From: Giftpflanze Date: Sun, 11 Feb 2024 12:42:33 +0000 (+0100) Subject: math.parser: Add Dragonbox float representation algorithm X-Git-Url: https://gitweb.factorcode.org/gitweb.cgi?p=factor.git;a=commitdiff_plain;h=58377ffad594ed72c42f26b3aecf49b6dc269ad4 math.parser: Add Dragonbox float representation algorithm * Remove fmtlib * Simplify `format-float`, rename to `format-float*` * Change format: - no trailing zeroes in exponential format - no plus in exponents - no exponential format if the decimal representation of the significand has 17 digits or less --- diff --git a/GNUmakefile b/GNUmakefile index e9452fba6d..36d83ef5d1 100644 --- a/GNUmakefile +++ b/GNUmakefile @@ -74,7 +74,6 @@ ifdef CONFIG vm/entry_points.o \ vm/errors.o \ vm/factor.o \ - vm/format.o \ vm/full_collector.o \ vm/gc.o \ vm/image.o \ diff --git a/basis/calendar/format/format.factor b/basis/calendar/format/format.factor index b2f6ee388e..843c26f4fd 100644 --- a/basis/calendar/format/format.factor +++ b/basis/calendar/format/format.factor @@ -32,7 +32,7 @@ MACRO: formatted ( spec -- quot ) ! Should be enough for anyone, allows to not do a fancy ! algorithm to detect infinite decimals (e.g 1/3) : ss.SSSSSS ( timestamp -- ) - second>> >float "0" 9 6 "f" "C" format-float write ; + second>> >float "0" 9 6 "f" "C" format-float* write ; : hhmm ( timestamp -- ) [ hh ] [ mm ] bi ; diff --git a/basis/formatting/formatting.factor b/basis/formatting/formatting.factor index 5bfb1950fc..a04583367d 100644 --- a/basis/formatting/formatting.factor +++ b/basis/formatting/formatting.factor @@ -5,7 +5,7 @@ calendar.private combinators combinators.smart generalizations io io.streams.string kernel math math.functions math.parser multiline namespaces peg.ebnf present prettyprint quotations sequences sequences.generalizations splitting strings unicode ; -FROM: math.parser.private => format-float ; +FROM: math.parser.private => format-float* ; IN: formatting ERROR: unknown-format-directive value ; @@ -57,7 +57,7 @@ ERROR: unknown-format-directive value ; ] keepd neg? [ CHAR: - prefix ] when ; : format-float-fast ( x digits string -- string ) - [ "" -1 ] 2dip "C" format-float ; + [ "" -1 ] 2dip "C" format-float* ; : format-fast-scientific? ( x digits -- x' digits ? ) over float? [ t ] @@ -68,10 +68,8 @@ ERROR: unknown-format-directive value ; ] if ; : format-scientific ( x digits -- string ) - format-fast-scientific? [ - [ "e" format-float-fast ] - [ [ ".0e" "e" replace ] [ drop ] if-zero ] bi - ] [ format-scientific-simple ] if ; + format-fast-scientific? + [ "e" format-float-fast ] [ format-scientific-simple ] if ; : format-fast-decimal? ( x digits -- x' digits ? ) over float? [ t ] @@ -87,10 +85,8 @@ ERROR: unknown-format-directive value ; ] if ; inline : format-decimal ( x digits -- string ) - format-fast-decimal? [ - [ "f" format-float-fast ] - [ [ ".0" ?tail drop ] [ drop ] if-zero ] bi - ] [ format-decimal-simple ] if ; + format-fast-decimal? + [ "f" format-float-fast ] [ format-decimal-simple ] if ; EBNF: parse-printf [=[ diff --git a/core/math/parser/parser-tests.factor b/core/math/parser/parser-tests.factor index 9faa75870a..b0eff91870 100644 --- a/core/math/parser/parser-tests.factor +++ b/core/math/parser/parser-tests.factor @@ -138,8 +138,8 @@ unit-test { -1.0e-12 } [ "-1.0e-12" string>number ] unit-test -{ t } -[ "-1.0e-12" string>number number>string { "-1.0e-12" "-1.0e-012" } member? ] +{ "-0.000000000001" } +[ "-1.0e-12" string>number number>string ] unit-test { f } @@ -495,7 +495,7 @@ unit-test ! Missing locale { "" } [ - 33.4 "" 4 4 "f" "missing" format-float + 33.4 "" 4 4 "f" "missing" format-float* ] unit-test ! Literal byte arrays are mutable, so (format-float) isn't foldable. @@ -514,3 +514,231 @@ unit-test { "143.99999999999997" } [ 0x1.1ffffffffffffp7 number>string ] unit-test { "144.0" } [ 0x1.2p7 number>string ] unit-test { "144.00000000000003" } [ 0x1.2000000000001p7 number>string ] unit-test + +{ 0x80000000000000000000000000000000 } [ 0 φ ] unit-test + +{ + ! edgecases + { 20 0 "1e-322" } + { 1 0 "5e-324" } + { 0x000fffffffffffff 0 "2.225073858507201e-308" } + { 0 1 "2.2250738585072014e-308" } + { 1 1 "2.225073858507202e-308" } + { 0x000fffffffffffff 1 "4.4501477170144023e-308" } + { 0 2 "4.450147717014403e-308" } + { 1 2 "4.450147717014404e-308" } + { 0 4 "1.7800590868057611e-307" } + { 0 5 "3.5601181736115222e-307" } + { 0 6 "7.120236347223045e-307" } + { 0 10 "1.1392378155556871e-305" } + { 0x000ffffffffffffe 2046 "1.7976931348623155e308" } + { 0x000fffffffffffff 2046 "1.7976931348623157e308" } + + ! stress tests, < 1/2 ulp + { 4007430392905160 733 "9.5e-88" } + { 698388779696245 251 "4.65e-233" } + { 1903293320899403 1312 "1.415e87" } + { 3927554571361996 1147 "3.9815e37" } + { 1971449568774091 1174 "4.10405e45" } + { 3770707915602346 1801 "2.920845e234" } + { 877465856894836 619 "2.8919465e-122" } + { 2258128958129238 18 "4.37877185e-303" } + { 3472938851240260 1451 "1.227701635e129" } + { 1478804231587571 1452 "1.8415524525e129" } + { 1033395563260341 1168 "5.48357443505e43" } + { 2721851261911698 1785 "3.891901811465e229" } + { 2721851261911698 1784 "1.9459509057325e229" } + { 4199773113776883 1192 "1.44609583816055e51" } + { 4440663047904721 74 "4.173677474585315e-286" } + { 2956204068717196 368 "1.1079507728788885e-197" } + { 1576869389299883 694 "1.234550136632744e-99" } + { 3881915519664261 1796 "9.25031711960365e232" } + { 3010617184019290 247 "4.19804715028489e-234" } + { 3893698175890015 730 "1.1716315319786511e-88" } + { 2229859611940047 1277 "4.328100728446125e76" } + { 3587850959922298 602 "3.317710118160031e-127" } + + ! stress tests, > 1/2 ulp + { 2063659254706906 2027 "2.5e302" } + { 2209131796074438 1610 "7.55e176" } + { 2209131796074438 1609 "3.775e176" } + { 794805784202541 118 "4.3495e-273" } + { 633711540289011 931 "2.30365e-28" } + { 2218681082291372 1438 "1.263005e125" } + { 840836770664431 906 "7.1422105e-36" } + { 3865523976906785 222 "1.39345735e-241" } + { 4492222481117167 295 "1.414634485e-219" } + { 4439233208194286 692 "4.5392779195e-100" } + { 4439233208194286 691 "2.26963895975e-100" } + { 4439233208194286 690 "1.134819479875e-100" } + { 2462349842116650 826 "7.7003665618895e-60" } + { 2462349842116650 825 "3.85018328094475e-60" } + { 2462349842116650 824 "1.925091640472375e-60" } + { 2983653093616330 1623 "6.8985865317742005e180" } + { 1088518052258015 1239 "1.3076622631878654e65" } + { 4383455621985292 1740 "1.3605202075612124e216" } + { 2490587845261953 1765 "3.5928102174759597e223" } + { 4293976951641647 1663 "8.912519771248455e192" } + { 2859727106134841 1347 "5.5876975736230114e97" } + { 4045897783924006 627 "1.1762578307285404e-119" } +} [| tuple | + tuple first3 :> ( F E str ) + { str } [ "" F E dragonbox general-format ] unit-test +] each + +{ + ! regression tests + { 1.5745340942675811e257 "1.574534094267581e257" } + { 1.6521200219181297e-180 "1.6521200219181297e-180" } + { 4.6663180925160944e-302 "4.6663180925160944e-302" } + { 2.0919495182368195e19 "2.0919495182368195e19" } + { 2.6760179287532483e19 "2.6760179287532483e19" } + { 3.2942957306323907e19 "3.2942957306323907e19" } + { 3.9702293349085635e19 "3.9702293349085635e19" } + { 4.0647939013152195e19 "4.0647939013152195e19" } + { 1.8014398509481984e16 "1.8014398509481984e16" } + { 1.8014398509481985e16 "1.8014398509481984e16" } + + ! rounding tests + { 1.00000000000000005 "1.0" } + { 1.00000000000000015 "1.0000000000000002" } + { 1.99999999999999985 "1.9999999999999998" } + { 1.99999999999999995 "2.0" } + { 1125899906842623.75 "1125899906842623.8" } + { 1125899906842624.25 "1125899906842624.2" } + { 562949953421312.25 "562949953421312.2" } + { 2.20781707763671875 "2.2078170776367188" } + { 1.81835174560546875 "1.8183517456054688" } + { 3.94171905517578125 "3.9417190551757812" } + { 3.73860931396484375 "3.7386093139648438" } + { 3.96773529052734375 "3.9677352905273438" } + { 1.32802581787109375 "1.3280258178710938" } + { 3.92096710205078125 "3.9209671020507812" } + { 1.01523590087890625 "1.0152359008789062" } + { 1.33522796630859375 "1.3352279663085938" } + { 1.34452056884765625 "1.3445205688476562" } + { 2.87912750244140625 "2.8791275024414062" } + { 3.69583892822265625 "3.6958389282226562" } + { 1.84534454345703125 "1.8453445434570312" } + { 3.79395294189453125 "3.7939529418945312" } + { 3.21140289306640625 "3.2114028930664062" } + { 2.56597137451171875 "2.5659713745117188" } + { 0.96515655517578125 "0.9651565551757812" } + { 2.70000457763671875 "2.7000045776367188" } + { 0.76709747314453125 "0.7670974731445312" } + { 1.78044891357421875 "1.7804489135742188" } + { 2.62483978271484375 "2.6248397827148438" } + { 1.30529022216796875 "1.3052902221679688" } + { 3.83492279052734375 "3.8349227905273438" } + + ! integer tests + { 1.0 "1.0" } + { 10.0 "10.0" } + { 100.0 "100.0" } + { 1000.0 "1000.0" } + { 10000.0 "10000.0" } + { 100000.0 "100000.0" } + { 1000000.0 "1000000.0" } + { 10000000.0 "10000000.0" } + { 100000000.0 "100000000.0" } + { 1000000000.0 "1000000000.0" } + { 10000000000.0 "10000000000.0" } + { 100000000000.0 "100000000000.0" } + { 1000000000000.0 "1000000000000.0" } + { 10000000000000.0 "10000000000000.0" } + { 100000000000000.0 "100000000000000.0" } + { 1000000000000000.0 "1000000000000000.0" } + { 9007199254740000.0 "9007199254740000.0" } + { 9007199254740992.0 "9007199254740992.0" } + { 1e22 "1e22" } + { 1e23 "1e23" } +} [| tuple | + tuple first2 :> ( n str ) + { str } [ n format-float ] unit-test +] each + +{ + ! regression tests + 6.1734402962680736e199 + 2.4400113864427797e-153 + 5.2632699518024996e199 + 5.0806205262434145e252 + 6.7785205636751565e118 + 1.1240911411101675e-251 + 8.139240250313929e194 + 4.8614002257993364e178 + 2.752696193128505e129 + 3.1770556126883376e-271 + 2.242759017628732e-248 + 1.7802970329193148e-77 + 3.806109028477244e187 + 1.1848198569896827e213 + 2.9391656381652973e-100 + 6.424228912347e278 + 1.2645752114230544e236 + 8.42515920555967e-234 + 2.7329003323103567e46 + 1.3794281777002848e132 + 1.7142202471499735e280 + 9.634269789762257e200 + 8.083700236068939e-82 + 1.5588992945750237e163 + 1.0074862449311154e-133 + 3.1674528983750413e156 + 1.8663368017075642e168 + 2.7789467828287196e-24 + 1.3816831617696479e116 + 8.197561614832019e-114 + 1.7020441232782313e-247 + 4.1401971003386077e-194 + 1.5769408597238478e-194 + 3.3471805328331117e299 + 5.529329422375565e-66 + 1.6103234499457023e-135 + 2.9198565218330256e-280 + 8.038156131293134e163 + 1.3920716328733164e-171 + 6.827324062276435e-27 + 8.807592735347699e-71 + 3.3728552641313123e-123 + 2.4122679021903798e236 + 8.266944620606866e-263 + 2.7137385859318285e105 + 1.863720230324117e232 + 7.972905225864674e-54 + 2.2844314792315022e125 + 9.70790738880233e-169 + 1.2665834799024419e44 + 3.3484409434495807e284 + 1.3582268200372764e84 + 3.4534664118884534e-136 + 9.035819340849007e181 + 2.0437259151405597e174 + 9.859326049199017e-251 + 1.3201219024272826e162 + 1.3893748715780833e65 + 6.447847606411378e49 + 5.465125341473931e80 +} [| n | + { n } [ n format-float dec> ] unit-test +] each + +{ + ! regression tests + 0x38FB2D4A60898DAB + 0x453F265980DCB674 + 0x0A4FB5016FF839C0 + 0x38F1C98B4F73D69C + 0x1F8D0A0A25B8C46D + 0x4361B4CCC78673FD + 0x43C3F516F5C2AE90 + 0x4386C73EFAE567DA + 0x471F25D5F53ACB9B + 0x459AF3D7E7CDDDFF + 0x465D1C534CC2368F + 0x455FCEB5B44D932F + 0x45B5C534DA985042 +} [| n | + { n } [ n bits>double format-float dec> double>bits ] + unit-test +] each diff --git a/core/math/parser/parser.factor b/core/math/parser/parser.factor index c0dc58ff33..eb8da944ec 100644 --- a/core/math/parser/parser.factor +++ b/core/math/parser/parser.factor @@ -1,8 +1,8 @@ ! Copyright (C) 2009 Joe Groff, 2013 John Benediktsson ! See https://factorcode.org/license.txt for BSD license. USING: accessors byte-arrays combinators kernel kernel.private -layouts make math math.private sbufs sequences sequences.private -strings ; +layouts make math math.order math.private sbufs sequences +sequences.private strings ; IN: math.parser base bits bitnot bitand -52 shift ] bi - mantissa-expt-normalize ; + [ -0.0 double>bits bitnot bitand -52 shift ] bi ; inline + +: mantissa-expt ( bits -- mantissa expt ) + (mantissa-expt) mantissa-expt-normalize ; -: bin-float-sign ( bits -- str ) - -0.0 double>bits bitand zero? "" "-" ? ; +: float-sign ( bits -- str ) 63 bit? "-" "" ? ; inline : bin-float-value ( str size -- str' ) CHAR: 0 pad-head [ CHAR: 0 = ] trim-tail @@ -540,12 +533,12 @@ M: ratio >base : float>bin-value ( mantissa -- str ) >bin 52 bin-float-value ; -: bin-float-expt ( mantissa -- str ) +: bin-float-expt ( exponent -- str ) 10 >base "p" prepend ; : (bin-float>base) ( value-quot n -- str ) double>bits - [ bin-float-sign swap ] [ + [ float-sign swap ] [ mantissa-expt rot [ bin-float-expt ] bi* ] bi 3append ; inline @@ -560,18 +553,458 @@ M: ratio >base : format-string ( format -- format ) 0 suffix >byte-array ; foldable -: format-float ( n fill width precision format locale -- string ) - [ - [ format-string ] 4dip [ format-string ] bi@ (format-float) - >string +: format-float* ( n fill width precision format locale -- string ) + [ format-string ] 4dip + [ format-string ] bi@ + (format-float) >string ; inline + +! Dragonbox algorithm + +: ⌊nlog10_2⌋ ( n -- m ) 315653 * -20 shift ; inline + +: ⌊nlog2_10⌋ ( n -- m ) 1741647 * -19 shift ; inline + +: 1000/ ( n -- m ) 2361183241434822607 * -71 shift ; inline + +: ⌊nlog10_2-log10_4/3⌋ ( n -- m ) + 631305 * 261663 - -21 shift ; inline + +: 100/mod ( n -- t ρ≠0? ) + 656 * [ -16 shift ] [ 16 2^ 1 - bitand 656 >= ] bi ; inline + +: >double< ( n -- s F E ) + double>bits [ float-sign ] [ (mantissa-expt) ] bi ; inline + +: mantissa-expt-normalize* ( F E -- F' E' ) + [ -1022 ] [ [ 52 2^ bitor ] [ 1023 - ] bi* ] if-zero + 52 - ; inline + +: shorter-interval? ( F E -- ? ) + [ zero? ] [ 1 > ] bi* and ; inline + +: k ( E -- k ) ⌊nlog10_2⌋ neg 2 + ; inline + +CONSTANT: lookup-table { +0xc795830d75038c1dd59df5b9ef6a2418 0xf97ae3d0d2446f254b0573286b44ad1e +0x9becce62836ac5774ee367f9430aec33 0xc2e801fb244576d5229c41f793cda740 +0xf3a20279ed56d48a6b43527578c11110 0x9845418c345644d6830a13896b78aaaa +0xbe5691ef416bd60c23cc986bc656d554 0xedec366b11c6cb8f2cbfbe86b7ec8aa9 +0x94b3a202eb1c3f397bf7d71432f3d6aa 0xb9e08a83a5e34f07daf5ccd93fb0cc54 +0xe858ad248f5c22c9d1b3400f8f9cff69 0x91376c36d99995be23100809b9c21fa2 +0xb58547448ffffb2dabd40a0c2832a78b 0xe2e69915b3fff9f916c90c8f323f516d +0x8dd01fad907ffc3bae3da7d97f6792e4 0xb1442798f49ffb4a99cd11cfdf41779d +0xdd95317f31c7fa1d40405643d711d584 0x8a7d3eef7f1cfc52482835ea666b2573 +0xad1c8eab5ee43b66da3243650005eed0 0xd863b256369d4a4090bed43e40076a83 +0x873e4f75e2224e685a7744a6e804a292 0xa90de3535aaae202711515d0a205cb37 +0xd3515c2831559a830d5a5b44ca873e04 0x8412d9991ed58091e858790afe9486c3 +0xa5178fff668ae0b6626e974dbe39a873 0xce5d73ff402d98e3fb0a3d212dc81290 +0x80fa687f881c7f8e7ce66634bc9d0b9a 0xa139029f6a239f721c1fffc1ebc44e81 +0xc987434744ac874ea327ffb266b56221 0xfbe9141915d7a9224bf1ff9f0062baa9 +0x9d71ac8fada6c9b56f773fc3603db4aa 0xc4ce17b399107c22cb550fb4384d21d4 +0xf6019da07f549b2b7e2a53a146606a49 0x99c102844f94e0fb2eda7444cbfc426e +0xc0314325637a1939fa911155fefb5309 0xf03d93eebc589f88793555ab7eba27cb +0x96267c7535b763b54bc1558b2f3458df 0xbbb01b9283253ca29eb1aaedfb016f17 +0xea9c227723ee8bcb465e15a979c1cadd 0x92a1958a7675175f0bfacd89ec191eca +0xb749faed14125d36cef980ec671f667c 0xe51c79a85916f48482b7e12780e7401b +0x8f31cc0937ae58d2d1b2ecb8b0908811 0xb2fe3f0b8599ef07861fa7e6dcb4aa16 +0xdfbdcece67006ac967a791e093e1d49b 0x8bd6a141006042bde0c8bb2c5c6d24e1 +0xaecc49914078536d58fae9f773886e19 0xda7f5bf590966848af39a475506a899f +0x888f99797a5e012d6d8406c952429604 0xaab37fd7d8f58178c8e5087ba6d33b84 +0xd5605fcdcf32e1d6fb1e4a9a90880a65 0x855c3be0a17fcd265cf2eea09a550680 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[ odd? ] when ] + [ neg 2^ 1 - bitand zero? ] 2bi ; inline + +: xi ( F φ β -- xi-odd? xi? ) -1 t wi ; inline +: yi ( F φ β -- yi-odd? yi? ) 0 t wi ; inline +: zi ( F φ β -- zi zi? ) 1 f wi ; inline + +: s/r ( zi -- s r ) [ 1000/ ] keep over 1000 * - ; inline + +: δi ( φ β -- δi ) 127 - shift ; inline + +: strip-zeroes ( s -- s' d ) + 0 [ + over 10 /mod zero? + [ [ nipd swap 1 + ] [ drop ] if ] keep + ] loop ; inline + +:: normal-interval ( F E -- f e ) + F even? :> w∈I? + E k :> k + k φ :> φ + E k β :> β + φ β δi :> δi + F φ β zi :> ( zi zi? ) + zi s/r + dup δi <=> { + { +gt+ [ f ] } + { +lt+ [ + w∈I? not over zero? zi? and and + [ [ [ 1 - ] [ drop 1000 ] bi* ] when ] keep not + ] } + { +eq+ [ + F φ β xi :> ( xi-odd? xi? ) + xi-odd? [ w∈I? not xi? or ] unless* + ] } + } case [ + drop strip-zeroes k - 3 + ] [ - "C" = [ [ "G" = ] [ "E" = ] bi or CHAR: E CHAR: e ? fix-float ] - [ drop ] if - ] 2bi ; inline + 50 + δi 2/ - :> D + D 100/mod :> ( t ρ≠0? ) + 10 * t + { + { [ ρ≠0? ] [ ] } + { [ + F φ β yi :> ( yi-odd? yi? ) + D 50 - even? yi-odd? eq? over odd? yi? and or + ] [ 1 - ] } + [ ] + } cond 2 k - + ] if ; inline + +: k0 ( E -- k0 ) ⌊nlog10_2-log10_4/3⌋ neg ; inline + +:: w̃i ( φ β w∈I? E n1 q1 n2 q2 n3 -- w̃i ) + φ -64 2dup 52 - n1 - [ shift ] 2bi@ q1 call β 11 - shift + w∈I? E n2 3 between? q2 call [ n3 + ] unless ; inline + +: x̃i ( φ β x∈I? E -- x̃i ) 2 [ - ] 2 [ and ] 1 w̃i ; inline +: z̃i ( φ β z∈I? E -- z̃i ) 1 [ + ] 0 [ not or ] -1 w̃i ; inline + +: yru ( φ β -- yru ) 74 - shift 1 + 2/ ; inline + +:: shorter-interval ( F E -- f e ) + E k0 :> k0 + k0 φ :> φ + E k0 β :> β + F even? :> w∈I? + φ β w∈I? E x̃i :> x̃i + φ β w∈I? E z̃i :> z̃i + z̃i 10 /i :> z̃i* + x̃i z̃i* 10 * <= [ z̃i* strip-zeroes k0 - 1 + ] [ + φ β yru :> yru + yru E -77 number= [ + yru odd? [ 1 - ] when + ] [ + yru x̃i >= [ 1 + ] unless + ] if k0 neg + ] if ; inline + +: dragonbox ( s F E -- s f e ) + [ mantissa-expt-normalize* ] [ shorter-interval? ] 2bi + [ shorter-interval ] [ normal-interval ] if ; inline + +: exponential-format ( sign-str e f-length f-str -- str ) + [ + 1 - ] dip 1 cut [ "." glue ] unless-empty + "e" append swap >dec 3append ; inline + +: decimal-format ( sign-str e f-length f-str -- str ) + 2over + neg? [ pick neg CHAR: 0 pad-head ] when + pick 0 > [ 2over + CHAR: 0 pad-tail ] when + nip swap neg 0 max cut* + [ [ "0" ] when-empty ] bi@ "." glue append ; inline + +: general-format ( s f e -- str ) + swap >dec [ length ] keep + 2over swap [ + ] [ neg ] bi [ 1 max ] bi@ + 17 > + [ exponential-format ] [ decimal-format ] if ; inline + +: format-float ( n -- str ) + >double< dragonbox general-format ; inline : float>base ( n radix -- str ) { - { 10 [ "" -1 16 "" "C" format-float ] } + { 10 [ format-float ] } [ bin-float>base ] } case ; inline diff --git a/vm/fmt/core.h b/vm/fmt/core.h deleted file mode 100644 index b51c1406a9..0000000000 --- a/vm/fmt/core.h +++ /dev/null @@ -1,2969 +0,0 @@ -// Formatting library for C++ - the core API for char/UTF-8 -// -// Copyright (c) 2012 - present, Victor Zverovich -// All rights reserved. -// -// For the license information refer to format.h. - -#ifndef FMT_CORE_H_ -#define FMT_CORE_H_ - -#include // std::byte -#include // std::FILE -#include // std::strlen -#include -#include -#include // std::addressof -#include -#include - -// The fmt library version in the form major * 10000 + minor * 100 + patch. -#define FMT_VERSION 100201 - -#if defined(__clang__) && !defined(__ibmxl__) -# define FMT_CLANG_VERSION (__clang_major__ * 100 + __clang_minor__) -#else -# define FMT_CLANG_VERSION 0 -#endif - -#if defined(__GNUC__) && !defined(__clang__) && !defined(__INTEL_COMPILER) && \ - !defined(__NVCOMPILER) -# define FMT_GCC_VERSION (__GNUC__ * 100 + __GNUC_MINOR__) -#else -# define FMT_GCC_VERSION 0 -#endif - -#ifndef FMT_GCC_PRAGMA -// Workaround _Pragma bug https://gcc.gnu.org/bugzilla/show_bug.cgi?id=59884. -# if FMT_GCC_VERSION >= 504 -# define FMT_GCC_PRAGMA(arg) _Pragma(arg) -# else -# define FMT_GCC_PRAGMA(arg) -# endif -#endif - -#ifdef __ICL -# define FMT_ICC_VERSION __ICL -#elif defined(__INTEL_COMPILER) -# define FMT_ICC_VERSION __INTEL_COMPILER -#else -# define FMT_ICC_VERSION 0 -#endif - -#ifdef _MSC_VER -# define FMT_MSC_VERSION _MSC_VER -# define FMT_MSC_WARNING(...) __pragma(warning(__VA_ARGS__)) -#else -# define FMT_MSC_VERSION 0 -# define FMT_MSC_WARNING(...) -#endif - -#ifdef _MSVC_LANG -# define FMT_CPLUSPLUS _MSVC_LANG -#else -# define FMT_CPLUSPLUS __cplusplus -#endif - -#ifdef __has_feature -# define FMT_HAS_FEATURE(x) __has_feature(x) -#else -# define FMT_HAS_FEATURE(x) 0 -#endif - -#if defined(__has_include) || FMT_ICC_VERSION >= 1600 || FMT_MSC_VERSION > 1900 -# define FMT_HAS_INCLUDE(x) __has_include(x) -#else -# define FMT_HAS_INCLUDE(x) 0 -#endif - -#ifdef __has_cpp_attribute -# define FMT_HAS_CPP_ATTRIBUTE(x) __has_cpp_attribute(x) -#else -# define FMT_HAS_CPP_ATTRIBUTE(x) 0 -#endif - -#define FMT_HAS_CPP14_ATTRIBUTE(attribute) \ - (FMT_CPLUSPLUS >= 201402L && FMT_HAS_CPP_ATTRIBUTE(attribute)) - -#define FMT_HAS_CPP17_ATTRIBUTE(attribute) \ - (FMT_CPLUSPLUS >= 201703L && FMT_HAS_CPP_ATTRIBUTE(attribute)) - -// Check if relaxed C++14 constexpr is supported. -// GCC doesn't allow throw in constexpr until version 6 (bug 67371). -#ifndef FMT_USE_CONSTEXPR -# if (FMT_HAS_FEATURE(cxx_relaxed_constexpr) || FMT_MSC_VERSION >= 1912 || \ - (FMT_GCC_VERSION >= 600 && FMT_CPLUSPLUS >= 201402L)) && \ - !FMT_ICC_VERSION && (!defined(__NVCC__) || FMT_CPLUSPLUS >= 202002L) -# define FMT_USE_CONSTEXPR 1 -# else -# define FMT_USE_CONSTEXPR 0 -# endif -#endif -#if FMT_USE_CONSTEXPR -# define FMT_CONSTEXPR constexpr -#else -# define FMT_CONSTEXPR -#endif - -#if (FMT_CPLUSPLUS >= 202002L || \ - (FMT_CPLUSPLUS >= 201709L && FMT_GCC_VERSION >= 1002)) && \ - ((!defined(_GLIBCXX_RELEASE) || _GLIBCXX_RELEASE >= 10) && \ - (!defined(_LIBCPP_VERSION) || _LIBCPP_VERSION >= 10000) && \ - (!FMT_MSC_VERSION || FMT_MSC_VERSION >= 1928)) && \ - defined(__cpp_lib_is_constant_evaluated) -# define FMT_CONSTEXPR20 constexpr -#else -# define FMT_CONSTEXPR20 -#endif - -// Check if constexpr std::char_traits<>::{compare,length} are supported. -#if defined(__GLIBCXX__) -# if FMT_CPLUSPLUS >= 201703L && defined(_GLIBCXX_RELEASE) && \ - _GLIBCXX_RELEASE >= 7 // GCC 7+ libstdc++ has _GLIBCXX_RELEASE. -# define FMT_CONSTEXPR_CHAR_TRAITS constexpr -# endif -#elif defined(_LIBCPP_VERSION) && FMT_CPLUSPLUS >= 201703L && \ - _LIBCPP_VERSION >= 4000 -# define FMT_CONSTEXPR_CHAR_TRAITS constexpr -#elif FMT_MSC_VERSION >= 1914 && FMT_CPLUSPLUS >= 201703L -# define FMT_CONSTEXPR_CHAR_TRAITS constexpr -#endif -#ifndef FMT_CONSTEXPR_CHAR_TRAITS -# define FMT_CONSTEXPR_CHAR_TRAITS -#endif - -// Check if exceptions are disabled. -#ifndef FMT_EXCEPTIONS -# if (defined(__GNUC__) && !defined(__EXCEPTIONS)) || \ - (FMT_MSC_VERSION && !