) - assert(file.position == 19 + 7); - version (Posix) - assert(file.position == 18 + 7); - assert(!std.algorithm.cmp(file.readString(6), "world!")); - i = 0; file.read(i); - assert(i == 666); - // string#1 + string#2 + int should give exacly that - version (Windows) - assert(file.position == 19 + 13 + 4); - version (Posix) - assert(file.position == 18 + 13 + 4); - // we must be at the end of file - assert(file.eof); - file.close(); - remove(stream_file.tempCString()); - } - +/ - -} - -/// UTF byte-order-mark signatures -enum BOM { - UTF8, /// UTF-8 - UTF16LE, /// UTF-16 Little Endian - UTF16BE, /// UTF-16 Big Endian - UTF32LE, /// UTF-32 Little Endian - UTF32BE, /// UTF-32 Big Endian -} - -private enum int NBOMS = 5; -immutable Endian[NBOMS] BOMEndian = -[ std.system.endian, - Endian.littleEndian, Endian.bigEndian, - Endian.littleEndian, Endian.bigEndian - ]; - -immutable ubyte[][NBOMS] ByteOrderMarks = -[ [0xEF, 0xBB, 0xBF], - [0xFF, 0xFE], - [0xFE, 0xFF], - [0xFF, 0xFE, 0x00, 0x00], - [0x00, 0x00, 0xFE, 0xFF] - ]; - - -/*** - * This subclass wraps a stream with big-endian or little-endian byte order - * swapping. - * - * UTF Byte-Order-Mark (BOM) signatures can be read and deduced or - * written. - * Note that an EndianStream should not be used as the source of another - * FilterStream since a FilterStream call the source with byte-oriented - * read/write requests and the EndianStream will not perform any byte swapping. - * The EndianStream reads and writes binary data (non-getc functions) in a - * one-to-one - * manner with the source stream so the source stream's position and state will be - * kept in sync with the EndianStream if only non-getc functions are called. - */ -class EndianStream : FilterStream { - - Endian endian; /// Endianness property of the source stream. - - /*** - * Create the endian stream for the source stream source with endianness end. - * The default endianness is the native byte order. - * The Endian type is defined - * in the std.system module. - */ - this(Stream source, Endian end = std.system.endian) { - super(source); - endian = end; - } - - /*** - * Return -1 if no BOM and otherwise read the BOM and return it. - * - * If there is no BOM or if bytes beyond the BOM are read then the bytes read - * are pushed back onto the ungetc buffer or ungetcw buffer. - * Pass ungetCharSize == 2 to use - * ungetcw instead of ungetc when no BOM is present. - */ - int readBOM(int ungetCharSize = 1) { - ubyte[4] BOM_buffer; - int n = 0; // the number of read bytes - int result = -1; // the last match or -1 - for (int i=0; i < NBOMS; ++i) { - int j; - immutable ubyte[] bom = ByteOrderMarks[i]; - for (j=0; j < bom.length; ++j) { - if (n <= j) { // have to read more - if (eof) - break; - readExact(&BOM_buffer[n++],1); - } - if (BOM_buffer[j] != bom[j]) - break; - } - if (j == bom.length) // found a match - result = i; - } - ptrdiff_t m = 0; - if (result != -1) { - endian = BOMEndian[result]; // set stream endianness - m = ByteOrderMarks[result].length; - } - if ((ungetCharSize == 1 && result == -1) || (result == BOM.UTF8)) { - while (n-- > m) - ungetc(BOM_buffer[n]); - } else { // should eventually support unget for dchar as well - if (n & 1) // make sure we have an even number of bytes - readExact(&BOM_buffer[n++],1); - while (n > m) { - n -= 2; - wchar cw = *(cast(wchar*)&BOM_buffer[n]); - fixBO(&cw,2); - ungetcw(cw); - } - } - return result; - } - - /*** - * Correct the byte order of buffer to match native endianness. - * size must be even. - */ - final void fixBO(const(void)* buffer, size_t size) { - if (endian != std.system.endian) { - ubyte* startb = cast(ubyte*)buffer; - uint* start = cast(uint*)buffer; - switch (size) { - case 0: break; - case 2: { - ubyte x = *startb; - *startb = *(startb+1); - *(startb+1) = x; - break; - } - case 4: { - *start = bswap(*start); - break; - } - default: { - uint* end = cast(uint*)(buffer + size - uint.sizeof); - while (start < end) { - uint x = bswap(*start); - *start = bswap(*end); - *end = x; - ++start; - --end; - } - startb = cast(ubyte*)start; - ubyte* endb = cast(ubyte*)end; - auto len = uint.sizeof - (startb - endb); - if (len > 0) - fixBO(startb,len); - } - } - } - } - - /*** - * Correct the byte order of the given buffer in blocks of the given size and - * repeated the given number of times. - * size must be even. - */ - final void fixBlockBO(void* buffer, uint size, size_t repeat) { - while (repeat--) { - fixBO(buffer,size); - buffer += size; - } - } - - override void read(out byte x) { readExact(&x, x.sizeof); } - override void read(out ubyte x) { readExact(&x, x.sizeof); } - override void read(out short x) { readExact(&x, x.sizeof); fixBO(&x,x.sizeof); } - override void read(out ushort x) { readExact(&x, x.sizeof); fixBO(&x,x.sizeof); } - override void read(out int x) { readExact(&x, x.sizeof); fixBO(&x,x.sizeof); } - override void read(out uint x) { readExact(&x, x.sizeof); fixBO(&x,x.sizeof); } - override void read(out long x) { readExact(&x, x.sizeof); fixBO(&x,x.sizeof); } - override void read(out ulong x) { readExact(&x, x.sizeof); fixBO(&x,x.sizeof); } - override void read(out float x) { readExact(&x, x.sizeof); fixBO(&x,x.sizeof); } - override void read(out double x) { readExact(&x, x.sizeof); fixBO(&x,x.sizeof); } - override void read(out real x) { readExact(&x, x.sizeof); fixBO(&x,x.sizeof); } - override void read(out ifloat x) { readExact(&x, x.sizeof); fixBO(&x,x.sizeof); } - override void read(out idouble x) { readExact(&x, x.sizeof); fixBO(&x,x.sizeof); } - override void read(out ireal x) { readExact(&x, x.sizeof); fixBO(&x,x.sizeof); } - override void read(out cfloat x) { readExact(&x, x.sizeof); fixBlockBO(&x,float.sizeof,2); } - override void read(out cdouble x) { readExact(&x, x.sizeof); fixBlockBO(&x,double.sizeof,2); } - override void read(out creal x) { readExact(&x, x.sizeof); fixBlockBO(&x,real.sizeof,2); } - override void read(out char x) { readExact(&x, x.sizeof); } - override void read(out wchar x) { readExact(&x, x.sizeof); fixBO(&x,x.sizeof); } - override void read(out dchar x) { readExact(&x, x.sizeof); fixBO(&x,x.sizeof); } - - override wchar getcw() { - wchar c; - if (prevCr) { - prevCr = false; - c = getcw(); - if (c != '\n') - return c; - } - if (unget.length > 1) { - c = unget[unget.length - 1]; - unget.length = unget.length - 1; - } else { - void* buf = &c; - size_t n = readBlock(buf,2); - if (n == 1 && readBlock(buf+1,1) == 0) - throw new ReadException("not enough data in stream"); - fixBO(&c,c.sizeof); - } - return c; - } - - override wchar[] readStringW(size_t length) { - wchar[] result = new wchar[length]; - readExact(result.ptr, length * wchar.sizeof); - fixBlockBO(result.ptr, wchar.sizeof, length); - return result; - } - - /// Write the specified BOM b to the source stream. - void writeBOM(BOM b) { - immutable ubyte[] bom = ByteOrderMarks[b]; - writeBlock(bom.ptr, bom.length); - } - - override void write(byte x) { writeExact(&x, x.sizeof); } - override void write(ubyte x) { writeExact(&x, x.sizeof); } - override void write(short x) { fixBO(&x,x.sizeof); writeExact(&x, x.sizeof); } - override void write(ushort x) { fixBO(&x,x.sizeof); writeExact(&x, x.sizeof); } - override void write(int x) { fixBO(&x,x.sizeof); writeExact(&x, x.sizeof); } - override