_HAS_EXCEPTIONS) -# define FMT_EXCEPTIONS 0 -# else -# define FMT_EXCEPTIONS 1 -# endif -#endif - -// Disable [[noreturn]] on MSVC/NVCC because of bogus unreachable code warnings. -#if FMT_EXCEPTIONS && FMT_HAS_CPP_ATTRIBUTE(noreturn) && !FMT_MSC_VERSION && \ - !defined(__NVCC__) -# define FMT_NORETURN [[noreturn]] -#else -# define FMT_NORETURN -#endif - -#ifndef FMT_NODISCARD -# if FMT_HAS_CPP17_ATTRIBUTE(nodiscard) -# define FMT_NODISCARD [[nodiscard]] -# else -# define FMT_NODISCARD -# endif -#endif - -#ifndef FMT_INLINE -# if FMT_GCC_VERSION || FMT_CLANG_VERSION -# define FMT_INLINE inline __attribute__((always_inline)) -# else -# define FMT_INLINE inline -# endif -#endif - -#ifdef _MSC_VER -# define FMT_UNCHECKED_ITERATOR(It) \ - using _Unchecked_type = It // Mark iterator as checked. -#else -# define FMT_UNCHECKED_ITERATOR(It) using unchecked_type = It -#endif - -#ifndef FMT_BEGIN_NAMESPACE -# define FMT_BEGIN_NAMESPACE \ - namespace fmt { \ - inline namespace v10 { -# define FMT_END_NAMESPACE \ - } \ - } -#endif - -#ifndef FMT_EXPORT -# define FMT_EXPORT -# define FMT_BEGIN_EXPORT -# define FMT_END_EXPORT -#endif - -#if FMT_GCC_VERSION || FMT_CLANG_VERSION -# define FMT_VISIBILITY(value) __attribute__((visibility(value))) -#else -# define FMT_VISIBILITY(value) -#endif - -#if !defined(FMT_HEADER_ONLY) && defined(_WIN32) -# if defined(FMT_LIB_EXPORT) -# define FMT_API __declspec(dllexport) -# elif defined(FMT_SHARED) -# define FMT_API __declspec(dllimport) -# endif -#elif defined(FMT_LIB_EXPORT) || defined(FMT_SHARED) -# define FMT_API FMT_VISIBILITY("default") -#endif -#ifndef FMT_API -# define FMT_API -#endif - -// libc++ supports string_view in pre-c++17. -#if FMT_HAS_INCLUDE() && \ - (FMT_CPLUSPLUS >= 201703L || defined(_LIBCPP_VERSION)) -# include -# define FMT_USE_STRING_VIEW -#elif FMT_HAS_INCLUDE("experimental/string_view") && FMT_CPLUSPLUS >= 201402L -# include -# define FMT_USE_EXPERIMENTAL_STRING_VIEW -#endif - -#ifndef FMT_UNICODE -# define FMT_UNICODE !FMT_MSC_VERSION -#endif - -#ifndef FMT_CONSTEVAL -# if ((FMT_GCC_VERSION >= 1000 || FMT_CLANG_VERSION >= 1101) && \ - (!defined(__apple_build_version__) || \ - __apple_build_version__ >= 14000029L) && \ - FMT_CPLUSPLUS >= 202002L) || \ - (defined(__cpp_consteval) && \ - (!FMT_MSC_VERSION || FMT_MSC_VERSION >= 1929)) -// consteval is broken in MSVC before VS2019 version 16.10 and Apple clang -// before 14. -# define FMT_CONSTEVAL consteval -# define FMT_HAS_CONSTEVAL -# else -# define FMT_CONSTEVAL -# endif -#endif - -#ifndef FMT_USE_NONTYPE_TEMPLATE_ARGS -# if defined(__cpp_nontype_template_args) && \ - ((FMT_GCC_VERSION >= 903 && FMT_CPLUSPLUS >= 201709L) || \ - __cpp_nontype_template_args >= 201911L) && \ - !defined(__NVCOMPILER) && !defined(__LCC__) -# define FMT_USE_NONTYPE_TEMPLATE_ARGS 1 -# else -# define FMT_USE_NONTYPE_TEMPLATE_ARGS 0 -# endif -#endif - -// GCC < 5 requires this-> in decltype -#ifndef FMT_DECLTYPE_THIS -# if FMT_GCC_VERSION && FMT_GCC_VERSION < 500 -# define FMT_DECLTYPE_THIS this-> -# else -# define FMT_DECLTYPE_THIS -# endif -#endif - -// Enable minimal optimizations for more compact code in debug mode. -FMT_GCC_PRAGMA("GCC push_options") -#if !defined(__OPTIMIZE__) && !defined(__NVCOMPILER) && !defined(__LCC__) && \ - !defined(__CUDACC__) -FMT_GCC_PRAGMA("GCC optimize(\"Og\")") -#endif - -FMT_BEGIN_NAMESPACE - -// Implementations of enable_if_t and other metafunctions for older systems. -template -using enable_if_t = typename std::enable_if::type; -template -using conditional_t = typename std::conditional::type; -template using bool_constant = std::integral_constant; -template -using remove_reference_t = typename std::remove_reference::type; -template -using remove_const_t = typename std::remove_const::type; -template -using remove_cvref_t = typename std::remove_cv>::type; -template struct type_identity { - using type = T; -}; -template using type_identity_t = typename type_identity::type; -template -using underlying_t = typename std::underlying_type::type; - -// Checks whether T is a container with contiguous storage. -template struct is_contiguous : std::false_type {}; -template -struct is_contiguous> : std::true_type {}; - -struct monostate { - constexpr monostate() {} -}; - -// An enable_if helper to be used in template parameters which results in much -// shorter symbols: https://godbolt.org/z/sWw4vP. Extra parentheses are needed -// to workaround a bug in MSVC 2019 (see #1140 and #1186). -#ifdef FMT_DOC -# define FMT_ENABLE_IF(...) -#else -# define FMT_ENABLE_IF(...) fmt::enable_if_t<(__VA_ARGS__), int> = 0 -#endif - -// This is defined in core.h instead of format.h to avoid injecting in std. -// It is a template to avoid undesirable implicit conversions to std::byte. -#ifdef __cpp_lib_byte -template ::value)> -inline auto format_as(T b) -> unsigned char { - return static_cast(b); -} -#endif - -namespace detail { -// Suppresses "unused variable" warnings with the method described in -// https://herbsutter.com/2009/10/18/mailbag-shutting-up-compiler-warnings/. -// (void)var does not work on many Intel compilers. -template FMT_CONSTEXPR void ignore_unused(const T&...) {} - -constexpr FMT_INLINE auto is_constant_evaluated( - bool default_value = false) noexcept -> bool { -// Workaround for incompatibility between libstdc++ consteval-based -// std::is_constant_evaluated() implementation and clang-14. -// https://github.com/fmtlib/fmt/issues/3247 -#if FMT_CPLUSPLUS >= 202002L && defined(_GLIBCXX_RELEASE) && \ - _GLIBCXX_RELEASE >= 12 && \ - (FMT_CLANG_VERSION >= 1400 && FMT_CLANG_VERSION < 1500) - ignore_unused(default_value); - return __builtin_is_constant_evaluated(); -#elif defined(__cpp_lib_is_constant_evaluated) - ignore_unused(default_value); - return std::is_constant_evaluated(); -#else - return default_value; -#endif -} - -// Suppresses "conditional expression is constant" warnings. -template constexpr FMT_INLINE auto const_check(T value) -> T { - return value; -} - -FMT_NORETURN FMT_API void assert_fail(const char* file, int line, - const char* message); - -#ifndef FMT_ASSERT -# ifdef NDEBUG -// FMT_ASSERT is not empty to avoid -Wempty-body. -# define FMT_ASSERT(condition, message) \ - fmt::detail::ignore_unused((condition), (message)) -# else -# define FMT_ASSERT(condition, message) \ - ((condition) /* void() fails with -Winvalid-constexpr on clang 4.0.1 */ \ - ? (void)0 \ - : fmt::detail::assert_fail(__FILE__, __LINE__, (message))) -# endif -#endif - -#if defined(FMT_USE_STRING_VIEW) -template using std_string_view = std::basic_string_view; -#elif defined(FMT_USE_EXPERIMENTAL_STRING_VIEW) -template -using std_string_view = std::experimental::basic_string_view; -#else -template struct std_string_view {}; -#endif - -#ifdef FMT_USE_INT128 -// Do nothing. -#elif defined(__SIZEOF_INT128__) && !defined(__NVCC__) && \ - !(FMT_CLANG_VERSION && FMT_MSC_VERSION) -# define FMT_USE_INT128 1 -using int128_opt = __int128_t; // An optional native 128-bit integer. -using uint128_opt = __uint128_t; -template inline auto convert_for_visit(T value) -> T { - return value; -} -#else -# define FMT_USE_INT128 0 -#endif -#if !FMT_USE_INT128 -enum class int128_opt {}; -enum class uint128_opt {}; -// Reduce template instantiations. -template auto convert_for_visit(T) -> monostate { return {}; } -#endif - -// Casts a nonnegative integer to unsigned. -template -FMT_CONSTEXPR auto to_unsigned(Int value) -> - typename std::make_unsigned::type { - FMT_ASSERT(std::is_unsigned::value || value >= 0, "negative value"); - return static_cast::type>(value); -} - -FMT_CONSTEXPR inline auto is_utf8() -> bool { - FMT_MSC_WARNING(suppress : 4566) constexpr unsigned char section[] = "\u00A7"; - - // Avoid buggy sign extensions in MSVC's constant evaluation mode (#2297). - using uchar = unsigned char; - return FMT_UNICODE || (sizeof(section) == 3 && uchar(section[0]) == 0xC2 && - uchar(section[1]) == 0xA7); -} -} // namespace detail - -/** - An implementation of ``std::basic_string_view`` for pre-C++17. It provides a - subset of the API. ``fmt::basic_string_view`` is used for format strings even - if ``std::string_view`` is available to prevent issues when a library is - compiled with a different ``-std`` option than the client code (which is not - recommended). - */ -FMT_EXPORT -template class basic_string_view { - private: - const Char* data_; - size_t size_; - - public: - using value_type = Char; - using iterator = const Char*; - - constexpr basic_string_view() noexcept : data_(nullptr), size_(0) {} - - /** Constructs a string reference object from a C string and a size. */ - constexpr basic_string_view(const Char* s, size_t count) noexcept - : data_(s), size_(count) {} - - /** - \rst - Constructs a string reference object from a C string computing - the size with ``std::char_traits::length``. - \endrst - */ - FMT_CONSTEXPR_CHAR_TRAITS - FMT_INLINE - basic_string_view(const Char* s) - : data_(s), - size_(detail::const_check(std::is_same::value && - !detail::is_constant_evaluated(true)) - ? std::strlen(reinterpret_cast(s)) - : std::char_traits::length(s)) {} - - /** Constructs a string reference from a ``std::basic_string`` object. */ - template - FMT_CONSTEXPR basic_string_view( - const std::basic_string& s) noexcept - : data_(s.data()), size_(s.size()) {} - - template >::value)> - FMT_CONSTEXPR basic_string_view(S s) noexcept - : data_(s.data()), size_(s.size()) {} - - /** Returns a pointer to the string data. */ - constexpr auto data() const noexcept -> const Char* { return data_; } - - /** Returns the string size. */ - constexpr auto size() const noexcept -> size_t { return size_; } - - constexpr auto begin() const noexcept -> iterator { return data_; } - constexpr auto end() const noexcept -> iterator { return data_ + size_; } - - constexpr auto operator[](size_t pos) const noexcept -> const Char& { - return data_[pos]; - } - - FMT_CONSTEXPR void remove_prefix(size_t n) noexcept { - data_ += n; - size_ -= n; - } - - FMT_CONSTEXPR_CHAR_TRAITS auto starts_with( - basic_string_view sv) const noexcept -> bool { - return size_ >= sv.size_ && - std::char_traits::compare(data_, sv.data_, sv.size_) == 0; - } - FMT_CONSTEXPR_CHAR_TRAITS auto starts_with(Char c) const noexcept -> bool { - return size_ >= 1 && std::char_traits::eq(*data_, c); - } - FMT_CONSTEXPR_CHAR_TRAITS auto starts_with(const Char* s) const -> bool { - return starts_with(basic_string_view(s)); - } - - // Lexicographically compare this string reference to other. - FMT_CONSTEXPR_CHAR_TRAITS auto compare(basic_string_view other) const -> int { - size_t str_size = size_ < other.size_ ? size_ : other.size_; - int result = std::char_traits::compare(data_, other.data_, str_size); - if (result == 0) - result = size_ == other.size_ ? 0 : (size_ < other.size_ ? -1 : 1); - return result; - } - - FMT_CONSTEXPR_CHAR_TRAITS friend auto operator==(basic_string_view lhs, - basic_string_view rhs) - -> bool { - return lhs.compare(rhs) == 0; - } - friend auto operator!=(basic_string_view lhs, basic_string_view rhs) -> bool { - return lhs.compare(rhs) != 0; - } - friend auto operator<(basic_string_view lhs, basic_string_view rhs) -> bool { - return lhs.compare(rhs) < 0; - } - friend auto operator<=(basic_string_view lhs, basic_string_view rhs) -> bool { - return lhs.compare(rhs) <= 0; - } - friend auto operator>(basic_string_view lhs, basic_string_view rhs) -> bool { - return lhs.compare(rhs) > 0; - } - friend auto operator>=(basic_string_view lhs, basic_string_view rhs) -> bool { - return lhs.compare(rhs) >= 0; - } -}; - -FMT_EXPORT -using string_view = basic_string_view; - -/** Specifies if ``T`` is a character type. Can be specialized by users. */ -FMT_EXPORT -template struct is_char : std::false_type {}; -template <> struct is_char : std::true_type {}; - -namespace detail { - -// A base class for compile-time strings. -struct compile_string {}; - -template -struct is_compile_string : std::is_base_of {}; - -template ::value)> -FMT_INLINE auto to_string_view(const Char* s) -> basic_string_view { - return s; -} -template -inline auto to_string_view(const std::basic_string& s) - -> basic_string_view { - return s; -} -template -constexpr auto to_string_view(basic_string_view s) - -> basic_string_view { - return s; -} -template >::value)> -inline auto to_string_view(std_string_view s) -> basic_string_view { - return s; -} -template ::value)> -constexpr auto to_string_view(const S& s) - -> basic_string_view { - return basic_string_view(s); -} -void to_string_view(...); - -// Specifies whether S is a string type convertible to fmt::basic_string_view. -// It should be a constexpr function but MSVC 2017 fails to compile it in -// enable_if and MSVC 2015 fails to compile it as an alias template. -// ADL is intentionally disabled as to_string_view is not an extension point. -template -struct is_string - : std::is_class()))> {}; - -template struct char_t_impl {}; -template struct char_t_impl::value>> { - using result = decltype(to_string_view(std::declval())); - using type = typename result::value_type; -}; - -enum class type { - none_type, - // Integer types should go first, - int_type, - uint_type, - long_long_type, - ulong_long_type, - int128_type, - uint128_type, - bool_type, - char_type, - last_integer_type = char_type, - // followed by floating-point types. - float_type, - double_type, - long_double_type, - last_numeric_type = long_double_type, - cstring_type, - string_type, - pointer_type, - custom_type -}; - -// Maps core type T to the corresponding type enum constant. -template -struct type_constant : std::integral_constant {}; - -#define FMT_TYPE_CONSTANT(Type, constant) \ - template \ - struct type_constant \ - : std::integral_constant {} - -FMT_TYPE_CONSTANT(int, int_type); -FMT_TYPE_CONSTANT(unsigned, uint_type); -FMT_TYPE_CONSTANT(long long, long_long_type); -FMT_TYPE_CONSTANT(unsigned long long, ulong_long_type); -FMT_TYPE_CONSTANT(int128_opt, int128_type); -FMT_TYPE_CONSTANT(uint128_opt, uint128_type); -FMT_TYPE_CONSTANT(bool, bool_type); -FMT_TYPE_CONSTANT(Char, char_type); -FMT_TYPE_CONSTANT(float, float_type); -FMT_TYPE_CONSTANT(double, double_type); -FMT_TYPE_CONSTANT(long double, long_double_type); -FMT_TYPE_CONSTANT(const Char*, cstring_type); -FMT_TYPE_CONSTANT(basic_string_view, string_type); -FMT_TYPE_CONSTANT(const void*, pointer_type); - -constexpr auto is_integral_type(type t) -> bool { - return t > type::none_type && t <= type::last_integer_type; -} -constexpr auto is_arithmetic_type(type t) -> bool { - return t > type::none_type && t <= type::last_numeric_type; -} - -constexpr auto set(type rhs) -> int { return 1 << static_cast(rhs); } -constexpr auto in(type t, int set) -> bool { - return ((set >> static_cast(t)) & 1) != 0; -} - -// Bitsets of types. -enum { - sint_set = - set(type::int_type) | set(type::long_long_type) | set(type::int128_type), - uint_set = set(type::uint_type) | set(type::ulong_long_type) | - set(type::uint128_type), - bool_set = set(type::bool_type), - char_set = set(type::char_type), - float_set = set(type::float_type) | set(type::double_type) | - set(type::long_double_type), - string_set = set(type::string_type), - cstring_set = set(type::cstring_type), - pointer_set = set(type::pointer_type) -}; - -// DEPRECATED! -FMT_NORETURN FMT_API void throw_format_error(const char* message); - -struct error_handler { - constexpr error_handler() = default; - - // This function is intentionally not constexpr to give a compile-time error. - FMT_NORETURN void on_error(const char* message) { - throw_format_error(message); - } -}; -} // namespace detail - -/** Throws ``format_error`` with a given message. */ -using detail::throw_format_error; - -/** String's character type. */ -template using char_t = typename detail::char_t_impl::type; - -/** - \rst - Parsing context consisting of a format string range being parsed and an - argument counter for automatic indexing. - You can use the ``format_parse_context`` type alias for ``char`` instead. - \endrst - */ -FMT_EXPORT -template class basic_format_parse_context { - private: - basic_string_view format_str_; - int next_arg_id_; - - FMT_CONSTEXPR void do_check_arg_id(int id); - - public: - using char_type = Char; - using iterator = const Char*; - - explicit constexpr basic_format_parse_context( - basic_string_view format_str, int next_arg_id = 0) - : format_str_(format_str), next_arg_id_(next_arg_id) {} - - /** - Returns an iterator to the beginning of the format string range being - parsed. - */ - constexpr auto begin() const noexcept -> iterator { - return format_str_.begin(); - } - - /** - Returns an iterator past the end of the format string range being parsed. - */ - constexpr auto end() const noexcept -> iterator { return format_str_.end(); } - - /** Advances the begin iterator to ``it``. */ - FMT_CONSTEXPR void advance_to(iterator it) { - format_str_.remove_prefix(detail::to_unsigned(it - begin())); - } - - /** - Reports an error if using the manual argument indexing; otherwise returns - the next argument index and switches to the automatic indexing. - */ - FMT_CONSTEXPR auto next_arg_id() -> int { - if (next_arg_id_ < 0) { - detail::throw_format_error( - "cannot switch from manual to automatic argument indexing"); - return 0; - } - int id = next_arg_id_++; - do_check_arg_id(id); - return id; - } - - /** - Reports an error if using the automatic argument indexing; otherwise - switches to the manual indexing. - */ - FMT_CONSTEXPR void check_arg_id(int id) { - if (next_arg_id_ > 0) { - detail::throw_format_error( - "cannot switch from automatic to manual argument indexing"); - return; - } - next_arg_id_ = -1; - do_check_arg_id(id); - } - FMT_CONSTEXPR void check_arg_id(basic_string_view) {} - FMT_CONSTEXPR void check_dynamic_spec(int arg_id); -}; - -FMT_EXPORT -using format_parse_context = basic_format_parse_context; - -namespace detail { -// A parse context with extra data used only in compile-time checks. -template -class compile_parse_context : public basic_format_parse_context { - private: - int num_args_; - const type* types_; - using base = basic_format_parse_context; - - public: - explicit FMT_CONSTEXPR compile_parse_context( - basic_string_view format_str, int num_args, const type* types, - int next_arg_id = 0) - : base(format_str, next_arg_id), num_args_(num_args), types_(types) {} - - constexpr auto num_args() const -> int { return num_args_; } - constexpr auto arg_type(int id) const -> type { return types_[id]; } - - FMT_CONSTEXPR auto next_arg_id() -> int { - int id = base::next_arg_id(); - if (id >= num_args_) throw_format_error("argument not found"); - return id; - } - - FMT_CONSTEXPR void check_arg_id(int id) { - base::check_arg_id(id); - if (id >= num_args_) throw_format_error("argument not found"); - } - using base::check_arg_id; - - FMT_CONSTEXPR void check_dynamic_spec(int arg_id) { - detail::ignore_unused(arg_id); -#if !defined(__LCC__) - if (arg_id < num_args_ && types_ && !is_integral_type(types_[arg_id])) - throw_format_error("width/precision is not integer"); -#endif - } -}; - -// Extracts a reference to the container from back_insert_iterator. -template -inline auto get_container(std::back_insert_iterator it) - -> Container& { - using base = std::back_insert_iterator; - struct accessor : base { - accessor(base b) : base(b) {} - using base::container; - }; - return *accessor(it).container; -} - -template -FMT_CONSTEXPR auto copy_str(InputIt begin, InputIt end, OutputIt out) - -> OutputIt { - while (begin != end) *out++ = static_cast(*begin++); - return out; -} - -template , U>::value&& is_char::value)> -FMT_CONSTEXPR auto copy_str(T* begin, T* end, U* out) -> U* { - if (is_constant_evaluated()) return copy_str(begin, end, out); - auto size = to_unsigned(end - begin); - if (size > 0) memcpy(out, begin, size * sizeof(U)); - return out + size; -} - -/** - \rst - A contiguous memory buffer with an optional growing ability. It is an internal - class and shouldn't be used directly, only via `~fmt::basic_memory_buffer`. - \endrst - */ -template class buffer { - private: - T* ptr_; - size_t size_; - size_t capacity_; - - protected: - // Don't initialize ptr_ since it is not accessed to save a few cycles. - FMT_MSC_WARNING(suppress : 26495) - FMT_CONSTEXPR buffer(size_t sz) noexcept : size_(sz), capacity_(sz) {} - - FMT_CONSTEXPR20 buffer(T* p = nullptr, size_t sz = 0, size_t cap = 0) noexcept - : ptr_(p), size_(sz), capacity_(cap) {} - - FMT_CONSTEXPR20 ~buffer() = default; - buffer(buffer&&) = default; - - /** Sets the buffer data and capacity. */ - FMT_CONSTEXPR void set(T* buf_data, size_t buf_capacity) noexcept { - ptr_ = buf_data; - capacity_ = buf_capacity; - } - - /** Increases the buffer capacity to hold at least *capacity* elements. */ - // DEPRECATED! - virtual FMT_CONSTEXPR20 void grow(size_t capacity) = 0; - - public: - using value_type = T; - using const_reference = const T&; - - buffer(const buffer&) = delete; - void operator=(const buffer&) = delete; - - FMT_INLINE auto begin() noexcept -> T* { return ptr_; } - FMT_INLINE auto end() noexcept -> T* { return ptr_ + size_; } - - FMT_INLINE auto begin() const noexcept -> const T* { return ptr_; } - FMT_INLINE auto end() const noexcept -> const T* { return ptr_ + size_; } - - /** Returns the size of this buffer. */ - constexpr auto size() const noexcept -> size_t { return size_; } - - /** Returns the capacity of this buffer. */ - constexpr auto capacity() const noexcept -> size_t { return capacity_; } - - /** Returns a pointer to the buffer data (not null-terminated). */ - FMT_CONSTEXPR auto data() noexcept -> T* { return ptr_; } - FMT_CONSTEXPR auto data() const noexcept -> const T* { return ptr_; } - - /** Clears this buffer. */ - void clear() { size_ = 0; } - - // Tries resizing the buffer to contain *count* elements. If T is a POD type - // the new elements may not be initialized. - FMT_CONSTEXPR20 void try_resize(size_t count) { - try_reserve(count); - size_ = count <= capacity_ ? count : capacity_; - } - - // Tries increasing the buffer capacity to *new_capacity*. It can increase the - // capacity by a smaller amount than requested but guarantees there is space - // for at least one additional element either by increasing the capacity or by - // flushing the buffer if it is full. - FMT_CONSTEXPR20 void try_reserve(size_t new_capacity) { - if (new_capacity > capacity_) grow(new_capacity); - } - - FMT_CONSTEXPR20 void push_back(const T& value) { - try_reserve(size_ + 1); - ptr_[size_++] = value; - } - - /** Appends data to the end of the buffer. */ - template void append(const U* begin, const U* end); - - template FMT_CONSTEXPR auto operator[](Idx index) -> T& { - return ptr_[index]; - } - template - FMT_CONSTEXPR auto operator[](Idx index) const -> const T& { - return ptr_[index]; - } -}; - -struct buffer_traits { - explicit buffer_traits(size_t) {} - auto count() const -> size_t { return 0; } - auto limit(size_t size) -> size_t { return size; } -}; - -class fixed_buffer_traits { - private: - size_t count_ = 0; - size_t limit_; - - public: - explicit fixed_buffer_traits(size_t limit) : limit_(limit) {} - auto count() const -> size_t { return count_; } - auto limit(size_t size) -> size_t { - size_t n = limit_ > count_ ? limit_ - count_ : 0; - count_ += size; - return size < n ? size : n; - } -}; - -// A buffer that writes to an output iterator when flushed. -template -class iterator_buffer final : public Traits, public buffer { - private: - OutputIt out_; - enum { buffer_size = 256 }; - T data_[buffer_size]; - - protected: - FMT_CONSTEXPR20 void grow(size_t) override { - if (this->size() == buffer_size) flush(); - } - - void flush() { - auto size = this->size(); - this->clear(); - out_ = copy_str(data_, data_ + this->limit(size), out_); - } - - public: - explicit iterator_buffer(OutputIt out, size_t n = buffer_size) - : Traits(n), buffer(data_, 0, buffer_size), out_(out) {} - iterator_buffer(iterator_buffer&& other) - : Traits(other), buffer(data_, 0, buffer_size), out_(other.out_) {} - ~iterator_buffer() { flush(); } - - auto out() -> OutputIt { - flush(); - return out_; - } - auto count() const -> size_t { return Traits::count() + this->size(); } -}; - -template -class iterator_buffer final - : public fixed_buffer_traits, - public buffer { - private: - T* out_; - enum { buffer_size = 256 }; - T data_[buffer_size]; - - protected: - FMT_CONSTEXPR20 void grow(size_t) override { - if (this->size() == this->capacity()) flush(); - } - - void flush() { - size_t n = this->limit(this->size()); - if (this->data() == out_) { - out_ += n; - this->set(data_, buffer_size); - } - this->clear(); - } - - public: - explicit iterator_buffer(T* out, size_t n = buffer_size) - : fixed_buffer_traits(n), buffer(out, 0, n), out_(out) {} - iterator_buffer(iterator_buffer&& other) - : fixed_buffer_traits(other), - buffer(std::move(other)), - out_(other.out_) { - if (this->data() != out_) { - this->set(data_, buffer_size); - this->clear(); - } - } - ~iterator_buffer() { flush(); } - - auto out() -> T* { - flush(); - return out_; - } - auto count() const -> size_t { - return fixed_buffer_traits::count() + this->size(); - } -}; - -template class iterator_buffer final : public buffer { - protected: - FMT_CONSTEXPR20 void grow(size_t) override {} - - public: - explicit iterator_buffer(T* out, size_t = 0) : buffer(out, 0, ~size_t()) {} - - auto out() -> T* { return &*this->end(); } -}; - -// A buffer that writes to a container with the contiguous storage. -template -class iterator_buffer, - enable_if_t::value, - typename Container::value_type>> - final : public buffer { - private: - Container& container_; - - protected: - FMT_CONSTEXPR20 void grow(size_t capacity) override { - container_.resize(capacity); - this->set(&container_[0], capacity); - } - - public: - explicit iterator_buffer(Container& c) - : buffer(c.size()), container_(c) {} - explicit iterator_buffer(std::back_insert_iterator out, size_t = 0) - : iterator_buffer(get_container(out)) {} - - auto out() -> std::back_insert_iterator { - return std::back_inserter(container_); - } -}; - -// A buffer that counts the number of code units written discarding the output. -template class counting_buffer final : public buffer { - private: - enum { buffer_size = 256 }; - T data_[buffer_size]; - size_t count_ = 0; - - protected: - FMT_CONSTEXPR20 void grow(size_t) override { - if (this->size() != buffer_size) return; - count_ += this->size(); - this->clear(); - } - - public: - counting_buffer() : buffer(data_, 0, buffer_size) {} - - auto count() -> size_t { return count_ + this->size(); } -}; -} // namespace detail - -template -FMT_CONSTEXPR void basic_format_parse_context::do_check_arg_id(int id) { - // Argument id is only checked at compile-time during parsing because - // formatting has its own validation. - if (detail::is_constant_evaluated() && - (!FMT_GCC_VERSION || FMT_GCC_VERSION >= 1200)) { - using context = detail::compile_parse_context; - if (id >= static_cast(this)->num_args()) - detail::throw_format_error("argument not found"); - } -} - -template -FMT_CONSTEXPR void basic_format_parse_context::check_dynamic_spec( - int arg_id) { - if (detail::is_constant_evaluated() && - (!FMT_GCC_VERSION || FMT_GCC_VERSION >= 1200)) { - using context = detail::compile_parse_context; - static_cast(this)->check_dynamic_spec(arg_id); - } -} - -FMT_EXPORT template class basic_format_arg; -FMT_EXPORT template class basic_format_args; -FMT_EXPORT template class dynamic_format_arg_store; - -// A formatter for objects of type T. -FMT_EXPORT -template -struct formatter { - // A deleted default constructor indicates a disabled formatter. - formatter() = delete; -}; - -// Specifies if T has an enabled formatter specialization. A type can be -// formattable even if it doesn't have a formatter e.g. via a conversion. -template -using has_formatter = - std::is_constructible>; - -// An output iterator that appends to a buffer. -// It is used to reduce symbol sizes for the common case. -class appender : public std::back_insert_iterator> { - using base = std::back_insert_iterator>; - - public: - using std::back_insert_iterator>::back_insert_iterator; - appender(base it) noexcept : base(it) {} - FMT_UNCHECKED_ITERATOR(appender); - - auto operator++() noexcept -> appender& { return *this; } - auto operator++(int) noexcept -> appender { return *this; } -}; - -namespace detail { - -template -constexpr auto has_const_formatter_impl(T*) - -> decltype(typename Context::template formatter_type().format( - std::declval(), std::declval()), - true) { - return true; -} -template -constexpr auto has_const_formatter_impl(...) -> bool { - return false; -} -template -constexpr auto has_const_formatter() -> bool { - return has_const_formatter_impl(static_cast(nullptr)); -} - -template -using buffer_appender = conditional_t::value, appender, - std::back_insert_iterator>>; - -// Maps an output iterator to a buffer. -template -auto get_buffer(OutputIt out) -> iterator_buffer { - return iterator_buffer(out); -} -template , Buf>::value)> -auto get_buffer(std::back_insert_iterator out) -> buffer& { - return get_container(out); -} - -template -FMT_INLINE auto get_iterator(Buf& buf, OutputIt) -> decltype(buf.out()) { - return buf.out(); -} -template -auto get_iterator(buffer&, OutputIt out) -> OutputIt { - return out; -} - -struct view {}; - -template struct named_arg : view { - const Char* name; - const T& value; - named_arg(const Char* n, const T& v) : name(n), value(v) {} -}; - -template struct named_arg_info { - const Char* name; - int id; -}; - -template -struct arg_data { - // args_[0].named_args points to named_args_ to avoid bloating format_args. - // +1 to workaround a bug in gcc 7.5 that causes duplicated-branches warning. - T args_[1 + (NUM_ARGS != 0 ? NUM_ARGS : +1)]; - named_arg_info named_args_[NUM_NAMED_ARGS]; - - template - arg_data(const U&... init) : args_{T(named_args_, NUM_NAMED_ARGS), init...} {} - arg_data(const arg_data& other) = delete; - auto args() const -> const T* { return args_ + 1; } - auto named_args() -> named_arg_info* { return named_args_; } -}; - -template -struct arg_data { - // +1 to workaround a bug in gcc 7.5 that causes duplicated-branches warning. - T args_[NUM_ARGS != 0 ? NUM_ARGS : +1]; - - template - FMT_CONSTEXPR FMT_INLINE arg_data(const U&... init) : args_{init...} {} - FMT_CONSTEXPR FMT_INLINE auto args() const -> const T* { return args_; } - FMT_CONSTEXPR FMT_INLINE auto named_args() -> std::nullptr_t { - return nullptr; - } -}; - -template -inline void init_named_args(named_arg_info*, int, int) {} - -template struct is_named_arg : std::false_type {}; -template struct is_statically_named_arg : std::false_type {}; - -template -struct is_named_arg> : std::true_type {}; - -template ::value)> -void init_named_args(named_arg_info* named_args, int arg_count, - int named_arg_count, const T&, const Tail&... args) { - init_named_args(named_args, arg_count + 1, named_arg_count, args...); -} - -template ::value)> -void init_named_args(named_arg_info* named_args, int arg_count, - int named_arg_count, const T& arg, const Tail&... args) { - named_args[named_arg_count++] = {arg.name, arg_count}; - init_named_args(named_args, arg_count + 1, named_arg_count, args...); -} - -template -FMT_CONSTEXPR FMT_INLINE void init_named_args(std::nullptr_t, int, int, - const Args&...) {} - -template constexpr auto count() -> size_t { return B ? 1 : 0; } -template constexpr auto count() -> size_t { - return (B1 ? 1 : 0) + count(); -} - -template constexpr auto count_named_args() -> size_t { - return count::value...>(); -} - -template -constexpr auto count_statically_named_args() -> size_t { - return count::value...>(); -} - -struct unformattable {}; -struct unformattable_char : unformattable {}; -struct unformattable_pointer : unformattable {}; - -template struct string_value { - const Char* data; - size_t size; -}; - -template struct named_arg_value { - const named_arg_info* data; - size_t size; -}; - -template struct custom_value { - using parse_context = typename Context::parse_context_type; - void* value; - void (*format)(void* arg, parse_context& parse_ctx, Context& ctx); -}; - -// A formatting argument value. -template class value { - public: - using char_type = typename Context::char_type; - - union { - monostate no_value; - int int_value; - unsigned uint_value; - long long long_long_value; - unsigned long long ulong_long_value; - int128_opt int128_value; - uint128_opt uint128_value; - bool bool_value; - char_type char_value; - float float_value; - double double_value; - long double long_double_value; - const void* pointer; - string_value string; - custom_value custom; - named_arg_value named_args; - }; - - constexpr FMT_INLINE value() : no_value() {} - constexpr FMT_INLINE value(int val) : int_value(val) {} - constexpr FMT_INLINE value(unsigned val) : uint_value(val) {} - constexpr FMT_INLINE value(long long val) : long_long_value(val) {} - constexpr FMT_INLINE value(unsigned long long val) : ulong_long_value(val) {} - FMT_INLINE value(int128_opt val) : int128_value(val) {} - FMT_INLINE value(uint128_opt val) : uint128_value(val) {} - constexpr FMT_INLINE value(float val) : float_value(val) {} - constexpr FMT_INLINE value(double val) : double_value(val) {} - FMT_INLINE value(long double val) : long_double_value(val) {} - constexpr FMT_INLINE value(bool val) : bool_value(val) {} - constexpr FMT_INLINE value(char_type val) : char_value(val) {} - FMT_CONSTEXPR FMT_INLINE value(const char_type* val) { - string.data = val; - if (is_constant_evaluated()) string.size = {}; - } - FMT_CONSTEXPR FMT_INLINE value(basic_string_view val) { - string.data = val.data(); - string.size = val.size(); - } - FMT_INLINE value(const void* val) : pointer(val) {} - FMT_INLINE value(const named_arg_info* args, size_t size) - : named_args{args, size} {} - - template FMT_CONSTEXPR20 FMT_INLINE value(T& val) { - using value_type = remove_const_t; - custom.value = const_cast(std::addressof(val)); - // Get the formatter type through the context to allow different contexts - // have different extension points, e.g. `formatter` for `format` and - // `printf_formatter` for `printf`. - custom.format = format_custom_arg< - value_type, typename Context::template formatter_type>; - } - value(unformattable); - value(unformattable_char); - value(unformattable_pointer); - - private: - // Formats an argument of a custom type, such as a user-defined class. - template - static void format_custom_arg(void* arg, - typename Context::parse_context_type& parse_ctx, - Context& ctx) { - auto f = Formatter(); - parse_ctx.advance_to(f.parse(parse_ctx)); - using qualified_type = - conditional_t(), const T, T>; - // Calling format through a mutable reference is deprecated. - ctx.advance_to(f.format(*static_cast(arg), ctx)); - } -}; - -// To minimize the number of types we need to deal with, long is translated -// either to int or to long long depending on its size. -enum { long_short = sizeof(long) == sizeof(int) }; -using long_type = conditional_t; -using ulong_type = conditional_t; - -template struct format_as_result { - template ::value || std::is_class::value)> - static auto map(U*) -> remove_cvref_t()))>; - static auto map(...) -> void; - - using type = decltype(map(static_cast(nullptr))); -}; -template using format_as_t = typename format_as_result::type; - -template -struct has_format_as - : bool_constant, void>::value> {}; - -// Maps formatting arguments to core types. -// arg_mapper reports errors by returning unformattable instead of using -// static_assert because it's used in the is_formattable trait. -template struct arg_mapper { - using char_type = typename Context::char_type; - - FMT_CONSTEXPR FMT_INLINE auto map(signed char val) -> int { return val; } - FMT_CONSTEXPR FMT_INLINE auto map(unsigned char val) -> unsigned { - return val; - } - FMT_CONSTEXPR FMT_INLINE auto map(short val) -> int { return val; } - FMT_CONSTEXPR FMT_INLINE auto map(unsigned short val) -> unsigned { - return val; - } - FMT_CONSTEXPR FMT_INLINE auto map(int val) -> int { return val; } - FMT_CONSTEXPR FMT_INLINE auto map(unsigned val) -> unsigned { return val; } - FMT_CONSTEXPR FMT_INLINE auto map(long val) -> long_type { return val; } - FMT_CONSTEXPR FMT_INLINE auto map(unsigned long val) -> ulong_type { - return val; - } - FMT_CONSTEXPR FMT_INLINE auto map(long long val) -> long long { return val; } - FMT_CONSTEXPR FMT_INLINE auto map(unsigned long long val) - -> unsigned long long { - return val; - } - FMT_CONSTEXPR FMT_INLINE auto map(int128_opt val) -> int128_opt { - return val; - } - FMT_CONSTEXPR FMT_INLINE auto map(uint128_opt val) -> uint128_opt { - return val; - } - FMT_CONSTEXPR FMT_INLINE auto map(bool val) -> bool { return val; } - - template ::value || - std::is_same::value)> - FMT_CONSTEXPR FMT_INLINE auto map(T val) -> char_type { - return val; - } - template ::value || -#ifdef __cpp_char8_t - std::is_same::value || -#endif - std::is_same::value || - std::is_same::value) && - !std::is_same::value, - int> = 0> - FMT_CONSTEXPR FMT_INLINE auto map(T) -> unformattable_char { - return {}; - } - - FMT_CONSTEXPR FMT_INLINE auto map(float val) -> float { return val; } - FMT_CONSTEXPR FMT_INLINE auto map(double val) -> double { return val; } - FMT_CONSTEXPR FMT_INLINE auto map(long double val) -> long double { - return val; - } - - FMT_CONSTEXPR FMT_INLINE auto map(char_type* val) -> const char_type* { - return val; - } - FMT_CONSTEXPR FMT_INLINE auto map(const char_type* val) -> const char_type* { - return val; - } - template ::value && !std::is_pointer::value && - std::is_same>::value)> - FMT_CONSTEXPR FMT_INLINE auto map(const T& val) - -> basic_string_view { - return to_string_view(val); - } - template ::value && !std::is_pointer::value && - !std::is_same>::value)> - FMT_CONSTEXPR FMT_INLINE auto map(const T&) -> unformattable_char { - return {}; - } - - FMT_CONSTEXPR FMT_INLINE auto map(void* val) -> const void* { return val; } - FMT_CONSTEXPR FMT_INLINE auto map(const void* val) -> const void* { - return val; - } - FMT_CONSTEXPR FMT_INLINE auto map(std::nullptr_t val) -> const void* { - return val; - } - - // Use SFINAE instead of a const T* parameter to avoid a conflict with the - // array overload. - template < - typename T, - FMT_ENABLE_IF( - std::is_pointer::value || std::is_member_pointer::value || - std::is_function::type>::value || - (std::is_array::value && - !std::is_convertible::value))> - FMT_CONSTEXPR auto map(const T&) -> unformattable_pointer { - return {}; - } - - template ::value)> - FMT_CONSTEXPR FMT_INLINE auto map(const T (&values)[N]) -> const T (&)[N] { - return values; - } - - // Only map owning types because mapping views can be unsafe. - template , - FMT_ENABLE_IF(std::is_arithmetic::value)> - FMT_CONSTEXPR FMT_INLINE auto map(const T& val) - -> decltype(FMT_DECLTYPE_THIS map(U())) { - return map(format_as(val)); - } - - template > - struct formattable : bool_constant() || - (has_formatter::value && - !std::is_const::value)> {}; - - template ::value)> - FMT_CONSTEXPR FMT_INLINE auto do_map(T& val) -> T& { - return val; - } - template ::value)> - FMT_CONSTEXPR FMT_INLINE auto do_map(T&) -> unformattable { - return {}; - } - - template , - FMT_ENABLE_IF((std::is_class::value || std::is_enum::value || - std::is_union::value) && - !is_string::value && !is_char::value && - !is_named_arg::value && - !std::is_arithmetic>::value)> - FMT_CONSTEXPR FMT_INLINE auto map(T& val) - -> decltype(FMT_DECLTYPE_THIS do_map(val)) { - return do_map(val); - } - - template ::value)> - FMT_CONSTEXPR FMT_INLINE auto map(const T& named_arg) - -> decltype(FMT_DECLTYPE_THIS map(named_arg.value)) { - return map(named_arg.value); - } - - auto map(...) -> unformattable { return {}; } -}; - -// A type constant after applying arg_mapper. -template -using mapped_type_constant = - type_constant().map(std::declval())), - typename Context::char_type>; - -enum { packed_arg_bits = 4 }; -// Maximum number of arguments with packed types. -enum { max_packed_args = 62 / packed_arg_bits }; -enum : unsigned long long { is_unpacked_bit = 1ULL << 63 }; -enum : unsigned long long { has_named_args_bit = 1ULL << 62 }; - -template -auto copy_str(InputIt begin, InputIt end, appender out) -> appender { - get_container(out).append(begin, end); - return out; -} -template -auto copy_str(InputIt begin, InputIt end, - std::back_insert_iterator out) - -> std::back_insert_iterator { - get_container(out).append(begin, end); - return out; -} - -template -FMT_CONSTEXPR auto copy_str(R&& rng, OutputIt out) -> OutputIt { - return detail::copy_str(rng.begin(), rng.end(), out); -} - -#if FMT_GCC_VERSION && FMT_GCC_VERSION < 500 -// A workaround for gcc 4.8 to make void_t work in a SFINAE context. -template struct void_t_impl { - using type = void; -}; -template using void_t = typename void_t_impl::type; -#else -template using void_t = void; -#endif - -template -struct is_output_iterator : std::false_type {}; - -template -struct is_output_iterator< - It, T, - void_t::iterator_category, - decltype(*std::declval() = std::declval())>> - : std::true_type {}; - -template struct is_back_insert_iterator : std::false_type {}; -template -struct is_back_insert_iterator> - : std::true_type {}; - -// A type-erased reference to an std::locale to avoid a heavy include. -class locale_ref { - private: - const void* locale_; // A type-erased pointer to std::locale. - - public: - constexpr FMT_INLINE locale_ref() : locale_(nullptr) {} - template explicit locale_ref(const Locale& loc); - - explicit operator bool() const noexcept { return locale_ != nullptr; } - - template auto get() const -> Locale; -}; - -template constexpr auto encode_types() -> unsigned long long { - return 0; -} - -template -constexpr auto encode_types() -> unsigned long long { - return static_cast(mapped_type_constant::value) | - (encode_types() << packed_arg_bits); -} - -#if defined(__cpp_if_constexpr) -// This type is intentionally undefined, only used for errors -template struct type_is_unformattable_for; -#endif - -template -FMT_CONSTEXPR FMT_INLINE auto make_arg(T& val) -> value { - using arg_type = remove_cvref_t().map(val))>; - - constexpr bool formattable_char = - !std::is_same::value; - static_assert(formattable_char, "Mixing character types is disallowed."); - - // Formatting of arbitrary pointers is disallowed. If you want to format a - // pointer cast it to `void*` or `const void*`. In particular, this forbids - // formatting of `[const] volatile char*` printed as bool by iostreams. - constexpr bool formattable_pointer = - !std::is_same::value; - static_assert(formattable_pointer, - "Formatting of non-void pointers is disallowed."); - - constexpr bool formattable = !std::is_same::value; -#if defined(__cpp_if_constexpr) - if constexpr (!formattable) { - type_is_unformattable_for _; - } -#endif - static_assert( - formattable, - "Cannot format an argument. To make type T formattable provide a " - "formatter specialization: https://fmt.dev/latest/api.html#udt"); - return {arg_mapper().map(val)}; -} - -template -FMT_CONSTEXPR auto make_arg(T& val) -> basic_format_arg { - auto arg = basic_format_arg(); - arg.type_ = mapped_type_constant::value; - arg.value_ = make_arg(val); - return arg; -} - -template -FMT_CONSTEXPR inline auto make_arg(T& val) -> basic_format_arg { - return make_arg(val); -} -} // namespace detail -FMT_BEGIN_EXPORT - -// A formatting argument. Context is a template parameter for the compiled API -// where output can be unbuffered. -template class basic_format_arg { - private: - detail::value value_; - detail::type type_; - - template - friend FMT_CONSTEXPR auto detail::make_arg(T& value) - -> basic_format_arg; - - template - friend FMT_CONSTEXPR auto visit_format_arg(Visitor&& vis, - const basic_format_arg& arg) - -> decltype(vis(0)); - - friend class basic_format_args; - friend class dynamic_format_arg_store; - - using char_type = typename Context::char_type; - - template - friend struct detail::arg_data; - - basic_format_arg(const detail::named_arg_info* args, size_t size) - : value_(args, size) {} - - public: - class handle { - public: - explicit handle(detail::custom_value custom) : custom_(custom) {} - - void format(typename Context::parse_context_type& parse_ctx, - Context& ctx) const { - custom_.format(custom_.value, parse_ctx, ctx); - } - - private: - detail::custom_value custom_; - }; - - constexpr basic_format_arg() : type_(detail::type::none_type) {} - - constexpr explicit operator bool() const noexcept { - return type_ != detail::type::none_type; - } - - auto type() const -> detail::type { return type_; } - - auto is_integral() const -> bool { return detail::is_integral_type(type_); } - auto is_arithmetic() const -> bool { - return detail::is_arithmetic_type(type_); - } - - FMT_INLINE auto format_custom(const char_type* parse_begin, - typename Context::parse_context_type& parse_ctx, - Context& ctx) -> bool { - if (type_ != detail::type::custom_type) return false; - parse_ctx.advance_to(parse_begin); - value_.custom.format(value_.custom.value, parse_ctx, ctx); - return true; - } -}; - -/** - \rst - Visits an argument dispatching to the appropriate visit method based on - the argument type. For example, if the argument type is ``double`` then - ``vis(value)`` will be called with the value of type ``double``. - \endrst - */ -// DEPRECATED! -template -FMT_CONSTEXPR FMT_INLINE auto visit_format_arg( - Visitor&& vis, const basic_format_arg& arg) -> decltype(vis(0)) { - switch (arg.type_) { - case detail::type::none_type: - break; - case detail::type::int_type: - return vis(arg.value_.int_value); - case detail::type::uint_type: - return vis(arg.value_.uint_value); - case detail::type::long_long_type: - return vis(arg.value_.long_long_value); - case detail::type::ulong_long_type: - return vis(arg.value_.ulong_long_value); - case detail::type::int128_type: - return vis(detail::convert_for_visit(arg.value_.int128_value)); - case detail::type::uint128_type: - return vis(detail::convert_for_visit(arg.value_.uint128_value)); - case detail::type::bool_type: - return vis(arg.value_.bool_value); - case detail::type::char_type: - return vis(arg.value_.char_value); - case detail::type::float_type: - return vis(arg.value_.float_value); - case detail::type::double_type: - return vis(arg.value_.double_value); - case detail::type::long_double_type: - return vis(arg.value_.long_double_value); - case detail::type::cstring_type: - return vis(arg.value_.string.data); - case detail::type::string_type: - using sv = basic_string_view; - return vis(sv(arg.value_.string.data, arg.value_.string.size)); - case detail::type::pointer_type: - return vis(arg.value_.pointer); - case detail::type::custom_type: - return vis(typename basic_format_arg::handle(arg.value_.custom)); - } - return vis(monostate()); -} - -// Formatting context. -template class basic_format_context { - private: - OutputIt out_; - basic_format_args args_; - detail::locale_ref loc_; - - public: - using iterator = OutputIt; - using format_arg = basic_format_arg; - using format_args = basic_format_args; - using parse_context_type = basic_format_parse_context; - template using formatter_type = formatter; - - /** The character type for the output. */ - using char_type = Char; - - basic_format_context(basic_format_context&&) = default; - basic_format_context(const basic_format_context&) = delete; - void operator=(const basic_format_context&) = delete; - /** - Constructs a ``basic_format_context`` object. References to the arguments - are stored in the object so make sure they have appropriate lifetimes. - */ - constexpr basic_format_context(OutputIt out, format_args ctx_args, - detail::locale_ref loc = {}) - : out_(out), args_(ctx_args), loc_(loc) {} - - constexpr auto arg(int id) const -> format_arg { return args_.get(id); } - FMT_CONSTEXPR auto arg(basic_string_view name) -> format_arg { - return args_.get(name); - } - FMT_CONSTEXPR auto arg_id(basic_string_view name) -> int { - return args_.get_id(name); - } - auto args() const -> const format_args& { return args_; } - - // DEPRECATED! - FMT_CONSTEXPR auto error_handler() -> detail::error_handler { return {}; } - void on_error(const char* message) { error_handler().on_error(message); } - - // Returns an iterator to the beginning of the output range. - FMT_CONSTEXPR auto out() -> iterator { return out_; } - - // Advances the begin iterator to ``it``. - void advance_to(iterator it) { - if (!detail::is_back_insert_iterator()) out_ = it; - } - - FMT_CONSTEXPR auto locale() -> detail::locale_ref { return loc_; } -}; - -template -using buffer_context = - basic_format_context, Char>; -using format_context = buffer_context; - -template -using is_formattable = bool_constant>() - .map(std::declval()))>::value>; - -/** - \rst - An array of references to arguments. It can be implicitly converted into - `~fmt::basic_format_args` for passing into type-erased formatting functions - such as `~fmt::vformat`. - \endrst - */ -template -class format_arg_store -#if FMT_GCC_VERSION && FMT_GCC_VERSION < 409 - // Workaround a GCC template argument substitution bug. - : public basic_format_args -#endif -{ - private: - static const size_t num_args = sizeof...(Args); - static constexpr size_t num_named_args = detail::count_named_args(); - static const bool is_packed = num_args <= detail::max_packed_args; - - using value_type = conditional_t, - basic_format_arg>; - - detail::arg_data - data_; - - friend class basic_format_args; - - static constexpr unsigned long long desc = - (is_packed ? detail::encode_types() - : detail::is_unpacked_bit | num_args) | - (num_named_args != 0 - ? static_cast(detail::has_named_args_bit) - : 0); - - public: - template - FMT_CONSTEXPR FMT_INLINE format_arg_store(T&... args) - : -#if FMT_GCC_VERSION && FMT_GCC_VERSION < 409 - basic_format_args(*this), -#endif - data_{detail::make_arg(args)...