void write(uint x) { fixBO(&x,x.sizeof); writeExact(&x, x.sizeof); } - override void write(long x) { fixBO(&x,x.sizeof); writeExact(&x, x.sizeof); } - override void write(ulong x) { fixBO(&x,x.sizeof); writeExact(&x, x.sizeof); } - override void write(float x) { fixBO(&x,x.sizeof); writeExact(&x, x.sizeof); } - override void write(double x) { fixBO(&x,x.sizeof); writeExact(&x, x.sizeof); } - override void write(real x) { fixBO(&x,x.sizeof); writeExact(&x, x.sizeof); } - override void write(ifloat x) { fixBO(&x,x.sizeof); writeExact(&x, x.sizeof); } - override void write(idouble x) { fixBO(&x,x.sizeof); writeExact(&x, x.sizeof); } - override void write(ireal x) { fixBO(&x,x.sizeof); writeExact(&x, x.sizeof); } - override void write(cfloat x) { fixBlockBO(&x,float.sizeof,2); writeExact(&x, x.sizeof); } - override void write(cdouble x) { fixBlockBO(&x,double.sizeof,2); writeExact(&x, x.sizeof); } - override void write(creal x) { fixBlockBO(&x,real.sizeof,2); writeExact(&x, x.sizeof); } - override void write(char x) { writeExact(&x, x.sizeof); } - override void write(wchar x) { fixBO(&x,x.sizeof); writeExact(&x, x.sizeof); } - override void write(dchar x) { fixBO(&x,x.sizeof); writeExact(&x, x.sizeof); } - - override void writeStringW(const(wchar)[] str) { - foreach(wchar cw;str) { - fixBO(&cw,2); - s.writeExact(&cw, 2); - } - } - - override @property bool eof() { return s.eof && !ungetAvailable(); } - override @property ulong size() { return s.size; } - - unittest { - MemoryStream m; - m = new MemoryStream (); - EndianStream em = new EndianStream(m,Endian.bigEndian); - uint x = 0x11223344; - em.write(x); - assert( m.data[0] == 0x11 ); - assert( m.data[1] == 0x22 ); - assert( m.data[2] == 0x33 ); - assert( m.data[3] == 0x44 ); - em.position = 0; - ushort x2 = 0x5566; - em.write(x2); - assert( m.data[0] == 0x55 ); - assert( m.data[1] == 0x66 ); - em.position = 0; - static ubyte[12] x3 = [1,2,3,4,5,6,7,8,9,10,11,12]; - em.fixBO(x3.ptr,12); - if (std.system.endian == Endian.littleEndian) { - assert( x3[0] == 12 ); - assert( x3[1] == 11 ); - assert( x3[2] == 10 ); - assert( x3[4] == 8 ); - assert( x3[5] == 7 ); - assert( x3[6] == 6 ); - assert( x3[8] == 4 ); - assert( x3[9] == 3 ); - assert( x3[10] == 2 ); - assert( x3[11] == 1 ); - } - em.endian = Endian.littleEndian; - em.write(x); - assert( m.data[0] == 0x44 ); - assert( m.data[1] == 0x33 ); - assert( m.data[2] == 0x22 ); - assert( m.data[3] == 0x11 ); - em.position = 0; - em.write(x2); - assert( m.data[0] == 0x66 ); - assert( m.data[1] == 0x55 ); - em.position = 0; - em.fixBO(x3.ptr,12); - if (std.system.endian == Endian.bigEndian) { - assert( x3[0] == 12 ); - assert( x3[1] == 11 ); - assert( x3[2] == 10 ); - assert( x3[4] == 8 ); - assert( x3[5] == 7 ); - assert( x3[6] == 6 ); - assert( x3[8] == 4 ); - assert( x3[9] == 3 ); - assert( x3[10] == 2 ); - assert( x3[11] == 1 ); - } - em.writeBOM(BOM.UTF8); - assert( m.position == 3 ); - assert( m.data[0] == 0xEF ); - assert( m.data[1] == 0xBB ); - assert( m.data[2] == 0xBF ); - em.writeString ("Hello, world"); - em.position = 0; - assert( m.position == 0 ); - assert( em.readBOM() == BOM.UTF8 ); - assert( m.position == 3 ); - assert( em.getc() == 'H' ); - em.position = 0; - em.writeBOM(BOM.UTF16BE); - assert( m.data[0] == 0xFE ); - assert( m.data[1] == 0xFF ); - em.position = 0; - em.writeBOM(BOM.UTF16LE); - assert( m.data[0] == 0xFF ); - assert( m.data[1] == 0xFE ); - em.position = 0; - em.writeString ("Hello, world"); - em.position = 0; - assert( em.readBOM() == -1 ); - assert( em.getc() == 'H' ); - assert( em.getc() == 'e' ); - assert( em.getc() == 'l' ); - assert( em.getc() == 