} { - if (detail::const_check(num_named_args != 0)) - detail::init_named_args(data_.named_args(), 0, 0, args...); - } -}; - -/** - \rst - Constructs a `~fmt::format_arg_store` object that contains references to - arguments and can be implicitly converted to `~fmt::format_args`. `Context` - can be omitted in which case it defaults to `~fmt::format_context`. - See `~fmt::arg` for lifetime considerations. - \endrst - */ -// Arguments are taken by lvalue references to avoid some lifetime issues. -template -constexpr auto make_format_args(T&... args) - -> format_arg_store...> { - return {args...}; -} - -/** - \rst - Returns a named argument to be used in a formatting function. - It should only be used in a call to a formatting function or - `dynamic_format_arg_store::push_back`. - - **Example**:: - - fmt::print("Elapsed time: {s:.2f} seconds", fmt::arg("s", 1.23)); - \endrst - */ -template -inline auto arg(const Char* name, const T& arg) -> detail::named_arg { - static_assert(!detail::is_named_arg(), "nested named arguments"); - return {name, arg}; -} -FMT_END_EXPORT - -/** - \rst - A view of a collection of formatting arguments. To avoid lifetime issues it - should only be used as a parameter type in type-erased functions such as - ``vformat``:: - - void vlog(string_view format_str, format_args args); // OK - format_args args = make_format_args(); // Error: dangling reference - \endrst - */ -template class basic_format_args { - public: - using size_type = int; - using format_arg = basic_format_arg; - - private: - // A descriptor that contains information about formatting arguments. - // If the number of arguments is less or equal to max_packed_args then - // argument types are passed in the descriptor. This reduces binary code size - // per formatting function call. - unsigned long long desc_; - union { - // If is_packed() returns true then argument values are stored in values_; - // otherwise they are stored in args_. This is done to improve cache - // locality and reduce compiled code size since storing larger objects - // may require more code (at least on x86-64) even if the same amount of - // data is actually copied to stack. It saves ~10% on the bloat test. - const detail::value* values_; - const format_arg* args_; - }; - - constexpr auto is_packed() const -> bool { - return (desc_ & detail::is_unpacked_bit) == 0; - } - auto has_named_args() const -> bool { - return (desc_ & detail::has_named_args_bit) != 0; - } - - FMT_CONSTEXPR auto type(int index) const -> detail::type { - int shift = index * detail::packed_arg_bits; - unsigned int mask = (1 << detail::packed_arg_bits) - 1; - return static_cast((desc_ >> shift) & mask); - } - - constexpr FMT_INLINE basic_format_args(unsigned long long desc, - const detail::value* values) - : desc_(desc), values_(values) {} - constexpr basic_format_args(unsigned long long desc, const format_arg* args) - : desc_(desc), args_(args) {} - - public: - constexpr basic_format_args() : desc_(0), args_(nullptr) {} - - /** - \rst - Constructs a `basic_format_args` object from `~fmt::format_arg_store`. - \endrst - */ - template - constexpr FMT_INLINE basic_format_args( - const format_arg_store& store) - : basic_format_args(format_arg_store::desc, - store.data_.args()) {} - - /** - \rst - Constructs a `basic_format_args` object from - `~fmt::dynamic_format_arg_store`. - \endrst - */ - constexpr FMT_INLINE basic_format_args( - const dynamic_format_arg_store& store) - : basic_format_args(store.get_types(), store.data()) {} - - /** - \rst - Constructs a `basic_format_args` object from a dynamic set of arguments. - \endrst - */ - constexpr basic_format_args(const format_arg* args, int count) - : basic_format_args(detail::is_unpacked_bit | detail::to_unsigned(count), - args) {} - - /** Returns the argument with the specified id. */ - FMT_CONSTEXPR auto get(int id) const -> format_arg { - format_arg arg; - if (!is_packed()) { - if (id < max_size()) arg = args_[id]; - return arg; - } - if (id >= detail::max_packed_args) return arg; - arg.type_ = type(id); - if (arg.type_ == detail::type::none_type) return arg; - arg.value_ = values_[id]; - return arg; - } - - template - auto get(basic_string_view name) const -> format_arg { - int id = get_id(name); - return id >= 0 ? get(id) : format_arg(); - } - - template - auto get_id(basic_string_view name) const -> int { - if (!has_named_args()) return -1; - const auto& named_args = - (is_packed() ? values_[-1] : args_[-1].value_).named_args; - for (size_t i = 0; i < named_args.size; ++i) { - if (named_args.data[i].name == name) return named_args.data[i].id; - } - return -1; - } - - auto max_size() const -> int { - unsigned long long max_packed = detail::max_packed_args; - return static_cast(is_packed() ? max_packed - : desc_ & ~detail::is_unpacked_bit); - } -}; - -/** An alias to ``basic_format_args``. */ -// A separate type would result in shorter symbols but break ABI compatibility -// between clang and gcc on ARM (#1919). -FMT_EXPORT using format_args = basic_format_args; - -// We cannot use enum classes as bit fields because of a gcc bug, so we put them -// in namespaces instead (https://gcc.gnu.org/bugzilla/show_bug.cgi?id=61414). -// Additionally, if an underlying type is specified, older gcc incorrectly warns -// that the type is too small. Both bugs are fixed in gcc 9.3. -#if FMT_GCC_VERSION && FMT_GCC_VERSION < 903 -# define FMT_ENUM_UNDERLYING_TYPE(type) -#else -# define FMT_ENUM_UNDERLYING_TYPE(type) : type -#endif -namespace align { -enum type FMT_ENUM_UNDERLYING_TYPE(unsigned char){none, left, right, center, - numeric}; -} -using align_t = align::type; -namespace sign { -enum type FMT_ENUM_UNDERLYING_TYPE(unsigned char){none, minus, plus, space}; -} -using sign_t = sign::type; - -namespace detail { - -// Workaround an array initialization issue in gcc 4.8. -template struct fill_t { - private: - enum { max_size = 4 }; - Char data_[max_size] = {Char(' '), Char(0), Char(0), Char(0)}; - unsigned char size_ = 1; - - public: - FMT_CONSTEXPR void operator=(basic_string_view s) { - auto size = s.size(); - FMT_ASSERT(size <= max_size, "invalid fill"); - for (size_t i = 0; i < size; ++i) data_[i] = s[i]; - size_ = static_cast(size); - } - - constexpr auto size() const -> size_t { return size_; } - constexpr auto data() const -> const Char* { return data_; } - - FMT_CONSTEXPR auto operator[](size_t index) -> Char& { return data_[index]; } - FMT_CONSTEXPR auto operator[](size_t index) const -> const Char& { - return data_[index]; - } -}; -} // namespace detail - -enum class presentation_type : unsigned char { - none, - dec, // 'd' - oct, // 'o' - hex_lower, // 'x' - hex_upper, // 'X' - bin_lower, // 'b' - bin_upper, // 'B' - hexfloat_lower, // 'a' - hexfloat_upper, // 'A' - exp_lower, // 'e' - exp_upper, // 'E' - fixed_lower, // 'f' - fixed_upper, // 'F' - general_lower, // 'g' - general_upper, // 'G' - chr, // 'c' - string, // 's' - pointer, // 'p' - debug // '?' -}; - -// Format specifiers for built-in and string types. -template struct format_specs { - int width; - int precision; - presentation_type type; - align_t align : 4; - sign_t sign : 3; - bool alt : 1; // Alternate form ('#'). - bool localized : 1; - detail::fill_t fill; - - constexpr format_specs() - : width(0), - precision(-1), - type(presentation_type::none), - align(align::none), - sign(sign::none), - alt(false), - localized(false) {} -}; - -namespace detail { - -enum class arg_id_kind { none, index, name }; - -// An argument reference. -template struct arg_ref { - FMT_CONSTEXPR arg_ref() : kind(arg_id_kind::none), val() {} - - FMT_CONSTEXPR explicit arg_ref(int index) - : kind(arg_id_kind::index), val(index) {} - FMT_CONSTEXPR explicit arg_ref(basic_string_view name) - : kind(arg_id_kind::name), val(name) {} - - FMT_CONSTEXPR auto operator=(int idx) -> arg_ref& { - kind = arg_id_kind::index; - val.index = idx; - return *this; - } - - arg_id_kind kind; - union value { - FMT_CONSTEXPR value(int idx = 0) : index(idx) {} - FMT_CONSTEXPR value(basic_string_view n) : name(n) {} - - int index; - basic_string_view name; - } val; -}; - -// Format specifiers with width and precision resolved at formatting rather -// than parsing time to allow reusing the same parsed specifiers with -// different sets of arguments (precompilation of format strings). -template -struct dynamic_format_specs : format_specs { - arg_ref width_ref; - arg_ref precision_ref; -}; - -// Converts a character to ASCII. Returns '\0' on conversion failure. -template ::value)> -constexpr auto to_ascii(Char c) -> char { - return c <= 0xff ? static_cast(c) : '\0'; -} -template ::value)> -constexpr auto to_ascii(Char c) -> char { - return c <= 0xff ? static_cast(c) : '\0'; -} - -// Returns the number of code units in a code point or 1 on error. -template -FMT_CONSTEXPR auto code_point_length(const Char* begin) -> int { - if (const_check(sizeof(Char) != 1)) return 1; - auto c = static_cast(*begin); - return static_cast((0x3a55000000000000ull >> (2 * (c >> 3))) & 0x3) + 1; -} - -// Return the result via the out param to workaround gcc bug 77539. -template -FMT_CONSTEXPR auto find(Ptr first, Ptr last, T value, Ptr& out) -> bool { - for (out = first; out != last; ++out) { - if (*out == value) return true; - } - return false; -} - -template <> -inline auto find(const char* first, const char* last, char value, - const char*& out) -> bool { - out = static_cast( - std::memchr(first, value, to_unsigned(last - first))); - return out != nullptr; -} - -// Parses the range [begin, end) as an unsigned integer. This function assumes -// that the range is non-empty and the first character is a digit. -template -FMT_CONSTEXPR auto parse_nonnegative_int(const Char*& begin, const Char* end, - int error_value) noexcept -> int { - FMT_ASSERT(begin != end && '0' <= *begin && *begin <= '9', ""); - unsigned value = 0, prev = 0; - auto p = begin; - do { - prev = value; - value = value * 10 + unsigned(*p - '0'); - ++p; - } while (p != end && '0' <= *p && *p <= '9'); - auto num_digits = p - begin; - begin = p; - if (num_digits <= std::numeric_limits::digits10) - return static_cast(value); - // Check for overflow. - const unsigned max = to_unsigned((std::numeric_limits::max)()); - return num_digits == std::numeric_limits::digits10 + 1 && - prev * 10ull + unsigned(p[-1] - '0') <= max - ? static_cast(value) - : error_value; -} - -FMT_CONSTEXPR inline auto parse_align(char c) -> align_t { - switch (c) { - case '<': - return align::left; - case '>': - return align::right; - case '^': - return align::center; - } - return align::none; -} - -template constexpr auto is_name_start(Char c) -> bool { - return ('a' <= c && c <= 'z') || ('A' <= c && c <= 'Z') || c == '_'; -} - -template -FMT_CONSTEXPR auto do_parse_arg_id(const Char* begin, const Char* end, - Handler&& handler) -> const Char* { - Char c = *begin; - if (c >= '0' && c <= '9') { - int index = 0; - constexpr int max = (std::numeric_limits::max)(); - if (c != '0') - index = parse_nonnegative_int(begin, end, max); - else - ++begin; - if (begin == end || (*begin != '}' && *begin != ':')) - throw_format_error("invalid format string"); - else - handler.on_index(index); - return begin; - } - if (!is_name_start(c)) { - throw_format_error("invalid format string"); - return begin; - } - auto it = begin; - do { - ++it; - } while (it != end && (is_name_start(*it) || ('0' <= *it && *it <= '9'))); - handler.on_name({begin, to_unsigned(it - begin)}); - return it; -} - -template -FMT_CONSTEXPR FMT_INLINE auto parse_arg_id(const Char* begin, const Char* end, - Handler&& handler) -> const Char* { - FMT_ASSERT(begin != end, ""); - Char c = *begin; - if (c != '}' && c != ':') return do_parse_arg_id(begin, end, handler); - handler.on_auto(); - return begin; -} - -template struct dynamic_spec_id_handler { - basic_format_parse_context& ctx; - arg_ref& ref; - - FMT_CONSTEXPR void on_auto() { - int id = ctx.next_arg_id(); - ref = arg_ref(id); - ctx.check_dynamic_spec(id); - } - FMT_CONSTEXPR void on_index(int id) { - ref = arg_ref(id); - ctx.check_arg_id(id); - ctx.check_dynamic_spec(id); - } - FMT_CONSTEXPR void on_name(basic_string_view id) { - ref = arg_ref(id); - ctx.check_arg_id(id); - } -}; - -// Parses [integer | "{" [arg_id] "}"]. -template -FMT_CONSTEXPR auto parse_dynamic_spec(const Char* begin, const Char* end, - int& value, arg_ref& ref, - basic_format_parse_context& ctx) - -> const Char* { - FMT_ASSERT(begin != end, ""); - if ('0' <= *begin && *begin <= '9') { - int val = parse_nonnegative_int(begin, end, -1); - if (val != -1) - value = val; - else - throw_format_error("number is too big"); - } else if (*begin == '{') { - ++begin; - auto handler = dynamic_spec_id_handler{ctx, ref}; - if (begin != end) begin = parse_arg_id(begin, end, handler); - if (begin != end && *begin == '}') return ++begin; - throw_format_error("invalid format string"); - } - return begin; -} - -template -FMT_CONSTEXPR auto parse_precision(const Char* begin, const Char* end, - int& value, arg_ref& ref, - basic_format_parse_context& ctx) - -> const Char* { - ++begin; - if (begin == end || *begin == '}') { - throw_format_error("invalid precision"); - return begin; - } - return parse_dynamic_spec(begin, end, value, ref, ctx); -} - -enum class state { start, align, sign, hash, zero, width, precision, locale }; - -// Parses standard format specifiers. -template -FMT_CONSTEXPR FMT_INLINE auto parse_format_specs( - const Char* begin, const Char* end, dynamic_format_specs& specs, - basic_format_parse_context& ctx, type arg_type) -> const Char* { - auto c = '\0'; - if (end - begin > 1) { - auto next = to_ascii(begin[1]); - c = parse_align(next) == align::none ? to_ascii(*begin) : '\0'; - } else { - if (begin == end) return begin; - c = to_ascii(*begin); - } - - struct { - state current_state = state::start; - FMT_CONSTEXPR void operator()(state s, bool valid = true) { - if (current_state >= s || !valid) - throw_format_error("invalid format specifier"); - current_state = s; - } - } enter_state; - - using pres = presentation_type; - constexpr auto integral_set = sint_set | uint_set | bool_set | char_set; - struct { - const Char*& begin; - dynamic_format_specs& specs; - type arg_type; - - FMT_CONSTEXPR auto operator()(pres pres_type, int set) -> const Char* { - if (!in(arg_type, set)) { - if (arg_type == type::none_type) return begin; - throw_format_error("invalid format specifier"); - } - specs.type = pres_type; - return begin + 1; - } - } parse_presentation_type{begin, specs, arg_type}; - - for (;;) { - switch (c) { - case '<': - case '>': - case '^': - enter_state(state::align); - specs.align = parse_align(c); - ++begin; - break; - case '+': - case '-': - case ' ': - if (arg_type == type::none_type) return begin; - enter_state(state::sign, in(arg_type, sint_set | float_set)); - switch (c) { - case '+': - specs.sign = sign::plus; - break; - case '-': - specs.sign = sign::minus; - break; - case ' ': - specs.sign = sign::space; - break; - } - ++begin; - break; - case '#': - if (arg_type == type::none_type) return begin; - enter_state(state::hash, is_arithmetic_type(arg_type)); - specs.alt = true; - ++begin; - break; - case '0': - enter_state(state::zero); - if (!is_arithmetic_type(arg_type)) { - if (arg_type == type::none_type) return begin; - throw_format_error("format specifier requires numeric argument"); - } - if (specs.align == align::none) { - // Ignore 0 if align is specified for compatibility with std::format. - specs.align = align::numeric; - specs.fill[0] = Char('0'); - } - ++begin; - break; - case '1': - case '2': - case '3': - case '4': - case '5': - case '6': - case '7': - case '8': - case '9': - case '{': - enter_state(state::width); - begin = parse_dynamic_spec(begin, end, specs.width, specs.width_ref, ctx); - break; - case '.': - if (arg_type == type::none_type) return begin; - enter_state(state::precision, - in(arg_type, float_set | string_set | cstring_set)); - begin = parse_precision(begin, end, specs.precision, specs.precision_ref, - ctx); - break; - case 'L': - if (arg_type == type::none_type) return begin; - enter_state(state::locale, is_arithmetic_type(arg_type)); - specs.localized = true; - ++begin; - break; - case 'd': - return parse_presentation_type(pres::dec, integral_set); - case 'o': - return parse_presentation_type(pres::oct, integral_set); - case 'x': - return parse_presentation_type(pres::hex_lower, integral_set); - case 'X': - return parse_presentation_type(pres::hex_upper, integral_set); - case 'b': - return parse_presentation_type(pres::bin_lower, integral_set); - case 'B': - return parse_presentation_type(pres::bin_upper, integral_set); - case 'a': - return parse_presentation_type(pres::hexfloat_lower, float_set); - case 'A': - return parse_presentation_type(pres::hexfloat_upper, float_set); - case 'e': - return parse_presentation_type(pres::exp_lower, float_set); - case 'E': - return parse_presentation_type(pres::exp_upper, float_set); - case 'f': - return parse_presentation_type(pres::fixed_lower, float_set); - case 'F': - return parse_presentation_type(pres::fixed_upper, float_set); - case 'g': - return parse_presentation_type(pres::general_lower, float_set); - case 'G': - return parse_presentation_type(pres::general_upper, float_set); - case 'c': - if (arg_type == type::bool_type) - throw_format_error("invalid format specifier"); - return parse_presentation_type(pres::chr, integral_set); - case 's': - return parse_presentation_type(pres::string, - bool_set | string_set | cstring_set); - case 'p': - return parse_presentation_type(pres::pointer, pointer_set | cstring_set); - case '?': - return parse_presentation_type(pres::debug, - char_set | string_set | cstring_set); - case '}': - return begin; - default: { - if (*begin == '}') return begin; - // Parse fill and alignment. - auto fill_end = begin + code_point_length(begin); - if (end - fill_end <= 0) { - throw_format_error("invalid format specifier"); - return begin; - } - if (*begin == '{') { - throw_format_error("invalid fill character '{'"); - return begin; - } - auto align = parse_align(to_ascii(*fill_end)); - enter_state(state::align, align != align::none); - specs.fill = {begin, to_unsigned(fill_end - begin)}; - specs.align = align; - begin = fill_end + 1; - } - } - if (begin == end) return begin; - c = to_ascii(*begin); - } -} - -template -FMT_CONSTEXPR auto parse_replacement_field(const Char* begin, const Char* end, - Handler&& handler) -> const Char* { - struct id_adapter { - Handler& handler; - int arg_id; - - FMT_CONSTEXPR void on_auto() { arg_id = handler.on_arg_id(); } - FMT_CONSTEXPR void on_index(int id) { arg_id = handler.on_arg_id(id); } - FMT_CONSTEXPR void on_name(basic_string_view id) { - arg_id = handler.on_arg_id(id); - } - }; - - ++begin; - if (begin == end) return handler.on_error("invalid format string"), end; - if (*begin == '}') { - handler.on_replacement_field(handler.on_arg_id(), begin); - } else if (*begin == '{') { - handler.on_text(begin, begin + 1); - } else { - auto adapter = id_adapter{handler, 0}; - begin = parse_arg_id(begin, end, adapter); - Char c = begin != end ? *begin : Char(); - if (c == '}') { - handler.on_replacement_field(adapter.arg_id, begin); - } else if (c == ':') { - begin = handler.on_format_specs(adapter.arg_id, begin + 1, end); - if (begin == end || *begin != '}') - return handler.on_error("unknown format specifier"), end; - } else { - return handler.on_error("missing '}' in format string"), end; - } - } - return begin + 1; -} - -template -FMT_CONSTEXPR FMT_INLINE void parse_format_string( - basic_string_view format_str, Handler&& handler) { - auto begin = format_str.data(); - auto end = begin + format_str.size(); - if (end - begin < 32) { - // Use a simple loop instead of memchr for small strings. - const Char* p = begin; - while (p != end) { - auto c = *p++; - if (c == '{') { - handler.on_text(begin, p - 1); - begin = p = parse_replacement_field(p - 1, end, handler); - } else if (c == '}') { - if (p == end || *p != '}') - return handler.on_error("unmatched '}' in format string"); - handler.on_text(begin, p); - begin = ++p; - } - } - handler.on_text(begin, end); - return; - } - struct writer { - FMT_CONSTEXPR void operator()(const Char* from, const Char* to) { - if (from == to) return; - for (;;) { - const Char* p = nullptr; - if (!find(from, to, Char('}'), p)) - return handler_.on_text(from, to); - ++p; - if (p == to || *p != '}') - return handler_.on_error("unmatched '}' in format string"); - handler_.on_text(from, p); - from = p + 1; - } - } - Handler& handler_; - } write = {handler}; - while (begin != end) { - // Doing two passes with memchr (one for '{' and another for '}') is up to - // 2.5x faster than the naive one-pass implementation on big format strings. - const Char* p = begin; - if (*begin != '{' && !find(begin + 1, end, Char('{'), p)) - return write(begin, end); - write(begin, p); - begin = parse_replacement_field(p, end, handler); - } -} - -template ::value> struct strip_named_arg { - using type = T; -}; -template struct strip_named_arg { - using type = remove_cvref_t; -}; - -template -FMT_CONSTEXPR auto parse_format_specs(ParseContext& ctx) - -> decltype(ctx.begin()) { - using char_type = typename ParseContext::char_type; - using context = buffer_context; - using mapped_type = conditional_t< - mapped_type_constant::value != type::custom_type, - decltype(arg_mapper().map(std::declval())), - typename strip_named_arg::type>; -#if defined(__cpp_if_constexpr) - if constexpr (std::is_default_constructible< - formatter>::value) { - return formatter().parse(ctx); - } else { - type_is_unformattable_for _; - return ctx.begin(); - } -#else - return formatter().parse(ctx); -#endif -} - -// Checks char specs and returns true iff the presentation type is char-like. -template -FMT_CONSTEXPR auto check_char_specs(const format_specs& specs) -> bool { - if (specs.type != presentation_type::none && - specs.type != presentation_type::chr && - specs.type != presentation_type::debug) { - return false; - } - if (specs.align == align::numeric || specs.sign != sign::none || specs.alt) - throw_format_error("invalid format specifier for char"); - return true; -} - -#if FMT_USE_NONTYPE_TEMPLATE_ARGS -template -constexpr auto get_arg_index_by_name(basic_string_view name) -> int { - if constexpr (is_statically_named_arg()) { - if (name == T::name) return N; - } - if constexpr (sizeof...(Args) > 0) - return get_arg_index_by_name(name); - (void)name; // Workaround an MSVC bug about "unused" parameter. - return -1; -} -#endif - -template -FMT_CONSTEXPR auto get_arg_index_by_name(basic_string_view name) -> int { -#if FMT_USE_NONTYPE_TEMPLATE_ARGS - if constexpr (sizeof...(Args) > 0) - return get_arg_index_by_name<0, Args...>(name); -#endif - (void)name; - return -1; -} - -template class format_string_checker { - private: - using parse_context_type = compile_parse_context; - static constexpr int num_args = sizeof...(Args); - - // Format specifier parsing function. - // In the future basic_format_parse_context will replace compile_parse_context - // here and will use is_constant_evaluated and downcasting to access the data - // needed for compile-time checks: https://godbolt.org/z/GvWzcTjh1. - using parse_func = const Char* (*)(parse_context_type&); - - type types_[num_args > 0 ? static_cast(num_args) : 1]; - parse_context_type context_; - parse_func parse_funcs_[num_args > 0 ? static_cast(num_args) : 1]; - - public: - explicit FMT_CONSTEXPR format_string_checker(basic_string_view fmt) - : types_{mapped_type_constant>::value...}, - context_(fmt, num_args, types_), - parse_funcs_{&parse_format_specs...} {} - - FMT_CONSTEXPR void on_text(const Char*, const Char*) {} - - FMT_CONSTEXPR auto on_arg_id() -> int { return context_.next_arg_id(); } - FMT_CONSTEXPR auto on_arg_id(int id) -> int { - return context_.check_arg_id(id), id; - } - FMT_CONSTEXPR auto on_arg_id(basic_string_view id) -> int { -#if FMT_USE_NONTYPE_TEMPLATE_ARGS - auto index = get_arg_index_by_name(id); - if (index < 0) on_error("named argument is not found"); - return index; -#else - (void)id; - on_error("compile-time checks for named arguments require C++20 support"); - return 0; -#endif - } - - FMT_CONSTEXPR void on_replacement_field(int id, const Char* begin) { - on_format_specs(id, begin, begin); // Call parse() on empty specs. - } - - FMT_CONSTEXPR auto on_format_specs(int id, const Char* begin, const Char*) - -> const Char* { - context_.advance_to(begin); - // id >= 0 check is a workaround for gcc 10 bug (#2065). - return id >= 0 && id < num_args ? parse_funcs_[id](context_) : begin; - } - - FMT_CONSTEXPR void on_error(const char* message) { - throw_format_error(message); - } -}; - -// Reports a compile-time error if S is not a valid format string. -template ::value)> -FMT_INLINE void check_format_string(const S&) { -#ifdef FMT_ENFORCE_COMPILE_STRING - static_assert(is_compile_string::value, - "FMT_ENFORCE_COMPILE_STRING requires all format strings to use " - "FMT_STRING."); -#endif -} -template ::value)> -void check_format_string(S format_str) { - using char_t = typename S::char_type; - FMT_CONSTEXPR auto s = basic_string_view(format_str); - using checker = format_string_checker...>; - FMT_CONSTEXPR bool error = (parse_format_string(s, checker(s)), true); - ignore_unused(error); -} - -template struct vformat_args { - using type = basic_format_args< - basic_format_context>, Char>>; -}; -template <> struct vformat_args { - using type = format_args; -}; - -// Use vformat_args and avoid type_identity to keep symbols short. -template -void vformat_to(buffer& buf, basic_string_view fmt, - typename vformat_args::type args, locale_ref loc = {}); - -FMT_API void vprint_mojibake(std::FILE*, string_view, format_args); -#ifndef _WIN32 -inline void vprint_mojibake(std::FILE*, string_view, format_args) {} -#endif -} // namespace detail - -FMT_BEGIN_EXPORT - -// A formatter specialization for natively supported types. -template -struct formatter::value != - detail::type::custom_type>> { - private: - detail::dynamic_format_specs specs_; - - public: - template - FMT_CONSTEXPR auto parse(ParseContext& ctx) -> const Char* { - auto type = detail::type_constant::value; - auto end = - detail::parse_format_specs(ctx.begin(), ctx.end(), specs_, ctx, type); - if (type == detail::type::char_type) detail::check_char_specs(specs_); - return end; - } - - template ::value, - FMT_ENABLE_IF(U == detail::type::string_type || - U == detail::type::cstring_type || - U == detail::type::char_type)> - FMT_CONSTEXPR void set_debug_format(bool set = true) { - specs_.type = set ? presentation_type::debug : presentation_type::none; - } - - template - FMT_CONSTEXPR auto format(const T& val, FormatContext& ctx) const - -> decltype(ctx.out()); -}; - -template struct runtime_format_string { - basic_string_view str; -}; - -/** A compile-time format string. */ -template class basic_format_string { - private: - basic_string_view str_; - - public: - template >::value)> - FMT_CONSTEVAL FMT_INLINE basic_format_string(const S& s) : str_(s) { - static_assert( - detail::count< - (std::is_base_of>::value && - std::is_reference::value)...>() == 0, - "passing views as lvalues is disallowed"); -#ifdef FMT_HAS_CONSTEVAL - if constexpr (detail::count_named_args() == - detail::count_statically_named_args()) { - using checker = - detail::format_string_checker...>; - detail::parse_format_string(str_, checker(s)); - } -#else - detail::check_format_string(s); -#endif - } - basic_format_string(runtime_format_string fmt) : str_(fmt.str) {} - - FMT_INLINE operator basic_string_view() const { return str_; } - FMT_INLINE auto get() const -> basic_string_view { return str_; } -}; - -#if FMT_GCC_VERSION && FMT_GCC_VERSION < 409 -// Workaround broken conversion on older gcc. -template using format_string = string_view; -inline auto runtime(string_view s) -> string_view { return s; } -#else -template -using format_string = basic_format_string...>; -/** - \rst - Creates a runtime format string. - - **Example**:: - - // Check format string at runtime instead of compile-time. - fmt::print(fmt::runtime("{:d}"), "I am not a number"); - \endrst - */ -inline auto runtime(string_view s) -> runtime_format_string<> { return {{s}}; } -#endif - -FMT_API auto vformat(string_view fmt, format_args args) -> std::string; - -/** - \rst - Formats ``args`` according to specifications in ``fmt`` and returns the result - as a string. - - **Example**:: - - #include - std::string message = fmt::format("The answer is {}.", 42); - \endrst -*/ -template -FMT_NODISCARD FMT_INLINE auto format(format_string fmt, T&&... args) - -> std::string { - return vformat(fmt, fmt::make_format_args(args...)); -} - -/** Formats a string and writes the output to ``out``. */ -template ::value)> -auto vformat_to(OutputIt out, string_view fmt, format_args args) -> OutputIt { - auto&& buf = detail::get_buffer(out); - detail::vformat_to(buf, fmt, args, {}); - return detail::get_iterator(buf, out); -} - -/** - \rst - Formats ``args`` according to specifications in ``fmt``, writes the result to - the output iterator ``out`` and returns the iterator past the end of the output - range. `format_to` does not append a terminating null character. - - **Example**:: - - auto out = std::vector(); - fmt::format_to(std::back_inserter(out), "{}", 42); - \endrst - */ -template ::value)> -FMT_INLINE auto format_to(OutputIt out, format_string fmt, T&&... args) - -> OutputIt { - return vformat_to(out, fmt, fmt::make_format_args(args...)); -} - -template struct format_to_n_result { - /** Iterator past the end of the output range. */ - OutputIt out; - /** Total (not truncated) output size. */ - size_t size; -}; - -template ::value)> -auto vformat_to_n(OutputIt out, size_t n, string_view fmt, format_args args) - -> format_to_n_result { - using traits = detail::fixed_buffer_traits; - auto buf = detail::iterator_buffer(out, n); - detail::vformat_to(buf, fmt, args, {}); - return {buf.out(), buf.count()}; -} - -/** - \rst - Formats ``args`` according to specifications in ``fmt``, writes up to ``n`` - characters of the result to the output iterator ``out`` and returns the total - (not truncated) output size and the iterator past the end of the output range. - `format_to_n` does not append a terminating null character. - \endrst - */ -template ::value)> -FMT_INLINE auto format_to_n(OutputIt out, size_t n, format_string fmt, - T&&... args) -> format_to_n_result { - return vformat_to_n(out, n, fmt, fmt::make_format_args(args...)); -} - -/** Returns the number of chars in the output of ``format(fmt, args...)``. */ -template -FMT_NODISCARD FMT_INLINE auto formatted_size(format_string fmt, - T&&... args) -> size_t { - auto buf = detail::counting_buffer<>(); - detail::vformat_to(buf, fmt, fmt::make_format_args(args...), {}); - return buf.count(); -} - -FMT_API void vprint(string_view fmt, format_args args); -FMT_API void vprint(std::FILE* f, string_view fmt, format_args args); - -/** - \rst - Formats ``args`` according to specifications in ``fmt`` and writes the output - to ``stdout``. - - **Example**:: - - fmt::print("Elapsed time: {0:.2f} seconds", 1.23); - \endrst - */ -template -FMT_INLINE void print(format_string fmt, T&&... args) { - const auto& vargs = fmt::make_format_args(args...); - return detail::is_utf8() ? vprint(fmt, vargs) - : detail::vprint_mojibake(stdout, fmt, vargs); -} - -/** - \rst - Formats ``args`` according to specifications in ``fmt`` and writes the - output to the file ``f``. - - **Example**:: - - fmt::print(stderr, "Don't {}!", "panic"); - \endrst - */ -template -FMT_INLINE void print(std::FILE* f, format_string fmt, T&&... args) { - const auto& vargs = fmt::make_format_args(args...); - return detail::is_utf8() ? vprint(f, fmt, vargs) - : detail::vprint_mojibake(f, fmt, vargs); -} - -/** - Formats ``args`` according to specifications in ``fmt`` and writes the - output to the file ``f`` followed by a newline. - */ -template -FMT_INLINE void println(std::FILE* f, format_string fmt, T&&... args) { - return fmt::print(f, "{}\n", fmt::format(fmt, std::forward(args)...)); -} - -/** - Formats ``args`` according to specifications in ``fmt`` and writes the output - to ``stdout`` followed by a newline. - */ -template -FMT_INLINE void println(format_string fmt, T&&... args) { - return fmt::println(stdout, fmt, std::forward(args)...); -} - -FMT_END_EXPORT -FMT_GCC_PRAGMA("GCC pop_options") -FMT_END_NAMESPACE - -#ifdef FMT_HEADER_ONLY -# include "format.h" -#endif -#endif // FMT_CORE_H_ diff --git a/vm/fmt/format-inl.h b/vm/fmt/format-inl.h deleted file mode 100644 index efac5d1f88..0000000000 --- a/vm/fmt/format-inl.h +++ /dev/null @@ -1,1678 +0,0 @@ -// Formatting library for C++ - implementation -// -// Copyright (c) 2012 - 2016, Victor Zverovich -// All rights reserved. -// -// For the license information refer to format.h. - -#ifndef FMT_FORMAT_INL_H_ -#define FMT_FORMAT_INL_H_ - -#include -#include // errno -#include -#include -#include - -#ifndef FMT_STATIC_THOUSANDS_SEPARATOR -# include -#endif - -#if defined(_WIN32) && !defined(FMT_WINDOWS_NO_WCHAR) -# include // _isatty -#endif - -#include "format.h" - -FMT_BEGIN_NAMESPACE -namespace detail { - -FMT_FUNC void assert_fail(const char* file, int line, const char* message) { - // Use unchecked std::fprintf to avoid triggering another assertion when - // writing to stderr fails - std::fprintf(stderr, "%s:%d: assertion failed: %s", file, line, message); - // Chosen instead of std::abort to satisfy Clang in CUDA mode during device - // code pass. - std::terminate(); -} - -FMT_FUNC void throw_format_error(const char* message) { - FMT_THROW(format_error(message)); -} - -FMT_FUNC void format_error_code(detail::buffer& out, int error_code, - string_view message) noexcept { - // Report error code making sure that the output fits into - // inline_buffer_size to avoid dynamic memory allocation and potential - // bad_alloc. - out.try_resize(0); - static const char SEP[] = ": "; - static const char ERROR_STR[] = "error "; - // Subtract 2 to account for terminating null characters in SEP and ERROR_STR. - size_t error_code_size = sizeof(SEP) + sizeof(ERROR_STR) - 2; - auto abs_value = static_cast>(error_code); - if (detail::is_negative(error_code)) { - abs_value = 0 - abs_value; - ++error_code_size; - } - error_code_size += detail::to_unsigned(detail::count_digits(abs_value)); - auto it = buffer_appender(out); - if (message.size() <= inline_buffer_size - error_code_size) - fmt::format_to(it, FMT_STRING("{}{}"), message, SEP); - fmt::format_to(it, FMT_STRING("{}{}"), ERROR_STR, error_code); - FMT_ASSERT(out.size() <= inline_buffer_size, ""); -} - -FMT_FUNC void report_error(format_func func, int error_code, - const char* message) noexcept { - memory_buffer full_message; - func(full_message, error_code, message); - // Don't use fwrite_fully because the latter may throw. - if (std::fwrite(full_message.data(), full_message.size(), 1, stderr) > 0) - std::fputc('\n', stderr); -} - -// A wrapper around fwrite that throws on error. -inline void fwrite_fully(const void* ptr, size_t count, FILE* stream) { - size_t written = std::fwrite(ptr, 1, count, stream); - if (written < count) - FMT_THROW(system_error(errno, FMT_STRING("cannot write to file"))); -} - -#ifndef FMT_STATIC_THOUSANDS_SEPARATOR -template -locale_ref::locale_ref(const Locale& loc) : locale_(&loc) { - static_assert(std::is_same::value, ""); -} - -template auto locale_ref::get() const -> Locale { - static_assert(std::is_same::value, ""); - return locale_ ? *static_cast(locale_) : std::locale(); -} - -template -FMT_FUNC auto thousands_sep_impl(locale_ref loc) -> thousands_sep_result { - auto& facet = std::use_facet>(loc.get()); - auto grouping = facet.grouping(); - auto thousands_sep = grouping.empty() ? Char() : facet.thousands_sep(); - return {std::move(grouping), thousands_sep}; -} -template -FMT_FUNC auto decimal_point_impl(locale_ref loc) -> Char { - return std::use_facet>(loc.get()) - .decimal_point(); -} -#else -template -FMT_FUNC auto thousands_sep_impl(locale_ref) -> thousands_sep_result { - return {"\03", FMT_STATIC_THOUSANDS_SEPARATOR}; -} -template FMT_FUNC Char decimal_point_impl(locale_ref) { - return '.'; -} -#endif - -FMT_FUNC auto write_loc(appender out, loc_value value, - const format_specs<>& specs, locale_ref loc) -> bool { -#ifndef FMT_STATIC_THOUSANDS_SEPARATOR - auto locale = loc.get(); - // We cannot use the num_put facet because it may produce output in - // a wrong encoding. - using facet = format_facet; - if (std::has_facet(locale)) - return std::use_facet(locale).put(out, value, specs); - return facet(locale).put(out, value, specs); -#endif - return false; -} -} // namespace detail - -template typename Locale::id format_facet::id; - -#ifndef FMT_STATIC_THOUSANDS_SEPARATOR -template format_facet::format_facet(Locale& loc) { - auto& numpunct = std::use_facet>(loc); - grouping_ = numpunct.grouping(); - if (!grouping_.empty()) separator_ = std::string(1, numpunct.thousands_sep()); -} - -template <> -FMT_API FMT_FUNC auto format_facet::do_put( - appender out, loc_value val, const format_specs<>& specs) const -> bool { - return val.visit( - detail::loc_writer<>{out, specs, separator_, grouping_, decimal_point_}); -} -#endif - -FMT_FUNC auto vsystem_error(int error_code, string_view fmt, format_args args) - -> std::system_error { - auto ec = std::error_code(error_code, std::generic_category()); - return std::system_error(ec, vformat(fmt, args)); -} - -namespace detail { - -template -inline auto operator==(basic_fp x, basic_fp y) -> bool { - return x.f == y.f && x.e == y.e; -} - -// Compilers should be able to optimize this into the ror instruction. -FMT_CONSTEXPR inline auto rotr(uint32_t n, uint32_t r) noexcept -> uint32_t { - r &= 31; - return (n >> r) | (n << (32 - r)); -} -FMT_CONSTEXPR inline auto rotr(uint64_t n, uint32_t r) noexcept -> uint64_t { - r &= 63; - return (n >> r) | (n << (64 - r)); -} - -// Implementation of Dragonbox algorithm: https://github.com/jk-jeon/dragonbox. -namespace dragonbox { -// Computes upper 64 bits of multiplication of a 32-bit unsigned integer and a -// 64-bit unsigned integer. -inline auto umul96_upper64(uint32_t x, uint64_t y) noexcept -> uint64_t { - return umul128_upper64(static_cast(x) << 32, y); -} - -// Computes lower 128 bits of multiplication of a 64-bit unsigned integer and a -// 128-bit unsigned integer. -inline auto umul192_lower128(uint64_t x, uint128_fallback y) noexcept - -> uint128_fallback { - uint64_t high = x * y.high(); - uint128_fallback high_low = umul128(x, y.low()); - return {high + high_low.high(), high_low.low()}; -} - -// Computes lower 64 bits of multiplication of a 32-bit unsigned integer and a -// 64-bit unsigned integer. -inline auto umul96_lower64(uint32_t x, uint64_t y) noexcept -> uint64_t { - return x * y; -} - -// Various fast log computations. -inline auto floor_log10_pow2_minus_log10_4_over_3(int e) noexcept -> int { - FMT_ASSERT(e <= 2936 && e >= -2985, "too large exponent"); - return (e * 631305 - 261663) >> 21; -} - -FMT_INLINE_VARIABLE constexpr struct { - uint32_t divisor; - int shift_amount; -} div_small_pow10_infos[] = {{10, 16}, {100, 16}}; - -// Replaces n by floor(n / pow(10, N)) returning true if and only if n is -// divisible by pow(10, N). -// Precondition: n <= pow(10, N + 1). -template -auto check_divisibility_and_divide_by_pow10(uint32_t& n) noexcept -> bool { - // The numbers below are chosen such that: - // 1. floor(n/d) = floor(nm / 2^k) where d=10 or d=100, - // 2. nm mod 2^k < m if and only if n is divisible by d, - // where m is magic_number, k is shift_amount - // and d is divisor. - // - // Item 1 is a common technique of replacing division by a constant with - // multiplication, see e.g. "Division by Invariant Integers Using - // Multiplication" by Granlund and Montgomery (1994). magic_number (m) is set - // to ceil(2^k/d) for large enough k. - // The idea for item 2 originates from Schubfach. - constexpr auto info = div_small_pow10_infos[N - 1]; - FMT_ASSERT(n <= info.divisor * 10, "n is too large"); - constexpr uint32_t magic_number = - (1u << info.shift_amount) / info.divisor + 1; - n *= magic_number; - const uint32_t comparison_mask = (1u << info.shift_amount) - 1; - bool result = (n & comparison_mask) < magic_number; - n >>= info.shift_amount; - return result; -} - -// Computes floor(n / pow(10, N)) for small n and N. -// Precondition: n <= pow(10, N + 1). -template auto small_division_by_pow10(uint32_t n) noexcept -> uint32_t { - constexpr auto info = div_small_pow10_infos[N - 1]; - FMT_ASSERT(n <= info.divisor * 10, "n is too large"); - constexpr uint32_t magic_number = - (1u << info.shift_amount) / info.divisor + 1; - return (n * magic_number) >> info.shift_amount; -} - -// Computes floor(n / 10^(kappa + 1)) (float) -inline auto divide_by_10_to_kappa_plus_1(uint32_t n) noexcept -> uint32_t { - // 1374389535 = ceil(2^37/100) - return static_cast((static_cast(n) * 1374389535) >> 37); -} -// Computes floor(n / 10^(kappa + 1)) (double) -inline auto divide_by_10_to_kappa_plus_1(uint64_t n) noexcept -> uint64_t { - // 2361183241434822607 = ceil(2^(64+7)/1000) - return umul128_upper64(n, 2361183241434822607ull) >> 7; -} - -// Various subroutines using pow10 cache -template struct cache_accessor; - -template <> struct cache_accessor { - using carrier_uint = float_info::carrier_uint; - using cache_entry_type = uint64_t; - - static auto get_cached_power(int k) noexcept -> uint64_t { - FMT_ASSERT(k >= float_info::min_k && k <= float_info::max_k, - "k is out of range"); - static constexpr const uint64_t pow10_significands[] = { - 0x81ceb32c4b43fcf5, 0xa2425ff75e14fc32, 0xcad2f7f5359a3b3f, - 0xfd87b5f28300ca0e, 0x9e74d1b791e07e49, 0xc612062576589ddb, - 0xf79687aed3eec552, 0x9abe14cd44753b53, 0xc16d9a0095928a28, - 0xf1c90080baf72cb2, 0x971da05074da7bef, 0xbce5086492111aeb, - 0xec1e4a7db69561a6, 0x9392ee8e921d5d08, 0xb877aa3236a4b44a, - 0xe69594bec44de15c, 0x901d7cf73ab0acda, 0xb424dc35095cd810, - 0xe12e13424bb40e14, 0x8cbccc096f5088cc, 0xafebff0bcb24aaff, - 0xdbe6fecebdedd5bf, 0x89705f4136b4a598, 0xabcc77118461cefd, - 0xd6bf94d5e57a42bd, 0x8637bd05af6c69b6, 0xa7c5ac471b478424, - 0xd1b71758e219652c, 0x83126e978d4fdf3c, 0xa3d70a3d70a3d70b, - 0xcccccccccccccccd, 0x8000000000000000, 0xa000000000000000, - 0xc800000000000000, 0xfa00000000000000, 0x9c40000000000000, - 0xc350000000000000, 0xf424000000000000, 0x9896800000000000, - 0xbebc200000000000, 0xee6b280000000000, 0x9502f90000000000, - 0xba43b74000000000, 0xe8d4a51000000000, 0x9184e72a00000000, - 0xb5e620f480000000, 0xe35fa931a0000000, 0x8e1bc9bf04000000, - 0xb1a2bc2ec5000000, 0xde0b6b3a76400000, 0x8ac7230489e80000, - 0xad78ebc5ac620000, 0xd8d726b7177a8000, 0x878678326eac9000, - 0xa968163f0a57b400, 0xd3c21bcecceda100, 0x84595161401484a0, - 0xa56fa5b99019a5c8, 0xcecb8f27f4200f3a, 0x813f3978f8940985, - 0xa18f07d736b90be6, 0xc9f2c9cd04674edf, 0xfc6f7c4045812297, - 0x9dc5ada82b70b59e, 0xc5371912364ce306, 0xf684df56c3e01bc7, - 0x9a130b963a6c115d, 0xc097ce7bc90715b4, 0xf0bdc21abb48db21, - 0x96769950b50d88f5, 0xbc143fa4e250eb32, 0xeb194f8e1ae525fe, - 0x92efd1b8d0cf37bf, 0xb7abc627050305ae, 0xe596b7b0c643c71a, - 0x8f7e32ce7bea5c70, 0xb35dbf821ae4f38c, 0xe0352f62a19e306f}; - return pow10_significands[k - float_info::min_k]; - } - - struct compute_mul_result { - carrier_uint result; - bool is_integer; - }; - struct compute_mul_parity_result { - bool parity; - bool is_integer; - }; - - static auto compute_mul(carrier_uint u, - const cache_entry_type& cache) noexcept - -> compute_mul_result { - auto r = umul96_upper64(u, cache); - return {static_cast(r >> 32), - static_cast(r) == 0}; - } - - static auto compute_delta(const cache_entry_type& cache, int beta) noexcept - -> uint32_t { - return static_cast(cache >> (64 - 1 - beta)); - } - - static auto compute_mul_parity(carrier_uint two_f, - const cache_entry_type& cache, - int beta) noexcept - -> compute_mul_parity_result { - FMT_ASSERT(beta >= 1, ""); - FMT_ASSERT(beta < 64, ""); - - auto r = umul96_lower64(two_f, cache); - return {((r >> (64 - beta)) & 1) != 0, - static_cast(r >> (32 - beta)) == 0}; - } - - static auto compute_left_endpoint_for_shorter_interval_case( - const cache_entry_type& cache, int beta) noexcept -> carrier_uint { - return static_cast( - (cache - (cache >> (num_significand_bits() + 2))) >> - (64 - num_significand_bits() - 1 - beta)); - } - - static auto compute_right_endpoint_for_shorter_interval_case( - const cache_entry_type& cache, int beta) noexcept -> carrier_uint { - return static_cast( - (cache + (cache >> (num_significand_bits() + 1))) >> - (64 - num_significand_bits() - 1 - beta)); - } - - static auto compute_round_up_for_shorter_interval_case( - const cache_entry_type& cache, int beta) noexcept -> carrier_uint { - return (static_cast( - cache >> (64 - num_significand_bits() - 2 - beta)) + - 1) / - 2; - } -}; - -template <> struct cache_accessor { - using carrier_uint = float_info::carrier_uint; - using cache_entry_type = uint128_fallback; - - static auto get_cached_power(int k) noexcept -> uint128_fallback { - FMT_ASSERT(k >= float_info::min_k && k <= float_info::max_k, - "k is out of range"); - - static constexpr const uint128_fallback pow10_significands[] = { -#if FMT_USE_FULL_CACHE_DRAGONBOX - {0xff77b1fcbebcdc4f, 0x25e8e89c13bb0f7b}, - {0x9faacf3df73609b1, 0x77b191618c54e9ad}, - {0xc795830d75038c1d, 0xd59df5b9ef6a2418}, - {0xf97ae3d0d2446f25, 0x4b0573286b44ad1e}, - {0x9becce62836ac577, 0x4ee367f9430aec33}, - {0xc2e801fb244576d5, 0x229c41f793cda740}, - {0xf3a20279ed56d48a, 0x6b43527578c11110}, - {0x9845418c345644d6, 0x830a13896b78aaaa}, - {0xbe5691ef416bd60c, 0x23cc986bc656d554}, - {0xedec366b11c6cb8f, 0x2cbfbe86b7ec8aa9}, - {0x94b3a202eb1c3f39, 0x7bf7d71432f3d6aa}, - {0xb9e08a83a5e34f07, 0xdaf5ccd93fb0cc54}, - {0xe858ad248f5c22c9, 0xd1b3400f8f9cff69}, - {0x91376c36d99995be, 0x23100809b9c21fa2}, - {0xb58547448ffffb2d, 0xabd40a0c2832a78b}, - {0xe2e69915b3fff9f9, 0x16c90c8f323f516d}, - {0x8dd01fad907ffc3b, 0xae3da7d97f6792e4}, - {0xb1442798f49ffb4a, 0x99cd11cfdf41779d}, - {0xdd95317f31c7fa1d, 0x40405643d711d584}, - {0x8a7d3eef7f1cfc52, 0x482835ea666b2573}, - {0xad1c8eab5ee43b66, 0xda3243650005eed0}, - {0xd863b256369d4a40, 0x90bed43e40076a83}, - {0x873e4f75e2224e68, 0x5a7744a6e804a292}, - {0xa90de3535aaae202, 0x711515d0a205cb37}, - {0xd3515c2831559a83, 0x0d5a5b44ca873e04}, - {0x8412d9991ed58091, 0xe858790afe9486c3}, - {0xa5178fff668ae0b6, 0x626e974dbe39a873}, - {0xce5d73ff402d98e3, 0xfb0a3d212dc81290}, - {0x80fa687f881c7f8e, 0x7ce66634bc9d0b9a}, - {0xa139029f6a239f72, 0x1c1fffc1ebc44e81}, - {0xc987434744ac874e, 0xa327ffb266b56221}, - {0xfbe9141915d7a922, 0x4bf1ff9f0062baa9}, - {0x9d71ac8fada6c9b5, 0x6f773fc3603db4aa}, - {0xc4ce17b399107c22, 0xcb550fb4384d21d4}, - {0xf6019da07f549b2b, 0x7e2a53a146606a49}, - {0x99c102844f94e0fb, 0x2eda7444cbfc426e}, - {0xc0314325637a1939, 0xfa911155fefb5309}, - {0xf03d93eebc589f88, 0x793555ab7eba27cb}, - {0x96267c7535b763b5, 0x4bc1558b2f3458df}, - {0xbbb01b9283253ca2, 0x9eb1aaedfb016f17}, - {0xea9c227723ee8bcb, 0x465e15a979c1cadd}, - {0x92a1958a7675175f, 0x0bfacd89ec191eca}, - {0xb749faed14125d36, 0xcef980ec671f667c}, - {0xe51c79a85916f484, 0x82b7e12780e7401b}, - {0x8f31cc0937ae58d2, 0xd1b2ecb8b0908811}, - {0xb2fe3f0b8599ef07, 0x861fa7e6dcb4aa16}, - {0xdfbdcece67006ac9, 0x67a791e093e1d49b}, - {0x8bd6a141006042bd, 0xe0c8bb2c5c6d24e1}, - {0xaecc49914078536d, 0x58fae9f773886e19}, - {0xda7f5bf590966848, 0xaf39a475506a899f}, - {0x888f99797a5e012d, 0x6d8406c952429604}, - {0xaab37fd7d8f58178, 0xc8e5087ba6d33b84}, - {0xd5605fcdcf32e1d6, 0xfb1e4a9a90880a65}, - {0x855c3be0a17fcd26, 0x5cf2eea09a550680}, - {0xa6b34ad8c9dfc06f, 0xf42faa48c0ea481f}, - {0xd0601d8efc57b08b, 0xf13b94daf124da27}, - {0x823c12795db6ce57, 0x76c53d08d6b70859}, - {0xa2cb1717b52481ed, 0x54768c4b0c64ca6f}, - {0xcb7ddcdda26da268, 0xa9942f5dcf7dfd0a}, - {0xfe5d54150b090b02, 0xd3f93b35435d7c4d}, - {0x9efa548d26e5a6e1, 0xc47bc5014a1a6db0}, - {0xc6b8e9b0709f109a, 0x359ab6419ca1091c}, - {0xf867241c8cc6d4c0, 0xc30163d203c94b63}, - {0x9b407691d7fc44f8, 0x79e0de63425dcf1e}, - {0xc21094364dfb5636, 0x985915fc12f542e5}, - {0xf294b943e17a2bc4, 0x3e6f5b7b17b2939e}, - {0x979cf3ca6cec5b5a, 0xa705992ceecf9c43}, - {0xbd8430bd08277231, 0x50c6ff782a838354}, - {0xece53cec4a314ebd, 0xa4f8bf5635246429}, - {0x940f4613ae5ed136, 0x871b7795e136be9a}, - {0xb913179899f68584, 0x28e2557b59846e40}, - {0xe757dd7ec07426e5, 0x331aeada2fe589d0}, - {0x9096ea6f3848984f, 