'l' ); - em.position = 0; - } -} - -/*** - * Parameterized subclass that wraps an array-like buffer with a stream - * interface. - * - * The type Buffer must support the length property, opIndex and opSlice. - * Compile in release mode when directly instantiating a TArrayStream to avoid - * link errors. - */ -class TArrayStream(Buffer): Stream { - Buffer buf; // current data - ulong len; // current data length - ulong cur; // current file position - - /// Create the stream for the the buffer buf. Non-copying. - this(Buffer buf) { - super (); - this.buf = buf; - this.len = buf.length; - readable = writeable = seekable = true; - } - - // ensure subclasses don't violate this - invariant() { - assert(len <= buf.length); - assert(cur <= len); - } - - override size_t readBlock(void* buffer, size_t size) { - assertReadable(); - ubyte* cbuf = cast(ubyte*) buffer; - if (len - cur < size) - size = cast(size_t)(len - cur); - ubyte[] ubuf = cast(ubyte[])buf[cast(size_t)cur .. cast(size_t)(cur + size)]; - cbuf[0 .. size] = ubuf[]; - cur += size; - return size; - } - - override size_t writeBlock(const void* buffer, size_t size) { - assertWriteable(); - ubyte* cbuf = cast(ubyte*) buffer; - ulong blen = buf.length; - if (cur + size > blen) - size = cast(size_t)(blen - cur); - ubyte[] ubuf = cast(ubyte[])buf[cast(size_t)cur .. cast(size_t)(cur + size)]; - ubuf[] = cbuf[0 .. size]; - cur += size; - if (cur > len) - len = cur; - return size; - } - - override ulong seek(long offset, SeekPos rel) { - assertSeekable(); - long scur; // signed to saturate to 0 properly - - switch (rel) { - case SeekPos.Set: scur = offset; break; - case SeekPos.Current: scur = cast(long)(cur + offset); break; - case SeekPos.End: scur = cast(long)(len + offset); break; - default: - assert(0); - } - - if (scur < 0) - cur = 0; - else if (scur > len) - cur = len; - else - cur = cast(ulong)scur; - - return cur; - } - - override @property size_t available () { return cast(size_t)(len - cur); } - - /// Get the current memory data in total. - @property ubyte[] data() { - if (len > size_t.max) - throw new StreamException("Stream too big"); - const(void)[] res = buf[0 .. cast(size_t)len]; - return cast(ubyte[])res; - } - - override string toString() { - // assume data is UTF8 - return to!(string)(cast(char[])data); - } -} - -/* Test the TArrayStream */ -unittest { - char[100] buf; - TArrayStream!(char[]) m; - - m = new TArrayStream!(char[]) (buf); - assert (m.isOpen); - m.writeString ("Hello, world"); - assert (m.position == 12); - assert (m.available == 88); - assert (m.seekSet (0) == 0); - assert (m.available == 100); - assert (m.seekCur (4) == 4); - assert (m.available == 96); - assert (m.seekEnd (-8) == 92); - assert (m.available == 8); - assert (m.size == 100); - assert (m.seekSet (4) == 4); - assert (m.readString (4) == "o, w"); - m.writeString ("ie"); - assert (buf[0..12] == "Hello, wield"); - assert (m.position == 10); - assert (m.available == 90); - assert (m.size == 100); - m.seekSet (0); - assert (m.printf ("Answer is %d", 42) == 12); - assert (buf[0..12] == "Answer is 42"); -} - -/// This subclass reads and constructs an array of bytes in memory. -class MemoryStream: TArrayStream!