0x3ff0d2c85def7622}, - {0xb4bca50b065abe63, 0x0fed077a756b53aa}, - {0xe1ebce4dc7f16dfb, 0xd3e8495912c62895}, - {0x8d3360f09cf6e4bd, 0x64712dd7abbbd95d}, - {0xb080392cc4349dec, 0xbd8d794d96aacfb4}, - {0xdca04777f541c567, 0xecf0d7a0fc5583a1}, - {0x89e42caaf9491b60, 0xf41686c49db57245}, - {0xac5d37d5b79b6239, 0x311c2875c522ced6}, - {0xd77485cb25823ac7, 0x7d633293366b828c}, - {0x86a8d39ef77164bc, 0xae5dff9c02033198}, - {0xa8530886b54dbdeb, 0xd9f57f830283fdfd}, - {0xd267caa862a12d66, 0xd072df63c324fd7c}, - {0x8380dea93da4bc60, 0x4247cb9e59f71e6e}, - {0xa46116538d0deb78, 0x52d9be85f074e609}, - {0xcd795be870516656, 0x67902e276c921f8c}, - {0x806bd9714632dff6, 0x00ba1cd8a3db53b7}, - {0xa086cfcd97bf97f3, 0x80e8a40eccd228a5}, - {0xc8a883c0fdaf7df0, 0x6122cd128006b2ce}, - {0xfad2a4b13d1b5d6c, 0x796b805720085f82}, - {0x9cc3a6eec6311a63, 0xcbe3303674053bb1}, - {0xc3f490aa77bd60fc, 0xbedbfc4411068a9d}, - {0xf4f1b4d515acb93b, 0xee92fb5515482d45}, - {0x991711052d8bf3c5, 0x751bdd152d4d1c4b}, - {0xbf5cd54678eef0b6, 0xd262d45a78a0635e}, - {0xef340a98172aace4, 0x86fb897116c87c35}, - {0x9580869f0e7aac0e, 0xd45d35e6ae3d4da1}, - {0xbae0a846d2195712, 0x8974836059cca10a}, - {0xe998d258869facd7, 0x2bd1a438703fc94c}, - {0x91ff83775423cc06, 0x7b6306a34627ddd0}, - {0xb67f6455292cbf08, 0x1a3bc84c17b1d543}, - {0xe41f3d6a7377eeca, 0x20caba5f1d9e4a94}, - {0x8e938662882af53e, 0x547eb47b7282ee9d}, - {0xb23867fb2a35b28d, 0xe99e619a4f23aa44}, - {0xdec681f9f4c31f31, 0x6405fa00e2ec94d5}, - {0x8b3c113c38f9f37e, 0xde83bc408dd3dd05}, - {0xae0b158b4738705e, 0x9624ab50b148d446}, - {0xd98ddaee19068c76, 0x3badd624dd9b0958}, - {0x87f8a8d4cfa417c9, 0xe54ca5d70a80e5d7}, - {0xa9f6d30a038d1dbc, 0x5e9fcf4ccd211f4d}, - {0xd47487cc8470652b, 0x7647c32000696720}, - {0x84c8d4dfd2c63f3b, 0x29ecd9f40041e074}, - {0xa5fb0a17c777cf09, 0xf468107100525891}, - {0xcf79cc9db955c2cc, 0x7182148d4066eeb5}, - {0x81ac1fe293d599bf, 0xc6f14cd848405531}, - {0xa21727db38cb002f, 0xb8ada00e5a506a7d}, - {0xca9cf1d206fdc03b, 0xa6d90811f0e4851d}, - {0xfd442e4688bd304a, 0x908f4a166d1da664}, - {0x9e4a9cec15763e2e, 0x9a598e4e043287ff}, - {0xc5dd44271ad3cdba, 0x40eff1e1853f29fe}, - {0xf7549530e188c128, 0xd12bee59e68ef47d}, - {0x9a94dd3e8cf578b9, 0x82bb74f8301958cf}, - {0xc13a148e3032d6e7, 0xe36a52363c1faf02}, - {0xf18899b1bc3f8ca1, 0xdc44e6c3cb279ac2}, - {0x96f5600f15a7b7e5, 0x29ab103a5ef8c0ba}, - {0xbcb2b812db11a5de, 0x7415d448f6b6f0e8}, - {0xebdf661791d60f56, 0x111b495b3464ad22}, - {0x936b9fcebb25c995, 0xcab10dd900beec35}, - {0xb84687c269ef3bfb, 0x3d5d514f40eea743}, - {0xe65829b3046b0afa, 0x0cb4a5a3112a5113}, - {0x8ff71a0fe2c2e6dc, 0x47f0e785eaba72ac}, - {0xb3f4e093db73a093, 0x59ed216765690f57}, - {0xe0f218b8d25088b8, 0x306869c13ec3532d}, - {0x8c974f7383725573, 0x1e414218c73a13fc}, - {0xafbd2350644eeacf, 0xe5d1929ef90898fb}, - {0xdbac6c247d62a583, 0xdf45f746b74abf3a}, - {0x894bc396ce5da772, 0x6b8bba8c328eb784}, - {0xab9eb47c81f5114f, 0x066ea92f3f326565}, - {0xd686619ba27255a2, 0xc80a537b0efefebe}, - {0x8613fd0145877585, 0xbd06742ce95f5f37}, - {0xa798fc4196e952e7, 0x2c48113823b73705}, - {0xd17f3b51fca3a7a0, 0xf75a15862ca504c6}, - {0x82ef85133de648c4, 0x9a984d73dbe722fc}, - {0xa3ab66580d5fdaf5, 0xc13e60d0d2e0ebbb}, - {0xcc963fee10b7d1b3, 0x318df905079926a9}, - {0xffbbcfe994e5c61f, 0xfdf17746497f7053}, - {0x9fd561f1fd0f9bd3, 0xfeb6ea8bedefa634}, - {0xc7caba6e7c5382c8, 0xfe64a52ee96b8fc1}, - {0xf9bd690a1b68637b, 0x3dfdce7aa3c673b1}, - {0x9c1661a651213e2d, 0x06bea10ca65c084f}, - {0xc31bfa0fe5698db8, 0x486e494fcff30a63}, - {0xf3e2f893dec3f126, 0x5a89dba3c3efccfb}, - {0x986ddb5c6b3a76b7, 0xf89629465a75e01d}, - {0xbe89523386091465, 0xf6bbb397f1135824}, - {0xee2ba6c0678b597f, 0x746aa07ded582e2d}, - {0x94db483840b717ef, 0xa8c2a44eb4571cdd}, - {0xba121a4650e4ddeb, 0x92f34d62616ce414}, - {0xe896a0d7e51e1566, 0x77b020baf9c81d18}, - {0x915e2486ef32cd60, 0x0ace1474dc1d122f}, - {0xb5b5ada8aaff80b8, 0x0d819992132456bb}, - 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{0x87aa9aff79042286, 0x90fb44d2f05d0843}, - {0xa99541bf57452b28, 0x353a1607ac744a54}, - {0xd3fa922f2d1675f2, 0x42889b8997915ce9}, - {0x847c9b5d7c2e09b7, 0x69956135febada12}, - {0xa59bc234db398c25, 0x43fab9837e699096}, - {0xcf02b2c21207ef2e, 0x94f967e45e03f4bc}, - {0x8161afb94b44f57d, 0x1d1be0eebac278f6}, - {0xa1ba1ba79e1632dc, 0x6462d92a69731733}, - {0xca28a291859bbf93, 0x7d7b8f7503cfdcff}, - {0xfcb2cb35e702af78, 0x5cda735244c3d43f}, - {0x9defbf01b061adab, 0x3a0888136afa64a8}, - {0xc56baec21c7a1916, 0x088aaa1845b8fdd1}, - {0xf6c69a72a3989f5b, 0x8aad549e57273d46}, - {0x9a3c2087a63f6399, 0x36ac54e2f678864c}, - {0xc0cb28a98fcf3c7f, 0x84576a1bb416a7de}, - {0xf0fdf2d3f3c30b9f, 0x656d44a2a11c51d6}, - {0x969eb7c47859e743, 0x9f644ae5a4b1b326}, - {0xbc4665b596706114, 0x873d5d9f0dde1fef}, - {0xeb57ff22fc0c7959, 0xa90cb506d155a7eb}, - {0x9316ff75dd87cbd8, 0x09a7f12442d588f3}, - {0xb7dcbf5354e9bece, 0x0c11ed6d538aeb30}, - {0xe5d3ef282a242e81, 0x8f1668c8a86da5fb}, - {0x8fa475791a569d10, 0xf96e017d694487bd}, - {0xb38d92d760ec4455, 0x37c981dcc395a9ad}, - {0xe070f78d3927556a, 0x85bbe253f47b1418}, - {0x8c469ab843b89562, 0x93956d7478ccec8f}, - {0xaf58416654a6babb, 0x387ac8d1970027b3}, - {0xdb2e51bfe9d0696a, 0x06997b05fcc0319f}, - {0x88fcf317f22241e2, 0x441fece3bdf81f04}, - {0xab3c2fddeeaad25a, 0xd527e81cad7626c4}, - {0xd60b3bd56a5586f1, 0x8a71e223d8d3b075}, - {0x85c7056562757456, 0xf6872d5667844e4a}, - {0xa738c6bebb12d16c, 0xb428f8ac016561dc}, - {0xd106f86e69d785c7, 0xe13336d701beba53}, - {0x82a45b450226b39c, 0xecc0024661173474}, - {0xa34d721642b06084, 0x27f002d7f95d0191}, - {0xcc20ce9bd35c78a5, 0x31ec038df7b441f5}, - {0xff290242c83396ce, 0x7e67047175a15272}, - {0x9f79a169bd203e41, 0x0f0062c6e984d387}, - {0xc75809c42c684dd1, 0x52c07b78a3e60869}, - {0xf92e0c3537826145, 0xa7709a56ccdf8a83}, - {0x9bbcc7a142b17ccb, 0x88a66076400bb692}, - {0xc2abf989935ddbfe, 0x6acff893d00ea436}, - {0xf356f7ebf83552fe, 0x0583f6b8c4124d44}, - {0x98165af37b2153de, 0xc3727a337a8b704b}, - {0xbe1bf1b059e9a8d6, 0x744f18c0592e4c5d}, - {0xeda2ee1c7064130c, 0x1162def06f79df74}, - {0x9485d4d1c63e8be7, 0x8addcb5645ac2ba9}, - {0xb9a74a0637ce2ee1, 0x6d953e2bd7173693}, - {0xe8111c87c5c1ba99, 0xc8fa8db6ccdd0438}, - {0x910ab1d4db9914a0, 0x1d9c9892400a22a3}, - {0xb54d5e4a127f59c8, 0x2503beb6d00cab4c}, - {0xe2a0b5dc971f303a, 0x2e44ae64840fd61e}, - {0x8da471a9de737e24, 0x5ceaecfed289e5d3}, - {0xb10d8e1456105dad, 0x7425a83e872c5f48}, - {0xdd50f1996b947518, 0xd12f124e28f7771a}, - {0x8a5296ffe33cc92f, 0x82bd6b70d99aaa70}, - {0xace73cbfdc0bfb7b, 0x636cc64d1001550c}, - {0xd8210befd30efa5a, 0x3c47f7e05401aa4f}, - {0x8714a775e3e95c78, 0x65acfaec34810a72}, - {0xa8d9d1535ce3b396, 0x7f1839a741a14d0e}, - {0xd31045a8341ca07c, 0x1ede48111209a051}, - {0x83ea2b892091e44d, 0x934aed0aab460433}, - {0xa4e4b66b68b65d60, 0xf81da84d56178540}, - {0xce1de40642e3f4b9, 0x36251260ab9d668f}, - {0x80d2ae83e9ce78f3, 0xc1d72b7c6b42601a}, - {0xa1075a24e4421730, 0xb24cf65b8612f820}, - {0xc94930ae1d529cfc, 0xdee033f26797b628}, - {0xfb9b7cd9a4a7443c, 0x169840ef017da3b2}, - {0x9d412e0806e88aa5, 0x8e1f289560ee864f}, - {0xc491798a08a2ad4e, 0xf1a6f2bab92a27e3}, - {0xf5b5d7ec8acb58a2, 0xae10af696774b1dc}, - {0x9991a6f3d6bf1765, 0xacca6da1e0a8ef2a}, - {0xbff610b0cc6edd3f, 0x17fd090a58d32af4}, - {0xeff394dcff8a948e, 0xddfc4b4cef07f5b1}, - {0x95f83d0a1fb69cd9, 0x4abdaf101564f98f}, - {0xbb764c4ca7a4440f, 0x9d6d1ad41abe37f2}, - {0xea53df5fd18d5513, 0x84c86189216dc5ee}, - {0x92746b9be2f8552c, 0x32fd3cf5b4e49bb5}, - {0xb7118682dbb66a77, 0x3fbc8c33221dc2a2}, - {0xe4d5e82392a40515, 0x0fabaf3feaa5334b}, - {0x8f05b1163ba6832d, 0x29cb4d87f2a7400f}, - {0xb2c71d5bca9023f8, 0x743e20e9ef511013}, - {0xdf78e4b2bd342cf6, 0x914da9246b255417}, - {0x8bab8eefb6409c1a, 0x1ad089b6c2f7548f}, - {0xae9672aba3d0c320, 0xa184ac2473b529b2}, - {0xda3c0f568cc4f3e8, 0xc9e5d72d90a2741f}, - {0x8865899617fb1871, 0x7e2fa67c7a658893}, - {0xaa7eebfb9df9de8d, 0xddbb901b98feeab8}, - {0xd51ea6fa85785631, 0x552a74227f3ea566}, - {0x8533285c936b35de, 0xd53a88958f872760}, - {0xa67ff273b8460356, 0x8a892abaf368f138}, - {0xd01fef10a657842c, 0x2d2b7569b0432d86}, - {0x8213f56a67f6b29b, 0x9c3b29620e29fc74}, - {0xa298f2c501f45f42, 0x8349f3ba91b47b90}, - {0xcb3f2f7642717713, 0x241c70a936219a74}, - {0xfe0efb53d30dd4d7, 0xed238cd383aa0111}, - {0x9ec95d1463e8a506, 0xf4363804324a40ab}, - {0xc67bb4597ce2ce48, 0xb143c6053edcd0d6}, - {0xf81aa16fdc1b81da, 0xdd94b7868e94050b}, - {0x9b10a4e5e9913128, 0xca7cf2b4191c8327}, - {0xc1d4ce1f63f57d72, 0xfd1c2f611f63a3f1}, - {0xf24a01a73cf2dccf, 0xbc633b39673c8ced}, - {0x976e41088617ca01, 0xd5be0503e085d814}, - {0xbd49d14aa79dbc82, 0x4b2d8644d8a74e19}, - {0xec9c459d51852ba2, 0xddf8e7d60ed1219f}, - {0x93e1ab8252f33b45, 0xcabb90e5c942b504}, - {0xb8da1662e7b00a17, 0x3d6a751f3b936244}, - {0xe7109bfba19c0c9d, 0x0cc512670a783ad5}, - {0x906a617d450187e2, 0x27fb2b80668b24c6}, - {0xb484f9dc9641e9da, 0xb1f9f660802dedf7}, - {0xe1a63853bbd26451, 0x5e7873f8a0396974}, - {0x8d07e33455637eb2, 0xdb0b487b6423e1e9}, - {0xb049dc016abc5e5f, 0x91ce1a9a3d2cda63}, - {0xdc5c5301c56b75f7, 0x7641a140cc7810fc}, - {0x89b9b3e11b6329ba, 0xa9e904c87fcb0a9e}, - {0xac2820d9623bf429, 0x546345fa9fbdcd45}, - {0xd732290fbacaf133, 0xa97c177947ad4096}, - {0x867f59a9d4bed6c0, 0x49ed8eabcccc485e}, - {0xa81f301449ee8c70, 0x5c68f256bfff5a75}, - {0xd226fc195c6a2f8c, 0x73832eec6fff3112}, - {0x83585d8fd9c25db7, 0xc831fd53c5ff7eac}, - {0xa42e74f3d032f525, 0xba3e7ca8b77f5e56}, - {0xcd3a1230c43fb26f, 0x28ce1bd2e55f35ec}, - {0x80444b5e7aa7cf85, 0x7980d163cf5b81b4}, - {0xa0555e361951c366, 0xd7e105bcc3326220}, - {0xc86ab5c39fa63440, 0x8dd9472bf3fefaa8}, - {0xfa856334878fc150, 0xb14f98f6f0feb952}, - {0x9c935e00d4b9d8d2, 0x6ed1bf9a569f33d4}, - {0xc3b8358109e84f07, 0x0a862f80ec4700c9}, - {0xf4a642e14c6262c8, 0xcd27bb612758c0fb}, - {0x98e7e9cccfbd7dbd, 0x8038d51cb897789d}, - {0xbf21e44003acdd2c, 0xe0470a63e6bd56c4}, - {0xeeea5d5004981478, 0x1858ccfce06cac75}, - {0x95527a5202df0ccb, 0x0f37801e0c43ebc9}, - {0xbaa718e68396cffd, 0xd30560258f54e6bb}, - {0xe950df20247c83fd, 0x47c6b82ef32a206a}, - {0x91d28b7416cdd27e, 0x4cdc331d57fa5442}, - {0xb6472e511c81471d, 0xe0133fe4adf8e953}, - {0xe3d8f9e563a198e5, 0x58180fddd97723a7}, - {0x8e679c2f5e44ff8f, 0x570f09eaa7ea7649}, - {0xb201833b35d63f73, 0x2cd2cc6551e513db}, - {0xde81e40a034bcf4f, 0xf8077f7ea65e58d2}, - {0x8b112e86420f6191, 0xfb04afaf27faf783}, - {0xadd57a27d29339f6, 0x79c5db9af1f9b564}, - {0xd94ad8b1c7380874, 0x18375281ae7822bd}, - {0x87cec76f1c830548, 0x8f2293910d0b15b6}, - {0xa9c2794ae3a3c69a, 0xb2eb3875504ddb23}, - {0xd433179d9c8cb841, 0x5fa60692a46151ec}, - {0x849feec281d7f328, 0xdbc7c41ba6bcd334}, - {0xa5c7ea73224deff3, 0x12b9b522906c0801}, - {0xcf39e50feae16bef, 0xd768226b34870a01}, - {0x81842f29f2cce375, 0xe6a1158300d46641}, - {0xa1e53af46f801c53, 0x60495ae3c1097fd1}, - {0xca5e89b18b602368, 0x385bb19cb14bdfc5}, - {0xfcf62c1dee382c42, 0x46729e03dd9ed7b6}, - {0x9e19db92b4e31ba9, 0x6c07a2c26a8346d2}, - {0xc5a05277621be293, 0xc7098b7305241886}, - {0xf70867153aa2db38, 0xb8cbee4fc66d1ea8}, - {0x9a65406d44a5c903, 0x737f74f1dc043329}, - {0xc0fe908895cf3b44, 0x505f522e53053ff3}, - {0xf13e34aabb430a15, 0x647726b9e7c68ff0}, - {0x96c6e0eab509e64d, 0x5eca783430dc19f6}, - {0xbc789925624c5fe0, 0xb67d16413d132073}, - {0xeb96bf6ebadf77d8, 0xe41c5bd18c57e890}, - {0x933e37a534cbaae7, 0x8e91b962f7b6f15a}, - {0xb80dc58e81fe95a1, 0x723627bbb5a4adb1}, - {0xe61136f2227e3b09, 0xcec3b1aaa30dd91d}, - {0x8fcac257558ee4e6, 0x213a4f0aa5e8a7b2}, - {0xb3bd72ed2af29e1f, 0xa988e2cd4f62d19e}, - {0xe0accfa875af45a7, 0x93eb1b80a33b8606}, - {0x8c6c01c9498d8b88, 0xbc72f130660533c4}, - {0xaf87023b9bf0ee6a, 0xeb8fad7c7f8680b5}, - {0xdb68c2ca82ed2a05, 0xa67398db9f6820e2}, -#else - {0xff77b1fcbebcdc4f, 0x25e8e89c13bb0f7b}, - {0xce5d73ff402d98e3, 0xfb0a3d212dc81290}, - {0xa6b34ad8c9dfc06f, 0xf42faa48c0ea481f}, - {0x86a8d39ef77164bc, 0xae5dff9c02033198}, - {0xd98ddaee19068c76, 0x3badd624dd9b0958}, - {0xafbd2350644eeacf, 0xe5d1929ef90898fb}, - {0x8df5efabc5979c8f, 0xca8d3ffa1ef463c2}, - {0xe55990879ddcaabd, 0xcc420a6a101d0516}, - {0xb94470938fa89bce, 0xf808e40e8d5b3e6a}, - {0x95a8637627989aad, 0xdde7001379a44aa9}, - {0xf1c90080baf72cb1, 0x5324c68b12dd6339}, - {0xc350000000000000, 0x0000000000000000}, - {0x9dc5ada82b70b59d, 0xf020000000000000}, - {0xfee50b7025c36a08, 0x02f236d04753d5b5}, - {0xcde6fd5e09abcf26, 0xed4c0226b55e6f87}, - {0xa6539930bf6bff45, 0x84db8346b786151d}, - {0x865b86925b9bc5c2, 0x0b8a2392ba45a9b3}, - {0xd910f7ff28069da4, 0x1b2ba1518094da05}, - {0xaf58416654a6babb, 0x387ac8d1970027b3}, - {0x8da471a9de737e24, 0x5ceaecfed289e5d3}, - {0xe4d5e82392a40515, 0x0fabaf3feaa5334b}, - {0xb8da1662e7b00a17, 0x3d6a751f3b936244}, - {0x95527a5202df0ccb, 0x0f37801e0c43ebc9}, - {0xf13e34aabb430a15, 0x647726b9e7c68ff0} -#endif - }; - -#if FMT_USE_FULL_CACHE_DRAGONBOX - return pow10_significands[k - float_info::min_k]; -#else - static constexpr const uint64_t powers_of_5_64[] = { - 0x0000000000000001, 0x0000000000000005, 0x0000000000000019, - 0x000000000000007d, 0x0000000000000271, 0x0000000000000c35, - 0x0000000000003d09, 0x000000000001312d, 0x000000000005f5e1, - 0x00000000001dcd65, 0x00000000009502f9, 0x0000000002e90edd, - 0x000000000e8d4a51, 0x0000000048c27395, 0x000000016bcc41e9, - 0x000000071afd498d, 0x0000002386f26fc1, 0x000000b1a2bc2ec5, - 0x000003782dace9d9, 0x00001158e460913d, 0x000056bc75e2d631, - 0x0001b1ae4d6e2ef5, 0x000878678326eac9, 0x002a5a058fc295ed, - 0x00d3c21bcecceda1, 0x0422ca8b0a00a425, 0x14adf4b7320334b9}; - - static const int compression_ratio = 27; - - // Compute base index. - int cache_index = (k - float_info::min_k) / compression_ratio; - int kb = cache_index * compression_ratio + float_info::min_k; - int offset = k - kb; - - // Get base cache. - uint128_fallback base_cache = pow10_significands[cache_index]; - if (offset == 0) return base_cache; - - // Compute the required amount of bit-shift. - int alpha = floor_log2_pow10(kb + offset) - floor_log2_pow10(kb) - offset; - FMT_ASSERT(alpha > 0 && alpha < 64, "shifting error detected"); - - // Try to recover the real cache. - uint64_t pow5 = powers_of_5_64[offset]; - uint128_fallback recovered_cache = umul128(base_cache.high(), pow5); - uint128_fallback middle_low = umul128(base_cache.low(), pow5); - - recovered_cache += middle_low.high(); - - uint64_t high_to_middle = recovered_cache.high() << (64 - alpha); - uint64_t middle_to_low = recovered_cache.low() << (64 - alpha); - - recovered_cache = - uint128_fallback{(recovered_cache.low() >> alpha) | high_to_middle, - ((middle_low.low() >> alpha) | middle_to_low)}; - FMT_ASSERT(recovered_cache.low() + 1 != 0, ""); - return {recovered_cache.high(), recovered_cache.low() + 1}; -#endif - } - - struct compute_mul_result { - carrier_uint result; - bool is_integer; - }; - struct compute_mul_parity_result { - bool parity; - bool is_integer; - }; - - static auto compute_mul(carrier_uint u, - const cache_entry_type& cache) noexcept - -> compute_mul_result { - auto r = umul192_upper128(u, cache); - return {r.high(), r.low() == 0}; - } - - static auto compute_delta(cache_entry_type const& cache, int beta) noexcept - -> uint32_t { - return static_cast(cache.high() >> (64 - 1 - beta)); - } - - static auto compute_mul_parity(carrier_uint two_f, - const cache_entry_type& cache, - int beta) noexcept - -> compute_mul_parity_result { - FMT_ASSERT(beta >= 1, ""); - FMT_ASSERT(beta < 64, ""); - - auto r = umul192_lower128(two_f, cache); - return {((r.high() >> (64 - beta)) & 1) != 0, - ((r.high() << beta) | (r.low() >> (64 - beta))) == 0}; - } - - static auto compute_left_endpoint_for_shorter_interval_case( - const cache_entry_type& cache, int beta) noexcept -> carrier_uint { - return (cache.high() - - (cache.high() >> (num_significand_bits() + 2))) >> - (64 - num_significand_bits() - 1 - beta); - } - - static auto compute_right_endpoint_for_shorter_interval_case( - const cache_entry_type& cache, int beta) noexcept -> carrier_uint { - return (cache.high() + - (cache.high() >> (num_significand_bits() + 1))) >> - (64 - num_significand_bits() - 1 - beta); - } - - static auto compute_round_up_for_shorter_interval_case( - const cache_entry_type& cache, int beta) noexcept -> carrier_uint { - return ((cache.high() >> (64 - num_significand_bits() - 2 - beta)) + - 1) / - 2; - } -}; - -FMT_FUNC auto get_cached_power(int k) noexcept -> uint128_fallback { - return cache_accessor::get_cached_power(k); -} - -// Various integer checks -template -auto is_left_endpoint_integer_shorter_interval(int exponent) noexcept -> bool { - const int case_shorter_interval_left_endpoint_lower_threshold = 2; - const int case_shorter_interval_left_endpoint_upper_threshold = 3; - return exponent >= case_shorter_interval_left_endpoint_lower_threshold && - exponent <= case_shorter_interval_left_endpoint_upper_threshold; -} - -// Remove trailing zeros from n and return the number of zeros removed (float) -FMT_INLINE int remove_trailing_zeros(uint32_t& n, int s = 0) noexcept { - FMT_ASSERT(n != 0, ""); - // Modular inverse of 5 (mod 2^32): (mod_inv_5 * 5) mod 2^32 = 1. - constexpr uint32_t mod_inv_5 = 0xcccccccd; - constexpr uint32_t mod_inv_25 = 0xc28f5c29; // = mod_inv_5 * mod_inv_5 - - while (true) { - auto q = rotr(n * mod_inv_25, 2); - if (q > max_value() / 100) break; - n = q; - s += 2; - } - auto q = rotr(n * mod_inv_5, 1); - if (q <= max_value() / 10) { - n = q; - s |= 1; - } - return s; -} - -// Removes trailing zeros and returns the number of zeros removed (double) -FMT_INLINE int remove_trailing_zeros(uint64_t& n) noexcept { - FMT_ASSERT(n != 0, ""); - - // This magic number is ceil(2^90 / 10^8). - constexpr uint64_t magic_number = 12379400392853802749ull; - auto nm = umul128(n, magic_number); - - // Is n is divisible by 10^8? - if ((nm.high() & ((1ull << (90 - 64)) - 1)) == 0 && nm.low() < magic_number) { - // If yes, work with the quotient... - auto n32 = static_cast(nm.high() >> (90 - 64)); - // ... and use the 32 bit variant of the function - int s = remove_trailing_zeros(n32, 8); - n = n32; - return s; - } - - // If n is not divisible by 10^8, work with n itself. - constexpr uint64_t mod_inv_5 = 0xcccccccccccccccd; - constexpr uint64_t mod_inv_25 = 0x8f5c28f5c28f5c29; // mod_inv_5 * mod_inv_5 - - int s = 0; - while (true) { - auto q = rotr(n * mod_inv_25, 2); - if (q > max_value() / 100) break; - n = q; - s += 2; - } - auto q = rotr(n * mod_inv_5, 1); - if (q <= max_value() / 10) { - n = q; - s |= 1; - } - - return s; -} - -// The main algorithm for shorter interval case -template -FMT_INLINE decimal_fp shorter_interval_case(int exponent) noexcept { - decimal_fp ret_value; - // Compute k and beta - const int minus_k = floor_log10_pow2_minus_log10_4_over_3(exponent); - const int beta = exponent + floor_log2_pow10(-minus_k); - - // Compute xi and zi - using cache_entry_type = typename cache_accessor::cache_entry_type; - const cache_entry_type cache = cache_accessor::get_cached_power(-minus_k); - - auto xi = cache_accessor::compute_left_endpoint_for_shorter_interval_case( - cache, beta); - auto zi = cache_accessor::compute_right_endpoint_for_shorter_interval_case( - cache, beta); - - // If the left endpoint is not an integer, increase it - if (!is_left_endpoint_integer_shorter_interval(exponent)) ++xi; - - // Try bigger divisor - ret_value.significand = zi / 10; - - // If succeed, remove trailing zeros if necessary and return - if (ret_value.significand * 10 >= xi) { - ret_value.exponent = minus_k + 1; - ret_value.exponent += remove_trailing_zeros(ret_value.significand); - return ret_value; - } - - // Otherwise, compute the round-up of y - ret_value.significand = - cache_accessor::compute_round_up_for_shorter_interval_case(cache, - beta); - ret_value.exponent = minus_k; - - // When tie occurs, choose one of them according to the rule - if (exponent >= float_info::shorter_interval_tie_lower_threshold && - exponent <= float_info::shorter_interval_tie_upper_threshold) { - ret_value.significand = ret_value.significand % 2 == 0 - ? ret_value.significand - : ret_value.significand - 1; - } else if (ret_value.significand < xi) { - ++ret_value.significand; - } - return ret_value; -} - -template auto to_decimal(T x) noexcept -> decimal_fp { - // Step 1: integer promotion & Schubfach multiplier calculation. - - using carrier_uint = typename float_info::carrier_uint; - using cache_entry_type = typename cache_accessor::cache_entry_type; - auto br = bit_cast(x); - - // Extract significand bits and exponent bits. - const carrier_uint significand_mask = - (static_cast(1) << num_significand_bits()) - 1; - carrier_uint significand = (br & significand_mask); - int exponent = - static_cast((br & exponent_mask()) >> num_significand_bits()); - - if (exponent != 0) { // Check if normal. - exponent -= exponent_bias() + num_significand_bits(); - - // Shorter interval case; proceed like Schubfach. - // In fact, when exponent == 1 and significand == 0, the interval is - // regular. However, it can be shown that the end-results are anyway same. - if (significand == 0) return shorter_interval_case(exponent); - - significand |= (static_cast(1) << num_significand_bits()); - } else { - // Subnormal case; the interval is always regular. - if (significand == 0) return {0, 0}; - exponent = - std::numeric_limits::min_exponent - num_significand_bits() - 1; - } - - const bool include_left_endpoint = (significand % 2 == 0); - const bool include_right_endpoint = include_left_endpoint; - - // Compute k and beta. - const int minus_k = floor_log10_pow2(exponent) - float_info::kappa; - const cache_entry_type cache = cache_accessor::get_cached_power(-minus_k); - const int beta = exponent + floor_log2_pow10(-minus_k); - - // Compute zi and deltai. - // 10^kappa <= deltai < 10^(kappa + 1) - const uint32_t deltai = cache_accessor::compute_delta(cache, beta); - const carrier_uint two_fc = significand << 1; - - // For the case of binary32, the result of integer check is not correct for - // 29711844 * 2^-82 - // = 6.1442653300000000008655037797566933477355632930994033813476... * 10^-18 - // and 29711844 * 2^-81 - // = 1.2288530660000000001731007559513386695471126586198806762695... * 10^-17, - // and they are the unique counterexamples. However, since 29711844 is even, - // this does not cause any problem for the endpoints calculations; it can only - // cause a problem when we need to perform integer check for the center. - // Fortunately, with these inputs, that branch is never executed, so we are - // fine. - const typename cache_accessor::compute_mul_result z_mul = - cache_accessor::compute_mul((two_fc | 1) << beta, cache); - - // Step 2: Try larger divisor; remove trailing zeros if necessary. - - // Using an upper bound on zi, we might be able to optimize the division - // better than the compiler; we are computing zi / big_divisor here. - decimal_fp ret_value; - ret_value.significand = divide_by_10_to_kappa_plus_1(z_mul.result); - uint32_t r = static_cast(z_mul.result - float_info::big_divisor * - ret_value.significand); - - if (r < deltai) { - // Exclude the right endpoint if necessary. - if (r == 0 && (z_mul.is_integer & !include_right_endpoint)) { - --ret_value.significand; - r = float_info::big_divisor; - goto small_divisor_case_label; - } - } else if (r > deltai) { - goto small_divisor_case_label; - } else { - // r == deltai; compare fractional parts. - const typename cache_accessor::compute_mul_parity_result x_mul = - cache_accessor::compute_mul_parity(two_fc - 1, cache, beta); - - if (!(x_mul.parity | (x_mul.is_integer & include_left_endpoint))) - goto small_divisor_case_label; - } - ret_value.exponent = minus_k + float_info::kappa + 1; - - // We may need to remove trailing zeros. - ret_value.exponent += remove_trailing_zeros(ret_value.significand); - return ret_value; - - // Step 3: Find the significand with the smaller divisor. - -small_divisor_case_label: - ret_value.significand *= 10; - ret_value.exponent = minus_k + float_info::kappa; - - uint32_t dist = r - (deltai / 2) + (float_info::small_divisor / 2); - const bool approx_y_parity = - ((dist ^ (float_info::small_divisor / 2)) & 1) != 0; - - // Is dist divisible by 10^kappa? - const bool divisible_by_small_divisor = - check_divisibility_and_divide_by_pow10::kappa>(dist); - - // Add dist / 10^kappa to the significand. - ret_value.significand += dist; - - if (!divisible_by_small_divisor) return ret_value; - - // Check z^(f) >= epsilon^(f). - // We have either yi == zi - epsiloni or yi == (zi - epsiloni) - 1, - // where yi == zi - epsiloni if and only if z^(f) >= epsilon^(f). - // Since there are only 2 possibilities, we only need to care about the - // parity. Also, zi and r should have the same parity since the divisor - // is an even number. - const auto y_mul = cache_accessor::compute_mul_parity(two_fc, cache, beta); - - // If z^(f) >= epsilon^(f), we might have a tie when z^(f) == epsilon^(f), - // or equivalently, when y is an integer. - if (y_mul.parity != approx_y_parity) - --ret_value.significand; - else if (y_mul.is_integer & (ret_value.significand % 2 != 0)) - --ret_value.significand; - return ret_value; -} -} // namespace dragonbox -} // namespace detail - -template <> struct formatter { - FMT_CONSTEXPR auto parse(format_parse_context& ctx) - -> format_parse_context::iterator { - return ctx.begin(); - } - - auto format(const detail::bigint& n, format_context& ctx) const - -> format_context::iterator { - auto out = ctx.out(); - bool first = true; - for (auto i = n.bigits_.size(); i > 0; --i) { - auto value = n.bigits_[i - 1u]; - if (first) { - out = fmt::format_to(out, FMT_STRING("{:x}"), value); - first = false; - continue; - } - out = fmt::format_to(out, FMT_STRING("{:08x}"), value); - } - if (n.exp_ > 0) - out = fmt::format_to(out, FMT_STRING("p{}"), - n.exp_ * detail::bigint::bigit_bits); - return out; - } -}; - -FMT_FUNC detail::utf8_to_utf16::utf8_to_utf16(string_view s) { - for_each_codepoint(s, [this](uint32_t cp, string_view) { - if (cp == invalid_code_point) FMT_THROW(std::runtime_error("invalid utf8")); - if (cp <= 0xFFFF) { - buffer_.push_back(static_cast(cp)); - } else { - cp -= 0x10000; - buffer_.push_back(static_cast(0xD800 + (cp >> 10))); - buffer_.push_back(static_cast(0xDC00 + (cp & 0x3FF))); - } - return true; - }); - buffer_.push_back(0); -} - -FMT_FUNC void format_system_error(detail::buffer& out, int error_code, - const char* message) noexcept { - FMT_TRY { - auto ec = std::error_code(error_code, std::generic_category()); - write(std::back_inserter(out), std::system_error(ec, message).what()); - return; - } - FMT_CATCH(...) {} - format_error_code(out, error_code, message); -} - -FMT_FUNC void report_system_error(int error_code, - const char* message) noexcept { - report_error(format_system_error, error_code, message); -} - -FMT_FUNC auto vformat(string_view fmt, format_args args) -> std::string { - // Don't optimize the "{}" case to keep the binary size small and because it - // can be better optimized in fmt::format anyway. - auto buffer = memory_buffer(); - detail::vformat_to(buffer, fmt, args); - return to_string(buffer); -} - -namespace detail { -#if !defined(_WIN32) || defined(FMT_WINDOWS_NO_WCHAR) -FMT_FUNC auto write_console(int, string_view) -> bool { return false; } -FMT_FUNC auto write_console(std::FILE*, string_view) -> bool { return false; } -#else -using dword = conditional_t; -extern "C" __declspec(dllimport) int __stdcall WriteConsoleW( // - void*, const void*, dword, dword*, void*); - -FMT_FUNC bool write_console(int fd, string_view text) { - auto u16 = utf8_to_utf16(text); - return WriteConsoleW(reinterpret_cast(_get_osfhandle(fd)), u16.c_str(), - static_cast(u16.size()), nullptr, nullptr) != 0; -} - -FMT_FUNC auto write_console(std::FILE* f, string_view text) -> bool { - return write_console(_fileno(f), text); -} -#endif - -#ifdef _WIN32 -// Print assuming legacy (non-Unicode) encoding. -FMT_FUNC void vprint_mojibake(std::FILE* f, string_view fmt, format_args args) { - auto buffer = memory_buffer(); - detail::vformat_to(buffer, fmt, args); - fwrite_fully(buffer.data(), buffer.size(), f); -} -#endif - -FMT_FUNC void print(std::FILE* f, string_view text) { -#ifdef _WIN32 - int fd = _fileno(f); - if (_isatty(fd)) { - std::fflush(f); - if (write_console(fd, text)) return; - } -#endif - fwrite_fully(text.data(), text.size(), f); -} -} // namespace detail - -FMT_FUNC void vprint(std::FILE* f, string_view fmt, format_args args) { - auto buffer = memory_buffer(); - detail::vformat_to(buffer, fmt, args); - detail::print(f, {buffer.data(), buffer.size()}); -} - -FMT_FUNC void vprint(string_view fmt, format_args args) { - vprint(stdout, fmt, args); -} - -namespace detail { - -struct singleton { - unsigned char upper; - unsigned char lower_count; -}; - -inline auto is_printable(uint16_t x, const singleton* singletons, - size_t singletons_size, - const unsigned char* singleton_lowers, - const unsigned char* normal, size_t normal_size) - -> bool { - auto upper = x >> 8; - auto lower_start = 0; - for (size_t i = 0; i < singletons_size; ++i) { - auto s = singletons[i]; - auto lower_end = lower_start + s.lower_count; - if (upper < s.upper) break; - if (upper == s.upper) { - for (auto j = lower_start; j < lower_end; ++j) { - if (singleton_lowers[j] == (x & 0xff)) return false; - } - } - lower_start = lower_end; - } - - auto xsigned = static_cast(x); - auto current = true; - for (size_t i = 0; i < normal_size; ++i) { - auto v = static_cast(normal[i]); - auto len = (v & 0x80) != 0 ? (v & 0x7f) << 8 | normal[++i] : v; - xsigned -= len; - if (xsigned < 0) break; - current = !current; - } - return current; -} - -// This code is generated by support/printable.py. -FMT_FUNC auto is_printable(uint32_t cp) -> bool { - static constexpr singleton singletons0[] = { - {0x00, 1}, {0x03, 5}, {0x05, 6}, {0x06, 3}, {0x07, 6}, {0x08, 8}, - {0x09, 17}, {0x0a, 28}, {0x0b, 25}, {0x0c, 20}, {0x0d, 16}, {0x0e, 13}, - {0x0f, 4}, {0x10, 3}, {0x12, 18}, {0x13, 9}, {0x16, 1}, {0x17, 5}, - {0x18, 2}, {0x19, 3}, {0x1a, 7}, {0x1c, 2}, {0x1d, 1}, {0x1f, 22}, - {0x20, 3}, {0x2b, 3}, {0x2c, 2}, {0x2d, 11}, {0x2e, 1}, {0x30, 3}, - {0x31, 2}, {0x32, 1}, {0xa7, 2}, {0xa9, 2}, {0xaa, 4}, {0xab, 8}, - {0xfa, 2}, {0xfb, 5}, {0xfd, 4}, {0xfe, 3}, {0xff, 9}, - }; - static constexpr unsigned char singletons0_lower[] = { - 0xad, 0x78, 0x79, 0x8b, 0x8d, 0xa2, 0x30, 0x57, 0x58, 0x8b, 0x8c, 0x90, - 0x1c, 0x1d, 0xdd, 0x0e, 0x0f, 0x4b, 0x4c, 0xfb, 0xfc, 0x2e, 0x2f, 0x3f, - 0x5c, 0x5d, 0x5f, 0xb5, 0xe2, 0x84, 0x8d, 0x8e, 0x91, 0x92, 0xa9, 0xb1, - 0xba, 0xbb, 0xc5, 0xc6, 0xc9, 0xca, 0xde, 0xe4, 0xe5, 0xff, 0x00, 0x04, - 0x11, 0x12, 0x29, 0x31, 0x34, 0x37, 0x3a, 0x3b, 0x3d, 0x49, 0x4a, 0x5d, - 0x84, 0x8e, 0x92, 0xa9, 0xb1, 0xb4, 0xba, 0xbb, 0xc6, 0xca, 0xce, 0xcf, - 0xe4, 0xe5, 0x00, 0x04, 0x0d, 0x0e, 0x11, 0x12, 0x29, 0x31, 0x34, 0x3a, - 0x3b, 0x45, 0x46, 0x49, 0x4a, 0x5e, 0x64, 0x65, 0x84, 0x91, 0x9b, 0x9d, - 0xc9, 0xce, 0xcf, 0x0d, 0x11, 0x29, 0x45, 0x49, 0x57, 0x64, 0x65, 0x8d, - 0x91, 0xa9, 0xb4, 0xba, 0xbb, 0xc5, 0xc9, 0xdf, 0xe4, 0xe5, 0xf0, 0x0d, - 0x11, 0x45, 0x49, 0x64, 0x65, 0x80, 0x84, 0xb2, 0xbc, 0xbe, 0xbf, 0xd5, - 0xd7, 0xf0, 0xf1, 0x83, 0x85, 0x8b, 0xa4, 0xa6, 0xbe, 0xbf, 0xc5, 0xc7, - 0xce, 0xcf, 0xda, 0xdb, 0x48, 0x98, 0xbd, 0xcd, 0xc6, 0xce, 0xcf, 0x49, - 0x4e, 0x4f, 0x57, 0x59, 0x5e, 0x5f, 0x89, 0x8e, 0x8f, 0xb1, 0xb6, 0xb7, - 0xbf, 0xc1, 0xc6, 0xc7, 0xd7, 0x11, 0x16, 0x17, 0x5b, 0x5c, 0xf6, 0xf7, - 0xfe, 0xff, 0x80, 0x0d, 0x6d, 0x71, 0xde, 0xdf, 0x0e, 0x0f, 0x1f, 0x6e, - 0x6f, 0x1c, 0x1d, 0x5f, 0x7d, 0x7e, 0xae, 0xaf, 0xbb, 0xbc, 0xfa, 0x16, - 0x17, 0x1e, 0x1f, 0x46, 0x47, 0x4e, 0x4f, 0x58, 0x5a, 0x5c, 0x5e, 0x7e, - 0x7f, 0xb5, 0xc5, 0xd4, 0xd5, 0xdc, 0xf0, 0xf1, 0xf5, 0x72, 0x73, 0x8f, - 0x74, 0x75, 0x96, 0x2f, 0x5f, 0x26, 0x2e, 0x2f, 0xa7, 0xaf, 0xb7, 0xbf, - 0xc7, 0xcf, 0xd7, 0xdf, 0x9a, 0x40, 0x97, 0x98, 0x30, 0x8f, 0x1f, 0xc0, - 0xc1, 0xce, 0xff, 0x4e, 0x4f, 0x5a, 0x5b, 0x07, 0x08, 0x0f, 0x10, 0x27, - 0x2f, 0xee, 0xef, 0x6e, 0x6f, 0x37, 0x3d, 0x3f, 0x42, 0x45, 0x90, 0x91, - 0xfe, 0xff, 0x53, 0x67, 0x75, 0xc8, 0xc9, 0xd0, 0xd1, 0xd8, 0xd9, 0xe7, - 0xfe, 0xff, - }; - static constexpr singleton singletons1[] = { - {0x00, 6}, {0x01, 1}, {0x03, 1}, {0x04, 2}, {0x08, 8}, {0x09, 2}, - {0x0a, 5}, {0x0b, 2}, {0x0e, 4}, {0x10, 1}, {0x11, 2}, {0x12, 5}, - {0x13, 17}, {0x14, 1}, {0x15, 2}, {0x17, 2}, {0x19, 13}, {0x1c, 5}, - {0x1d, 8}, {0x24, 1}, {0x6a, 3}, {0x6b, 2}, {0xbc, 2}, {0xd1, 2}, - {0xd4, 12}, {0xd5, 9}, {0xd6, 2}, {0xd7, 2}, {0xda, 1}, {0xe0, 5}, - {0xe1, 2}, {0xe8, 2}, {0xee, 32}, {0xf0, 4}, {0xf8, 2}, {0xf9, 2}, - {0xfa, 2}, {0xfb, 1}, - }; - static constexpr unsigned char singletons1_lower[] = { - 0x0c, 0x27, 0x3b, 0x3e, 0x4e, 0x4f, 0x8f, 0x9e, 0x9e, 0x9f, 0x06, 0x07, - 0x09, 0x36, 0x3d, 0x3e, 0x56, 0xf3, 0xd0, 0xd1, 0x04, 0x14, 0x18, 0x36, - 0x37, 0x56, 0x57, 0x7f, 0xaa, 0xae, 0xaf, 0xbd, 0x35, 0xe0, 0x12, 0x87, - 0x89, 0x8e, 0x9e, 0x04, 0x0d, 0x0e, 0x11, 0x12, 0x29, 0x31, 0x34, 0x3a, - 0x45, 0x46, 0x49, 0x4a, 0x4e, 0x4f, 0x64, 0x65, 0x5c, 0xb6, 0xb7, 0x1b, - 0x1c, 0x07, 0x08, 0x0a, 0x0b, 0x14, 0x17, 0x36, 0x39, 0x3a, 0xa8, 0xa9, - 0xd8, 0xd9, 0x09, 0x37, 0x90, 0x91, 0xa8, 0x07, 0x0a, 0x3b, 0x3e, 0x66, - 0x69, 0x8f, 0x92, 0x6f, 0x5f, 0xee, 0xef, 0x5a, 0x62, 0x9a, 0x9b, 0x27, - 0x28, 0x55, 0x9d, 0xa0, 0xa1, 0xa3, 0xa4, 0xa7, 0xa8, 0xad, 0xba, 0xbc, - 0xc4, 0x06, 0x0b, 0x0c, 0x15, 0x1d, 0x3a, 0x3f, 0x45, 0x51, 0xa6, 0xa7, - 0xcc, 0xcd, 0xa0, 0x07, 0x19, 0x1a, 0x22, 0x25, 0x3e, 0x3f, 0xc5, 0xc6, - 0x04, 0x20, 0x23, 0x25, 0x26, 0x28, 0x33, 0x38, 0x3a, 0x48, 0x4a, 0x4c, - 0x50, 0x53, 0x55, 0x56, 0x58, 0x5a, 0x5c, 0x5e, 0x60, 0x63, 0x65, 0x66, - 0x6b, 0x73, 0x78, 0x7d, 0x7f, 0x8a, 0xa4, 0xaa, 0xaf, 0xb0, 0xc0, 0xd0, - 0xae, 0xaf, 0x79, 0xcc, 0x6e, 0x6f, 0x93, - }; - static constexpr unsigned char normal0[] = { - 0x00, 0x20, 0x5f, 0x22, 0x82, 0xdf, 0x04, 0x82, 0x44, 0x08, 0x1b, 0x04, - 0x06, 0x11, 0x81, 0xac, 0x0e, 0x80, 0xab, 0x35, 0x28, 0x0b, 0x80, 0xe0, - 0x03, 0x19, 0x08, 0x01, 0x04, 0x2f, 0x04, 0x34, 0x04, 0x07, 0x03, 0x01, - 0x07, 0x06, 0x07, 0x11, 0x0a, 0x50, 0x0f, 0x12, 0x07, 0x55, 0x07, 0x03, - 0x04, 0x1c, 0x0a, 0x09, 0x03, 0x08, 0x03, 0x07, 0x03, 0x02, 0x03, 0x03, - 0x03, 0x0c, 0x04, 0x05, 0x03, 0x0b, 0x06, 0x01, 0x0e, 0x15, 0x05, 0x3a, - 0x03, 0x11, 0x07, 0x06, 0x05, 0x10, 0x07, 0x57, 0x07, 0x02, 0x07, 0x15, - 0x0d, 0x50, 0x04, 0x43, 0x03, 0x2d, 0x03, 0x01, 0x04, 0x11, 0x06, 0x0f, - 0x0c, 0x3a, 0x04, 0x1d, 0x25, 0x5f, 0x20, 0x6d, 0x04, 0x6a, 0x25, 0x80, - 0xc8, 0x05, 0x82, 0xb0, 0x03, 0x1a, 0x06, 0x82, 0xfd, 0x03, 0x59, 0x07, - 0x15, 0x0b, 0x17, 0x09, 0x14, 0x0c, 0x14, 0x0c, 0x6a, 0x06, 0x0a, 0x06, - 0x1a, 0x06, 0x59, 0x07, 0x2b, 0x05, 0x46, 0x0a, 0x2c, 0x04, 0x0c, 0x04, - 0x01, 0x03, 0x31, 0x0b, 0x2c, 0x04, 0x1a, 0x06, 0x0b, 0x03, 0x80, 0xac, - 0x06, 0x0a, 0x06, 0x21, 0x3f, 0x4c, 0x04, 0x2d, 0x03, 0x74, 0x08, 0x3c, - 0x03, 0x0f, 0x03, 0x3c, 0x07, 0x38, 0x08, 0x2b, 0x05, 0x82, 0xff, 0x11, - 0x18, 0x08, 0x2f, 0x11, 0x2d, 0x03, 0x20, 0x10, 0x21, 0x0f, 0x80, 0x8c, - 0x04, 0x82, 0x97, 0x19, 0x0b, 0x15, 0x88, 0x94, 0x05, 0x2f, 0x05, 0x3b, - 0x07, 0x02, 0x0e, 0x18, 0x09, 0x80, 0xb3, 0x2d, 0x74, 0x0c, 0x80, 0xd6, - 0x1a, 0x0c, 0x05, 0x80, 0xff, 0x05, 0x80, 0xdf, 0x0c, 0xee, 0x0d, 0x03, - 0x84, 0x8d, 0x03, 0x37, 0x09, 0x81, 0x5c, 0x14, 0x80, 0xb8, 0x08, 0x80, - 0xcb, 0x2a, 0x38, 0x03, 0x0a, 0x06, 0x38, 0x08, 0x46, 0x08, 0x0c, 0x06, - 0x74, 0x0b, 0x1e, 0x03, 0x5a, 0x04, 0x59, 0x09, 0x80, 0x83, 0x18, 0x1c, - 0x0a, 0x16, 0x09, 0x4c, 0x04, 0x80, 0x8a, 0x06, 0xab, 0xa4, 0x0c, 0x17, - 0x04, 0x31, 0xa1, 0x04, 0x81, 0xda, 0x26, 0x07, 0x0c, 0x05, 0x05, 0x80, - 0xa5, 0x11, 0x81, 0x6d, 0x10, 0x78, 0x28, 0x2a, 0x06, 0x4c, 0x04, 0x80, - 0x8d, 0x04, 0x80, 0xbe, 0x03, 0x1b, 0x03, 0x0f, 0x0d, - }; - static constexpr unsigned char normal1[] = { - 0x5e, 0x22, 0x7b, 0x05, 0x03, 0x04, 0x2d, 0x03, 0x66, 0x03, 0x01, 0x2f, - 0x2e, 0x80, 0x82, 0x1d, 0x03, 0x31, 0x0f, 0x1c, 0x04, 0x24, 0x09, 0x1e, - 0x05, 0x2b, 0x05, 0x44, 0x04, 0x0e, 0x2a, 0x80, 0xaa, 0x06, 0x24, 0x04, - 0x24, 0x04, 0x28, 0x08, 0x34, 0x0b, 0x01, 0x80, 0x90, 0x81, 0x37, 0x09, - 0x16, 0x0a, 0x08, 0x80, 0x98, 0x39, 0x03, 0x63, 0x08, 0x09, 0x30, 0x16, - 0x05, 0x21, 0x03, 0x1b, 0x05, 0x01, 0x40, 0x38, 0x04, 0x4b, 0x05, 0x2f, - 0x04, 0x0a, 0x07, 0x09, 0x07, 0x40, 0x20, 0x27, 0x04, 0x0c, 0x09, 0x36, - 0x03, 0x3a, 0x05, 0x1a, 0x07, 0x04, 0x0c, 0x07, 0x50, 0x49, 0x37, 0x33, - 0x0d, 0x33, 0x07, 0x2e, 0x08, 0x0a, 0x81, 0x26, 0x52, 0x4e, 0x28, 0x08, - 0x2a, 0x56, 0x1c, 0x14, 0x17, 0x09, 0x4e, 0x04, 0x1e, 0x0f, 0x43, 0x0e, - 0x19, 0x07, 0x0a, 0x06, 0x48, 0x08, 0x27, 0x09, 0x75, 0x0b, 0x3f, 0x41, - 0x2a, 0x06, 0x3b, 0x05, 0x0a, 0x06, 0x51, 0x06, 0x01, 0x05, 0x10, 0x03, - 0x05, 0x80, 0x8b, 0x62, 0x1e, 0x48, 0x08, 0x0a, 0x80, 0xa6, 0x5e, 0x22, - 0x45, 0x0b, 0x0a, 0x06, 0x0d, 0x13, 0x39, 0x07, 0x0a, 0x36, 0x2c, 0x04, - 0x10, 0x80, 0xc0, 0x3c, 0x64, 0x53, 0x0c, 0x48, 0x09, 0x0a, 0x46, 0x45, - 0x1b, 0x48, 0x08, 0x53, 0x1d, 0x39, 0x81, 0x07, 0x46, 0x0a, 0x1d, 0x03, - 0x47, 0x49, 0x37, 0x03, 0x0e, 0x08, 0x0a, 0x06, 0x39, 0x07, 0x0a, 0x81, - 0x36, 0x19, 0x80, 0xb7, 0x01, 0x0f, 0x32, 0x0d, 0x83, 0x9b, 0x66, 0x75, - 0x0b, 0x80, 0xc4, 0x8a, 0xbc, 0x84, 0x2f, 0x8f, 0xd1, 0x82, 0x47, 0xa1, - 0xb9, 0x82, 0x39, 0x07, 0x2a, 0x04, 0x02, 0x60, 0x26, 0x0a, 0x46, 0x0a, - 0x28, 0x05, 0x13, 0x82, 0xb0, 0x5b, 0x65, 0x4b, 0x04, 0x39, 0x07, 0x11, - 0x40, 0x05, 0x0b, 0x02, 0x0e, 0x97, 0xf8, 0x08, 0x84, 0xd6, 0x2a, 0x09, - 0xa2, 0xf7, 0x81, 0x1f, 0x31, 0x03, 0x11, 0x04, 0x08, 0x81, 0x8c, 0x89, - 0x04, 0x6b, 0x05, 0x0d, 0x03, 0x09, 0x07, 0x10, 0x93, 0x60, 0x80, 0xf6, - 0x0a, 0x73, 0x08, 0x6e, 0x17, 0x46, 0x80, 0x9a, 0x14, 0x0c, 0x57, 0x09, - 0x19, 0x80, 0x87, 0x81, 0x47, 0x03, 0x85, 0x42, 0x0f, 0x15, 0x85, 0x50, - 0x2b, 0x80, 0xd5, 0x2d, 0x03, 0x1a, 0x04, 0x02, 0x81, 0x70, 0x3a, 0x05, - 0x01, 0x85, 0x00, 0x80, 0xd7, 0x29, 0x4c, 0x04, 0x0a, 0x04, 0x02, 0x83, - 0x11, 0x44, 0x4c, 0x3d, 0x80, 0xc2, 0x3c, 0x06, 0x01, 0x04, 0x55, 0x05, - 0x1b, 0x34, 0x02, 0x81, 0x0e, 0x2c, 0x04, 0x64, 0x0c, 0x56, 0x0a, 0x80, - 0xae, 0x38, 0x1d, 0x0d, 0x2c, 0x04, 0x09, 0x07, 0x02, 0x0e, 0x06, 0x80, - 0x9a, 0x83, 0xd8, 0x08, 0x0d, 0x03, 0x0d, 0x03, 0x74, 0x0c, 0x59, 0x07, - 0x0c, 0x14, 0x0c, 0x04, 0x38, 0x08, 0x0a, 0x06, 0x28, 0x08, 0x22, 0x4e, - 0x81, 0x54, 0x0c, 0x15, 0x03, 0x03, 0x05, 0x07, 0x09, 0x19, 0x07, 0x07, - 0x09, 0x03, 0x0d, 0x07, 0x29, 0x80, 0xcb, 0x25, 0x0a, 0x84, 0x06, - }; - auto lower = static_cast(cp); - if (cp < 0x10000) { - return is_printable(lower, singletons0, - sizeof(singletons0) / sizeof(*singletons0), - singletons0_lower, normal0, sizeof(normal0)); - } - if (cp < 0x20000) { - return is_printable(lower, singletons1, - sizeof(singletons1) / sizeof(*singletons1), - singletons1_lower, normal1, sizeof(normal1)); - } - if (0x2a6de <= cp && cp < 0x2a700) return false; - if (0x2b735 <= cp && cp < 0x2b740) return false; - if (0x2b81e <= cp && cp < 0x2b820) return false; - if (0x2cea2 <= cp && cp < 0x2ceb0) return false; - if (0x2ebe1 <= cp && cp < 0x2f800) return false; - if (0x2fa1e <= cp && cp < 0x30000) return false; - if (0x3134b <= cp && cp < 0xe0100) return false; - if (0xe01f0 <= cp && cp < 0x110000) return false; - return cp < 0x110000; -} - -} // namespace detail - -FMT_END_NAMESPACE - -#endif // FMT_FORMAT_INL_H_ diff --git a/vm/fmt/format.h b/vm/fmt/format.h deleted file mode 100644 index 7637c8a0d0..0000000000 --- a/vm/fmt/format.h +++ /dev/null @@ -1,4535 +0,0 @@ -/* - Formatting library for C++ - - Copyright (c) 2012 - present, Victor Zverovich - - Permission is hereby granted, free of charge, to any person obtaining - a copy of this software and associated documentation files (the - "Software"), to deal in the Software without restriction, including - without limitation the rights to use, copy, modify, merge, publish, - distribute, sublicense, and/or sell copies of the Software, and to - permit persons to whom the Software is furnished to do so, subject to - the following conditions: - - The above copyright notice and this permission notice shall be - included in all copies or substantial portions of the Software. - - THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF - MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE - LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION - OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION - WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. - - --- Optional exception to the license --- - - As an exception, if, as a result of your compiling your source code, portions - of this Software are embedded into a machine-executable object form of such - source code, you may redistribute such embedded portions in such object form - without including the above copyright and permission notices. - */ - -#ifndef FMT_FORMAT_H_ -#define FMT_FORMAT_H_ - -#include // std::signbit -#include // uint32_t -#include // std::memcpy -#include // std::initializer_list -#include // std::numeric_limits -#include // std::uninitialized_copy -#include // std::runtime_error -#include // std::system_error - -#ifdef __cpp_lib_bit_cast -# include // std::bit_cast -#endif - -#include "core.h" - -#if defined __cpp_inline_variables && __cpp_inline_variables >= 201606L -# define FMT_INLINE_VARIABLE inline -#else -# define FMT_INLINE_VARIABLE -#endif - -#if FMT_HAS_CPP17_ATTRIBUTE(fallthrough) -# define FMT_FALLTHROUGH [[fallthrough]] -#elif defined(__clang__) -# define FMT_FALLTHROUGH [[clang::fallthrough]] -#elif FMT_GCC_VERSION >= 700 && \ - (!defined(__EDG_VERSION__) || __EDG_VERSION__ >= 520) -# define FMT_FALLTHROUGH [[gnu::fallthrough]] -#else -# define FMT_FALLTHROUGH -#endif - -#ifndef FMT_DEPRECATED -# if FMT_HAS_CPP14_ATTRIBUTE(deprecated) || FMT_MSC_VERSION >= 1900 -# define FMT_DEPRECATED [[deprecated]] -# else -# if (defined(__GNUC__) && !defined(__LCC__)) || defined(__clang__) -# define FMT_DEPRECATED __attribute__((deprecated)) -# elif FMT_MSC_VERSION -# define FMT_DEPRECATED __declspec(deprecated) -# else -# define FMT_DEPRECATED /* deprecated */ -# endif -# endif -#endif - -#ifndef FMT_NO_UNIQUE_ADDRESS -# if FMT_CPLUSPLUS >= 202002L -# if FMT_HAS_CPP_ATTRIBUTE(no_unique_address) -# define FMT_NO_UNIQUE_ADDRESS [[no_unique_address]] -// VS2019 v16.10 and later except clang-cl (https://reviews.llvm.org/D110485) -# elif (FMT_MSC_VERSION >= 1929) && !FMT_CLANG_VERSION -# define FMT_NO_UNIQUE_ADDRESS [[msvc::no_unique_address]] -# endif -# endif -#endif -#ifndef FMT_NO_UNIQUE_ADDRESS -# define FMT_NO_UNIQUE_ADDRESS -#endif - -// Visibility when compiled as a shared library/object. -#if defined(FMT_LIB_EXPORT) || defined(FMT_SHARED) -# define FMT_SO_VISIBILITY(value) FMT_VISIBILITY(value) -#else -# define FMT_SO_VISIBILITY(value) -#endif - -#ifdef __has_builtin -# define FMT_HAS_BUILTIN(x) __has_builtin(x) -#else -# define FMT_HAS_BUILTIN(x) 0 -#endif - -#if FMT_GCC_VERSION || FMT_CLANG_VERSION -# define FMT_NOINLINE __attribute__((noinline)) -#else -# define FMT_NOINLINE -#endif - -#ifndef FMT_THROW -# if FMT_EXCEPTIONS -# if FMT_MSC_VERSION || defined(__NVCC__) -FMT_BEGIN_NAMESPACE -namespace detail { -template inline void do_throw(const Exception& x) { - // Silence unreachable code warnings in MSVC and NVCC because these - // are nearly impossible to fix in a generic code. - volatile bool b = true; - if (b) throw x; -} -} // namespace detail -FMT_END_NAMESPACE -# define FMT_THROW(x) detail::do_throw(x) -# else -# define FMT_THROW(x) throw x -# endif -# else -# define FMT_THROW(x) \ - ::fmt::detail::assert_fail(__FILE__, __LINE__, (x).what()) -# endif -#endif - -#if FMT_EXCEPTIONS -# define FMT_TRY try -# define FMT_CATCH(x) catch (x) -#else -# define FMT_TRY if (true) -# define FMT_CATCH(x) if (false) -#endif - -#ifndef FMT_MAYBE_UNUSED -# if FMT_HAS_CPP17_ATTRIBUTE(maybe_unused) -# define FMT_MAYBE_UNUSED [[maybe_unused]] -# else -# define FMT_MAYBE_UNUSED -# endif -#endif - -#ifndef FMT_USE_USER_DEFINED_LITERALS -// EDG based compilers (Intel, NVIDIA, Elbrus, etc), GCC and MSVC support UDLs. -// -// GCC before 4.9 requires a space in `operator"" _a` which is invalid in later -// compiler versions. -# if (FMT_HAS_FEATURE(cxx_user_literals) || FMT_GCC_VERSION >= 409 || \ - FMT_MSC_VERSION >= 1900) && \ - (!defined(__EDG_VERSION__) || __EDG_VERSION__ >= /* UDL feature */ 480) -# define FMT_USE_USER_DEFINED_LITERALS 1 -# else -# define FMT_USE_USER_DEFINED_LITERALS 0 -# endif -#endif - -// Defining FMT_REDUCE_INT_INSTANTIATIONS to 1, will reduce the number of -// integer formatter template instantiations to just one by only using the -// largest integer type. This results in a reduction in binary size but will -// cause a decrease in integer formatting performance. -#if !defined(FMT_REDUCE_INT_INSTANTIATIONS) -# define FMT_REDUCE_INT_INSTANTIATIONS 0 -#endif - -// __builtin_clz is broken in clang with Microsoft CodeGen: -// https://github.com/fmtlib/fmt/issues/519. -#if !FMT_MSC_VERSION -# if FMT_HAS_BUILTIN(__builtin_clz) || FMT_GCC_VERSION || FMT_ICC_VERSION -# define FMT_BUILTIN_CLZ(n) __builtin_clz(n) -# endif -# if FMT_HAS_BUILTIN(__builtin_clzll) || FMT_GCC_VERSION || FMT_ICC_VERSION -# define FMT_BUILTIN_CLZLL(n) __builtin_clzll(n) -# endif -#endif - -// __builtin_ctz is broken in Intel Compiler Classic on Windows: -// https://github.com/fmtlib/fmt/issues/2510. -#ifndef __ICL -# if FMT_HAS_BUILTIN(__builtin_ctz) || FMT_GCC_VERSION || FMT_ICC_VERSION || \ - defined(__NVCOMPILER) -# define FMT_BUILTIN_CTZ(n) __builtin_ctz(n) -# endif -# if FMT_HAS_BUILTIN(__builtin_ctzll) || FMT_GCC_VERSION || \ - FMT_ICC_VERSION || defined(__NVCOMPILER) -# define FMT_BUILTIN_CTZLL(n) __builtin_ctzll(n) -# endif -#endif - -#if FMT_MSC_VERSION -# include // _BitScanReverse[64], _BitScanForward[64], _umul128 -#endif - -// Some compilers masquerade as both MSVC and GCC-likes or otherwise support -// __builtin_clz and __builtin_clzll, so only define FMT_BUILTIN_CLZ using the -// MSVC intrinsics if the clz and clzll builtins are not available. -#if FMT_MSC_VERSION && !defined(FMT_BUILTIN_CLZLL) && \ - !defined(FMT_BUILTIN_CTZLL) -FMT_BEGIN_NAMESPACE -namespace detail { -// Avoid Clang with Microsoft CodeGen's -Wunknown-pragmas warning. -# if !defined(__clang__) -# pragma intrinsic(_BitScanForward) -# pragma intrinsic(_BitScanReverse) -# if defined(_WIN64) -# pragma intrinsic(_BitScanForward64) -# pragma intrinsic(_BitScanReverse64) -# endif -# endif - -inline auto clz(uint32_t x) -> int { - unsigned long r = 0; - _BitScanReverse(&r, x); - FMT_ASSERT(x != 0, ""); - // Static analysis complains about using uninitialized data - // "r", but the only way that can happen is if "x" is 0, - // which the callers guarantee to not happen. - FMT_MSC_WARNING(suppress : 6102) - return 31 ^ static_cast(r); -} -# define FMT_BUILTIN_CLZ(n) detail::clz(n) - -inline auto clzll(uint64_t x) -> int { - unsigned long r = 0; -# ifdef _WIN64 - _BitScanReverse64(&r, x); -# else - // Scan the high 32 bits. - if (_BitScanReverse(&r, static_cast(x >> 32))) - return 63 ^ static_cast(r + 32); - // Scan the low 32 bits. - _BitScanReverse(&r, static_cast(x)); -# endif - FMT_ASSERT(x != 0, ""); - FMT_MSC_WARNING(suppress : 6102) // Suppress a bogus static analysis warning. - return 63 ^ static_cast(r); -} -# define FMT_BUILTIN_CLZLL(n) detail::clzll(n) - -inline auto ctz(uint32_t x) -> int { - unsigned long r = 0; - _BitScanForward(&r, x); - FMT_ASSERT(x != 0, ""); - FMT_MSC_WARNING(suppress : 6102) // Suppress a bogus static analysis warning. - return static_cast(r); -} -# define FMT_BUILTIN_CTZ(n) detail::ctz(n) - -inline auto ctzll(uint64_t x) -> int { - unsigned long r = 0; - FMT_ASSERT(x != 0, ""); - FMT_MSC_WARNING(suppress : 6102) // Suppress a bogus static analysis warning. -# ifdef _WIN64 - _BitScanForward64(&r, x); -# else - // Scan the low 32 bits. - if (_BitScanForward(&r, static_cast(x))) return static_cast(r); - // Scan the high 32 bits. - _BitScanForward(&r, static_cast(x >> 32)); - r += 32; -# endif - return static_cast(r); -} -# define FMT_BUILTIN_CTZLL(n) detail::ctzll(n) -} // namespace detail -FMT_END_NAMESPACE -#endif - -FMT_BEGIN_NAMESPACE -namespace detail { - -FMT_CONSTEXPR inline void abort_fuzzing_if(bool condition) { - ignore_unused(condition); -#ifdef FMT_FUZZ - if (condition) throw std::runtime_error("fuzzing limit reached"); -#endif -} - -template struct string_literal { - static constexpr CharT value[sizeof...(C)] = {C...}; - constexpr operator basic_string_view() const { - return {value, sizeof...(C)}; - } -}; - -#if FMT_CPLUSPLUS < 201703L -template -constexpr CharT string_literal::value[sizeof...