(ubyte[]) { - - /// Create the output buffer and setup for reading, writing, and seeking. - // clear to an empty buffer. - this() { this(cast(ubyte[]) null); } - - /*** - * Create the output buffer and setup for reading, writing, and seeking. - * Load it with specific input data. - */ - this(ubyte[] buf) { super (buf); } - this(byte[] buf) { this(cast(ubyte[]) buf); } /// ditto - this(char[] buf) { this(cast(ubyte[]) buf); } /// ditto - - /// Ensure the stream can write count extra bytes from cursor position without an allocation. - void reserve(size_t count) { - if (cur + count > buf.length) - buf.length = cast(uint)((cur + count) * 2); - } - - override size_t writeBlock(const void* buffer, size_t size) { - reserve(size); - return super.writeBlock(buffer,size); - } - - unittest { - MemoryStream m; - - m = new MemoryStream (); - assert (m.isOpen); - m.writeString ("Hello, world"); - assert (m.position == 12); - assert (m.seekSet (0) == 0); - assert (m.available == 12); - assert (m.seekCur (4) == 4); - assert (m.available == 8); - assert (m.seekEnd (-8) == 4); - assert (m.available == 8); - assert (m.size == 12); - assert (m.readString (4) == "o, w"); - m.writeString ("ie"); - assert (cast(char[]) m.data == "Hello, wield"); - m.seekEnd (0); - m.writeString ("Foo"); - assert (m.position == 15); - assert (m.available == 0); - m.writeString ("Foo foo foo foo foo foo foo"); - assert (m.position == 42); - m.position = 0; - assert (m.available == 42); - m.writef("%d %d %s",100,345,"hello"); - auto str = m.toString(); - assert (str[0..13] == "100 345 hello", str[0 .. 13]); - assert (m.available == 29); - assert (m.position == 13); - - MemoryStream m2; - m.position = 3; - m2 = new MemoryStream (); - m2.writeString("before"); - m2.copyFrom(m,10); - str = m2.toString(); - assert (str[0..16] == "before 345 hello"); - m2.position = 3; - m2.copyFrom(m); - auto str2 = m.toString(); - str = m2.toString(); - assert (str == ("bef" ~ str2)); - } -} - -import std.mmfile; - -/*** - * This subclass wraps a memory-mapped file with the stream API. - * See std.mmfile module. - */ -class MmFileStream : TArrayStream!(MmFile) { - - /// Create stream wrapper for file. - this(MmFile file) { - super (file); - MmFile.Mode mode = file.mode(); - writeable = mode > MmFile.Mode.read; - } - - override void flush() { - if (isopen) { - super.flush(); - buf.flush(); - } - } - - override void close() { - if (isopen) { - super.close(); - delete buf; - buf = null; - } - } -} - -unittest { - auto test_file = undead.internal.file.deleteme ~ "-testing.txt"; - MmFile mf = new MmFile(test_file,MmFile.Mode.readWriteNew,100,null); - MmFileStream m; - m = new MmFileStream (mf); - m.writeString ("Hello, world"); - assert (m.position == 12); - assert (m.seekSet (0) == 0); - assert (m.seekCur (4) == 4); - assert (m.seekEnd (-8) == 92); - assert (m.size == 100); - assert (m.seekSet (4)); - assert (m.readString (4) == "o, w"); - m.writeString ("ie"); - ubyte[] dd = m.data; - assert ((cast(char[]) dd)[0 .. 12] == "Hello, wield"); - m.position = 12; - m.writeString ("Foo"); - assert (m.position == 15); - m.writeString ("Foo foo foo foo foo foo foo"); - assert (m.position == 42); - m.close(); - mf = new MmFile(test_file); - m = new MmFileStream (mf); - assert (!m.writeable); - char[] str = m.readString(12); - assert (str == "Hello, wield"); - m.close(); - std.file.remove(test_file); -} - - -/*** - * This subclass slices off a portion of another stream, making seeking relative - * to the boundaries of the slice. - * - * It could be used to section a large file into a - * set of smaller files, such as with tar archives. Reading and writing a - * SliceStream does not modify the position of the source stream if it is - * seekable. - */ -class SliceStream : FilterStream { - private { - ulong pos; // our position relative to low - ulong low; // low stream offset. - ulong high; // high stream offset. - bool bounded; // upper-bounded by high. - } - - /*** - * Indicate both the source stream to use for reading from and the low part of - * the slice. - * - * The high part of the slice is dependent upon the end of the source - * stream, so that if you write beyond the end it resizes the stream normally. - */ - this (Stream s, ulong low) - in { - assert (low <= s.size); - } - body { - super(s); - this.low = low; - this.high = 0; - this.bounded = false; - } - - /*** - * Indicate the high index as well. - * - * Attempting to read or write past the high - * index results in the end being clipped off. - */ - this (Stream s, ulong low, ulong high) - in { - assert (low <= high); - assert (high <= s.size); - } - body { - super(s); - this.low = low; - this.high = high; - this.bounded = true; - } - - invariant() { - if (bounded) - assert (pos <= high - low); - else - // size() does not appear to be const, though it should be - assert (pos <= (cast()s).size - low); - } - - override size_t readBlock (void *buffer, size_t size) { - assertReadable(); - if (bounded && size > high - low - pos) - size = cast(size_t)(high - low - pos); - ulong bp = s.position; - if (seekable) - s.position = low + pos; - size_t ret = super.readBlock(buffer, size); - if (seekable) { - pos = s.position - low; - s.position = bp; - } - return ret; - } - - override size_t writeBlock (const void *buffer, size_t size) { - assertWriteable(); - if (bounded && size > high - low - pos) - size = cast(size_t)(high - low - pos); - ulong bp = s.position; - if (seekable) - s.position = low + pos; - size_t ret = s.writeBlock(buffer, size); - if (seekable) { - pos = s.position - low; - s.position = bp; - } - return ret; - } - - override ulong seek(long offset, SeekPos rel) { - assertSeekable(); - long spos; - - switch (rel) { - case SeekPos.Set: - spos = offset; - break; - case SeekPos.Current: - spos = cast(long)(pos + offset); - break; - case SeekPos.End: - if (bounded) - spos = cast(long)(high - low + offset); - else - spos = cast(long)(s.size - low + offset); - break; - default: - assert(0); - } - - if (spos < 0) - pos = 0; - else if (bounded && spos > high - low) - pos = high - low; - else if (!bounded && spos > s.size - low) - pos = s.size - low; - else - pos = cast(ulong)spos; - - readEOF = false; - return pos; - } - - override @property size_t available() { - size_t res = s.available; - ulong bp = s.position; - if (bp <= pos+low && pos+low <= bp+res) { - if (!bounded || bp+res <= high) - return cast(size_t)(bp + res - pos - low); - else if (high <= bp+res) - return cast(size_t)(high - pos - low); - } - return 0; - } - - unittest { - MemoryStream m; - SliceStream s; - - m = new MemoryStream ((cast(char[])"Hello, world").dup); - s = new SliceStream (m, 4, 8); - assert (s.size == 4); - assert (m.position == 0); - assert (s.position == 0); - assert (m.available == 12); - assert (s.available == 4); - - assert (s.writeBlock (cast(char *) "Vroom", 5) == 4); - assert (m.position == 0); - assert (s.position == 4); - assert (m.available == 12); - assert (s.available == 0); - assert (s.seekEnd (-2) == 2); - assert (s.available == 2); - assert (s.seekEnd (2) == 4); - assert (s.available == 0); - assert (m.position == 0); - assert (m.available == 12); - - m.seekEnd(0); - m.writeString("\nBlaho"); - assert (m.position == 18); - assert (m.available == 0); - assert (s.position == 4); - assert (s.available == 0); - - s = new SliceStream (m, 4); - assert (s.size == 14); - assert (s.toString () == "Vrooorld\nBlaho"); - s.seekEnd (0); - assert (s.available == 0); - - s.writeString (", etcetera."); - assert (s.position == 25); - assert (s.seekSet (0) == 0); - assert (s.size == 25); - assert (m.position == 18); - assert (m.size == 29); - assert (m.toString() == "HellVrooorld\nBlaho, etcetera."); - } -} -- cgit v1.2.3