(C)]; -#endif - -// Implementation of std::bit_cast for pre-C++20. -template -FMT_CONSTEXPR20 auto bit_cast(const From& from) -> To { -#ifdef __cpp_lib_bit_cast - if (is_constant_evaluated()) return std::bit_cast(from); -#endif - auto to = To(); - // The cast suppresses a bogus -Wclass-memaccess on GCC. - std::memcpy(static_cast(&to), &from, sizeof(to)); - return to; -} - -inline auto is_big_endian() -> bool { -#ifdef _WIN32 - return false; -#elif defined(__BIG_ENDIAN__) - return true; -#elif defined(__BYTE_ORDER__) && defined(__ORDER_BIG_ENDIAN__) - return __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__; -#else - struct bytes { - char data[sizeof(int)]; - }; - return bit_cast(1).data[0] == 0; -#endif -} - -class uint128_fallback { - private: - uint64_t lo_, hi_; - - public: - constexpr uint128_fallback(uint64_t hi, uint64_t lo) : lo_(lo), hi_(hi) {} - constexpr uint128_fallback(uint64_t value = 0) : lo_(value), hi_(0) {} - - constexpr auto high() const noexcept -> uint64_t { return hi_; } - constexpr auto low() const noexcept -> uint64_t { return lo_; } - - template ::value)> - constexpr explicit operator T() const { - return static_cast(lo_); - } - - friend constexpr auto operator==(const uint128_fallback& lhs, - const uint128_fallback& rhs) -> bool { - return lhs.hi_ == rhs.hi_ && lhs.lo_ == rhs.lo_; - } - friend constexpr auto operator!=(const uint128_fallback& lhs, - const uint128_fallback& rhs) -> bool { - return !(lhs == rhs); - } - friend constexpr auto operator>(const uint128_fallback& lhs, - const uint128_fallback& rhs) -> bool { - return lhs.hi_ != rhs.hi_ ? lhs.hi_ > rhs.hi_ : lhs.lo_ > rhs.lo_; - } - friend constexpr auto operator|(const uint128_fallback& lhs, - const uint128_fallback& rhs) - -> uint128_fallback { - return {lhs.hi_ | rhs.hi_, lhs.lo_ | rhs.lo_}; - } - friend constexpr auto operator&(const uint128_fallback& lhs, - const uint128_fallback& rhs) - -> uint128_fallback { - return {lhs.hi_ & rhs.hi_, lhs.lo_ & rhs.lo_}; - } - friend constexpr auto operator~(const uint128_fallback& n) - -> uint128_fallback { - return {~n.hi_, ~n.lo_}; - } - friend auto operator+(const uint128_fallback& lhs, - const uint128_fallback& rhs) -> uint128_fallback { - auto result = uint128_fallback(lhs); - result += rhs; - return result; - } - friend auto operator*(const uint128_fallback& lhs, uint32_t rhs) - -> uint128_fallback { - FMT_ASSERT(lhs.hi_ == 0, ""); - uint64_t hi = (lhs.lo_ >> 32) * rhs; - uint64_t lo = (lhs.lo_ & ~uint32_t()) * rhs; - uint64_t new_lo = (hi << 32) + lo; - return {(hi >> 32) + (new_lo < lo ? 1 : 0), new_lo}; - } - friend auto operator-(const uint128_fallback& lhs, uint64_t rhs) - -> uint128_fallback { - return {lhs.hi_ - (lhs.lo_ < rhs ? 1 : 0), lhs.lo_ - rhs}; - } - FMT_CONSTEXPR auto operator>>(int shift) const -> uint128_fallback { - if (shift == 64) return {0, hi_}; - if (shift > 64) return uint128_fallback(0, hi_) >> (shift - 64); - return {hi_ >> shift, (hi_ << (64 - shift)) | (lo_ >> shift)}; - } - FMT_CONSTEXPR auto operator<<(int shift) const -> uint128_fallback { - if (shift == 64) return {lo_, 0}; - if (shift > 64) return uint128_fallback(lo_, 0) << (shift - 64); - return {hi_ << shift | (lo_ >> (64 - shift)), (lo_ << shift)}; - } - FMT_CONSTEXPR auto operator>>=(int shift) -> uint128_fallback& { - return *this = *this >> shift; - } - FMT_CONSTEXPR void operator+=(uint128_fallback n) { - uint64_t new_lo = lo_ + n.lo_; - uint64_t new_hi = hi_ + n.hi_ + (new_lo < lo_ ? 1 : 0); - FMT_ASSERT(new_hi >= hi_, ""); - lo_ = new_lo; - hi_ = new_hi; - } - FMT_CONSTEXPR void operator&=(uint128_fallback n) { - lo_ &= n.lo_; - hi_ &= n.hi_; - } - - FMT_CONSTEXPR20 auto operator+=(uint64_t n) noexcept -> uint128_fallback& { - if (is_constant_evaluated()) { - lo_ += n; - hi_ += (lo_ < n ? 1 : 0); - return *this; - } -#if FMT_HAS_BUILTIN(__builtin_addcll) && !defined(__ibmxl__) - unsigned long long carry; - lo_ = __builtin_addcll(lo_, n, 0, &carry); - hi_ += carry; -#elif FMT_HAS_BUILTIN(__builtin_ia32_addcarryx_u64) && !defined(__ibmxl__) - unsigned long long result; - auto carry = __builtin_ia32_addcarryx_u64(0, lo_, n, &result); - lo_ = result; - hi_ += carry; -#elif defined(_MSC_VER) && defined(_M_X64) - auto carry = _addcarry_u64(0, lo_, n, &lo_); - _addcarry_u64(carry, hi_, 0, &hi_); -#else - lo_ += n; - hi_ += (lo_ < n ? 1 : 0); -#endif - return *this; - } -}; - -using uint128_t = conditional_t; - -#ifdef UINTPTR_MAX -using uintptr_t = ::uintptr_t; -#else -using uintptr_t = uint128_t; -#endif - -// Returns the largest possible value for type T. Same as -// std::numeric_limits::max() but shorter and not affected by the max macro. -template constexpr auto max_value() -> T { - return (std::numeric_limits::max)(); -} -template constexpr auto num_bits() -> int { - return std::numeric_limits::digits; -} -// std::numeric_limits::digits may return 0 for 128-bit ints. -template <> constexpr auto num_bits() -> int { return 128; } -template <> constexpr auto num_bits() -> int { return 128; } - -// A heterogeneous bit_cast used for converting 96-bit long double to uint128_t -// and 128-bit pointers to uint128_fallback. -template sizeof(From))> -inline auto bit_cast(const From& from) -> To { - constexpr auto size = static_cast(sizeof(From) / sizeof(unsigned)); - struct data_t { - unsigned value[static_cast(size)]; - } data = bit_cast(from); - auto result = To(); - if (const_check(is_big_endian())) { - for (int i = 0; i < size; ++i) - result = (result << num_bits()) | data.value[i]; - } else { - for (int i = size - 1; i >= 0; --i) - result = (result << num_bits()) | data.value[i]; - } - return result; -} - -template -FMT_CONSTEXPR20 inline auto countl_zero_fallback(UInt n) -> int { - int lz = 0; - constexpr UInt msb_mask = static_cast(1) << (num_bits() - 1); - for (; (n & msb_mask) == 0; n <<= 1) lz++; - return lz; -} - -FMT_CONSTEXPR20 inline auto countl_zero(uint32_t n) -> int { -#ifdef FMT_BUILTIN_CLZ - if (!is_constant_evaluated()) return FMT_BUILTIN_CLZ(n); -#endif - return countl_zero_fallback(n); -} - -FMT_CONSTEXPR20 inline auto countl_zero(uint64_t n) -> int { -#ifdef FMT_BUILTIN_CLZLL - if (!is_constant_evaluated()) return FMT_BUILTIN_CLZLL(n); -#endif - return countl_zero_fallback(n); -} - -FMT_INLINE void assume(bool condition) { - (void)condition; -#if FMT_HAS_BUILTIN(__builtin_assume) && !FMT_ICC_VERSION - __builtin_assume(condition); -#elif FMT_GCC_VERSION - if (!condition) __builtin_unreachable(); -#endif -} - -// An approximation of iterator_t for pre-C++20 systems. -template -using iterator_t = decltype(std::begin(std::declval())); -template using sentinel_t = decltype(std::end(std::declval())); - -// A workaround for std::string not having mutable data() until C++17. -template -inline auto get_data(std::basic_string& s) -> Char* { - return &s[0]; -} -template -inline auto get_data(Container& c) -> typename Container::value_type* { - return c.data(); -} - -// Attempts to reserve space for n extra characters in the output range. -// Returns a pointer to the reserved range or a reference to it. -template ::value)> -#if FMT_CLANG_VERSION >= 307 && !FMT_ICC_VERSION -__attribute__((no_sanitize("undefined"))) -#endif -inline auto -reserve(std::back_insert_iterator it, size_t n) -> - typename Container::value_type* { - Container& c = get_container(it); - size_t size = c.size(); - c.resize(size + n); - return get_data(c) + size; -} - -template -inline auto reserve(buffer_appender it, size_t n) -> buffer_appender { - buffer& buf = get_container(it); - buf.try_reserve(buf.size() + n); - return it; -} - -template -constexpr auto reserve(Iterator& it, size_t) -> Iterator& { - return it; -} - -template -using reserve_iterator = - remove_reference_t(), 0))>; - -template -constexpr auto to_pointer(OutputIt, size_t) -> T* { - return nullptr; -} -template auto to_pointer(buffer_appender it, size_t n) -> T* { - buffer& buf = get_container(it); - auto size = buf.size(); - if (buf.capacity() < size + n) return nullptr; - buf.try_resize(size + n); - return buf.data() + size; -} - -template ::value)> -inline auto base_iterator(std::back_insert_iterator it, - typename Container::value_type*) - -> std::back_insert_iterator { - return it; -} - -template -constexpr auto base_iterator(Iterator, Iterator it) -> Iterator { - return it; -} - -// is spectacularly slow to compile in C++20 so use a simple fill_n -// instead (#1998). -template -FMT_CONSTEXPR auto fill_n(OutputIt out, Size count, const T& value) - -> OutputIt { - for (Size i = 0; i < count; ++i) *out++ = value; - return out; -} -template -FMT_CONSTEXPR20 auto fill_n(T* out, Size count, char value) -> T* { - if (is_constant_evaluated()) { - return fill_n(out, count, value); - } - std::memset(out, value, to_unsigned(count)); - return out + count; -} - -#ifdef __cpp_char8_t -using char8_type = char8_t; -#else -enum char8_type : unsigned char {}; -#endif - -template -FMT_CONSTEXPR FMT_NOINLINE auto copy_str_noinline(InputIt begin, InputIt end, - OutputIt out) -> OutputIt { - return copy_str(begin, end, out); -} - -// A public domain branchless UTF-8 decoder by Christopher Wellons: -// https://github.com/skeeto/branchless-utf8 -/* Decode the next character, c, from s, reporting errors in e. - * - * Since this is a branchless decoder, four bytes will be read from the - * buffer regardless of the actual length of the next character. This - * means the buffer _must_ have at least three bytes of zero padding - * following the end of the data stream. - * - * Errors are reported in e, which will be non-zero if the parsed - * character was somehow invalid: invalid byte sequence, non-canonical - * encoding, or a surrogate half. - * - * The function returns a pointer to the next character. When an error - * occurs, this pointer will be a guess that depends on the particular - * error, but it will always advance at least one byte. - */ -FMT_CONSTEXPR inline auto utf8_decode(const char* s, uint32_t* c, int* e) - -> const char* { - constexpr const int masks[] = {0x00, 0x7f, 0x1f, 0x0f, 0x07}; - constexpr const uint32_t mins[] = {4194304, 0, 128, 2048, 65536}; - constexpr const int shiftc[] = {0, 18, 12, 6, 0}; - constexpr const int shifte[] = {0, 6, 4, 2, 0}; - - int len = "\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\0\0\0\0\0\0\0\0\2\2\2\2\3\3\4" - [static_cast(*s) >> 3]; - // Compute the pointer to the next character early so that the next - // iteration can start working on the next character. Neither Clang - // nor GCC figure out this reordering on their own. - const char* next = s + len + !len; - - using uchar = unsigned char; - - // Assume a four-byte character and load four bytes. Unused bits are - // shifted out. - *c = uint32_t(uchar(s[0]) & masks[len]) << 18; - *c |= uint32_t(uchar(s[1]) & 0x3f) << 12; - *c |= uint32_t(uchar(s[2]) & 0x3f) << 6; - *c |= uint32_t(uchar(s[3]) & 0x3f) << 0; - *c >>= shiftc[len]; - - // Accumulate the various error conditions. - *e = (*c < mins[len]) << 6; // non-canonical encoding - *e |= ((*c >> 11) == 0x1b) << 7; // surrogate half? - *e |= (*c > 0x10FFFF) << 8; // out of range? - *e |= (uchar(s[1]) & 0xc0) >> 2; - *e |= (uchar(s[2]) & 0xc0) >> 4; - *e |= uchar(s[3]) >> 6; - *e ^= 0x2a; // top two bits of each tail byte correct? - *e >>= shifte[len]; - - return next; -} - -constexpr FMT_INLINE_VARIABLE uint32_t invalid_code_point = ~uint32_t(); - -// Invokes f(cp, sv) for every code point cp in s with sv being the string view -// corresponding to the code point. cp is invalid_code_point on error. -template -FMT_CONSTEXPR void for_each_codepoint(string_view s, F f) { - auto decode = [f](const char* buf_ptr, const char* ptr) { - auto cp = uint32_t(); - auto error = 0; - auto end = utf8_decode(buf_ptr, &cp, &error); - bool result = f(error ? invalid_code_point : cp, - string_view(ptr, error ? 1 : to_unsigned(end - buf_ptr))); - return result ? (error ? buf_ptr + 1 : end) : nullptr; - }; - auto p = s.data(); - const size_t block_size = 4; // utf8_decode always reads blocks of 4 chars. - if (s.size() >= block_size) { - for (auto end = p + s.size() - block_size + 1; p < end;) { - p = decode(p, p); - if (!p) return; - } - } - if (auto num_chars_left = s.data() + s.size() - p) { - char buf[2 * block_size - 1] = {}; - copy_str(p, p + num_chars_left, buf); - const char* buf_ptr = buf; - do { - auto end = decode(buf_ptr, p); - if (!end) return; - p += end - buf_ptr; - buf_ptr = end; - } while (buf_ptr - buf < num_chars_left); - } -} - -template -inline auto compute_width(basic_string_view s) -> size_t { - return s.size(); -} - -// Computes approximate display width of a UTF-8 string. -FMT_CONSTEXPR inline auto compute_width(string_view s) -> size_t { - size_t num_code_points = 0; - // It is not a lambda for compatibility with C++14. - struct count_code_points { - size_t* count; - FMT_CONSTEXPR auto operator()(uint32_t cp, string_view) const -> bool { - *count += detail::to_unsigned( - 1 + - (cp >= 0x1100 && - (cp <= 0x115f || // Hangul Jamo init. consonants - cp == 0x2329 || // LEFT-POINTING ANGLE BRACKET - cp == 0x232a || // RIGHT-POINTING ANGLE BRACKET - // CJK ... Yi except IDEOGRAPHIC HALF FILL SPACE: - (cp >= 0x2e80 && cp <= 0xa4cf && cp != 0x303f) || - (cp >= 0xac00 && cp <= 0xd7a3) || // Hangul Syllables - (cp >= 0xf900 && cp <= 0xfaff) || // CJK Compatibility Ideographs - (cp >= 0xfe10 && cp <= 0xfe19) || // Vertical Forms - (cp >= 0xfe30 && cp <= 0xfe6f) || // CJK Compatibility Forms - (cp >= 0xff00 && cp <= 0xff60) || // Fullwidth Forms - (cp >= 0xffe0 && cp <= 0xffe6) || // Fullwidth Forms - (cp >= 0x20000 && cp <= 0x2fffd) || // CJK - (cp >= 0x30000 && cp <= 0x3fffd) || - // Miscellaneous Symbols and Pictographs + Emoticons: - (cp >= 0x1f300 && cp <= 0x1f64f) || - // Supplemental Symbols and Pictographs: - (cp >= 0x1f900 && cp <= 0x1f9ff)))); - return true; - } - }; - // We could avoid branches by using utf8_decode directly. - for_each_codepoint(s, count_code_points{&num_code_points}); - return num_code_points; -} - -inline auto compute_width(basic_string_view s) -> size_t { - return compute_width( - string_view(reinterpret_cast(s.data()), s.size())); -} - -template -inline auto code_point_index(basic_string_view s, size_t n) -> size_t { - size_t size = s.size(); - return n < size ? n : size; -} - -// Calculates the index of the nth code point in a UTF-8 string. -inline auto code_point_index(string_view s, size_t n) -> size_t { - size_t result = s.size(); - const char* begin = s.begin(); - for_each_codepoint(s, [begin, &n, &result](uint32_t, string_view sv) { - if (n != 0) { - --n; - return true; - } - result = to_unsigned(sv.begin() - begin); - return false; - }); - return result; -} - -inline auto code_point_index(basic_string_view s, size_t n) - -> size_t { - return code_point_index( - string_view(reinterpret_cast(s.data()), s.size()), n); -} - -template struct is_integral : std::is_integral {}; -template <> struct is_integral : std::true_type {}; -template <> struct is_integral : std::true_type {}; - -template -using is_signed = - std::integral_constant::is_signed || - std::is_same::value>; - -template -using is_integer = - bool_constant::value && !std::is_same::value && - !std::is_same::value && - !std::is_same::value>; - -#ifndef FMT_USE_FLOAT -# define FMT_USE_FLOAT 1 -#endif -#ifndef FMT_USE_DOUBLE -# define FMT_USE_DOUBLE 1 -#endif -#ifndef FMT_USE_LONG_DOUBLE -# define FMT_USE_LONG_DOUBLE 1 -#endif - -#ifndef FMT_USE_FLOAT128 -# ifdef __clang__ -// Clang emulates GCC, so it has to appear early. -# if FMT_HAS_INCLUDE() -# define FMT_USE_FLOAT128 1 -# endif -# elif defined(__GNUC__) -// GNU C++: -# if defined(_GLIBCXX_USE_FLOAT128) && !defined(__STRICT_ANSI__) -# define FMT_USE_FLOAT128 1 -# endif -# endif -# ifndef FMT_USE_FLOAT128 -# define FMT_USE_FLOAT128 0 -# endif -#endif - -#if FMT_USE_FLOAT128 -using float128 = __float128; -#else -using float128 = void; -#endif -template using is_float128 = std::is_same; - -template -using is_floating_point = - bool_constant::value || is_float128::value>; - -template ::value> -struct is_fast_float : bool_constant::is_iec559 && - sizeof(T) <= sizeof(double)> {}; -template struct is_fast_float : std::false_type {}; - -template -using is_double_double = bool_constant::digits == 106>; - -#ifndef FMT_USE_FULL_CACHE_DRAGONBOX -# define FMT_USE_FULL_CACHE_DRAGONBOX 0 -#endif - -template -template -void buffer::append(const U* begin, const U* end) { - while (begin != end) { - auto count = to_unsigned(end - begin); - try_reserve(size_ + count); - auto free_cap = capacity_ - size_; - if (free_cap < count) count = free_cap; - std::uninitialized_copy_n(begin, count, ptr_ + size_); - size_ += count; - begin += count; - } -} - -template -struct is_locale : std::false_type {}; -template -struct is_locale> : std::true_type {}; -} // namespace detail - -FMT_BEGIN_EXPORT - -// The number of characters to store in the basic_memory_buffer object itself -// to avoid dynamic memory allocation. -enum { inline_buffer_size = 500 }; - -/** - \rst - A dynamically growing memory buffer for trivially copyable/constructible types - with the first ``SIZE`` elements stored in the object itself. - - You can use the ``memory_buffer`` type alias for ``char`` instead. - - **Example**:: - - auto out = fmt::memory_buffer(); - fmt::format_to(std::back_inserter(out), "The answer is {}.", 42); - - This will append the following output to the ``out`` object: - - .. code-block:: none - - The answer is 42. - - The output can be converted to an ``std::string`` with ``to_string(out)``. - \endrst - */ -template > -class basic_memory_buffer final : public detail::buffer { - private: - T store_[SIZE]; - - // Don't inherit from Allocator to avoid generating type_info for it. - FMT_NO_UNIQUE_ADDRESS Allocator alloc_; - - // Deallocate memory allocated by the buffer. - FMT_CONSTEXPR20 void deallocate() { - T* data = this->data(); - if (data != store_) alloc_.deallocate(data, this->capacity()); - } - - protected: - FMT_CONSTEXPR20 void grow(size_t size) override { - detail::abort_fuzzing_if(size > 5000); - const size_t max_size = std::allocator_traits::max_size(alloc_); - size_t old_capacity = this->capacity(); - size_t new_capacity = old_capacity + old_capacity / 2; - if (size > new_capacity) - new_capacity = size; - else if (new_capacity > max_size) - new_capacity = size > max_size ? size : max_size; - T* old_data = this->data(); - T* new_data = - std::allocator_traits::allocate(alloc_, new_capacity); - // Suppress a bogus -Wstringop-overflow in gcc 13.1 (#3481). - detail::assume(this->size() <= new_capacity); - // The following code doesn't throw, so the raw pointer above doesn't leak. - std::uninitialized_copy_n(old_data, this->size(), new_data); - this->set(new_data, new_capacity); - // deallocate must not throw according to the standard, but even if it does, - // the buffer already uses the new storage and will deallocate it in - // destructor. - if (old_data != store_) alloc_.deallocate(old_data, old_capacity); - } - - public: - using value_type = T; - using const_reference = const T&; - - FMT_CONSTEXPR20 explicit basic_memory_buffer( - const Allocator& alloc = Allocator()) - : alloc_(alloc) { - this->set(store_, SIZE); - if (detail::is_constant_evaluated()) detail::fill_n(store_, SIZE, T()); - } - FMT_CONSTEXPR20 ~basic_memory_buffer() { deallocate(); } - - private: - // Move data from other to this buffer. - FMT_CONSTEXPR20 void move(basic_memory_buffer& other) { - alloc_ = std::move(other.alloc_); - T* data = other.data(); - size_t size = other.size(), capacity = other.capacity(); - if (data == other.store_) { - this->set(store_, capacity); - detail::copy_str(other.store_, other.store_ + size, store_); - } else { - this->set(data, capacity); - // Set pointer to the inline array so that delete is not called - // when deallocating. - other.set(other.store_, 0); - other.clear(); - } - this->resize(size); - } - - public: - /** - \rst - Constructs a :class:`fmt::basic_memory_buffer` object moving the content - of the other object to it. - \endrst - */ - FMT_CONSTEXPR20 basic_memory_buffer(basic_memory_buffer&& other) noexcept { - move(other); - } - - /** - \rst - Moves the content of the other ``basic_memory_buffer`` object to this one. - \endrst - */ - auto operator=(basic_memory_buffer&& other) noexcept -> basic_memory_buffer& { - FMT_ASSERT(this != &other, ""); - deallocate(); - move(other); - return *this; - } - - // Returns a copy of the allocator associated with this buffer. - auto get_allocator() const -> Allocator { return alloc_; } - - /** - Resizes the buffer to contain *count* elements. If T is a POD type new - elements may not be initialized. - */ - FMT_CONSTEXPR20 void resize(size_t count) { this->try_resize(count); } - - /** Increases the buffer capacity to *new_capacity*. */ - void reserve(size_t new_capacity) { this->try_reserve(new_capacity); } - - using detail::buffer::append; - template - void append(const ContiguousRange& range) { - append(range.data(), range.data() + range.size()); - } -}; - -using memory_buffer = basic_memory_buffer; - -template -struct is_contiguous> : std::true_type { -}; - -FMT_END_EXPORT -namespace detail { -FMT_API auto write_console(int fd, string_view text) -> bool; -FMT_API auto write_console(std::FILE* f, string_view text) -> bool; -FMT_API void print(std::FILE*, string_view); -} // namespace detail - -FMT_BEGIN_EXPORT - -// Suppress a misleading warning in older versions of clang. -#if FMT_CLANG_VERSION -# pragma clang diagnostic ignored "-Wweak-vtables" -#endif - -/** An error reported from a formatting function. */ -class FMT_SO_VISIBILITY("default") format_error : public std::runtime_error { - public: - using std::runtime_error::runtime_error; -}; - -namespace detail_exported { -#if FMT_USE_NONTYPE_TEMPLATE_ARGS -template struct fixed_string { - constexpr fixed_string(const Char (&str)[N]) { - detail::copy_str(static_cast(str), - str + N, data); - } - Char data[N] = {}; -}; -#endif - -// Converts a compile-time string to basic_string_view. -template -constexpr auto compile_string_to_view(const Char (&s)[N]) - -> basic_string_view { - // Remove trailing NUL character if needed. Won't be present if this is used - // with a raw character array (i.e. not defined as a string). - return {s, N - (std::char_traits::to_int_type(s[N - 1]) == 0 ? 1 : 0)}; -} -template -constexpr auto compile_string_to_view(detail::std_string_view s) - -> basic_string_view { - return {s.data(), s.size()}; -} -} // namespace detail_exported - -class loc_value { - private: - basic_format_arg value_; - - public: - template ::value)> - loc_value(T value) : value_(detail::make_arg(value)) {} - - template ::value)> - loc_value(T) {} - - template auto visit(Visitor&& vis) -> decltype(vis(0)) { - return visit_format_arg(vis, value_); - } -}; - -// A locale facet that formats values in UTF-8. -// It is parameterized on the locale to avoid the heavy include. -template class format_facet : public Locale::facet { - private: - std::string separator_; - std::string grouping_; - std::string decimal_point_; - - protected: - virtual auto do_put(appender out, loc_value val, - const format_specs<>& specs) const -> bool; - - public: - static FMT_API typename Locale::id id; - - explicit format_facet(Locale& loc); - explicit format_facet(string_view sep = "", - std::initializer_list g = {3}, - std::string decimal_point = ".") - : separator_(sep.data(), sep.size()), - grouping_(g.begin(), g.end()), - decimal_point_(decimal_point) {} - - auto put(appender out, loc_value val, const format_specs<>& specs) const - -> bool { - return do_put(out, val, specs); - } -}; - -namespace detail { - -// Returns true if value is negative, false otherwise. -// Same as `value < 0` but doesn't produce warnings if T is an unsigned type. -template ::value)> -constexpr auto is_negative(T value) -> bool { - return value < 0; -} -template ::value)> -constexpr auto is_negative(T) -> bool { - return false; -} - -template -FMT_CONSTEXPR auto is_supported_floating_point(T) -> bool { - if (std::is_same()) return FMT_USE_FLOAT; - if (std::is_same()) return FMT_USE_DOUBLE; - if (std::is_same()) return FMT_USE_LONG_DOUBLE; - return true; -} - -// Smallest of uint32_t, uint64_t, uint128_t that is large enough to -// represent all values of an integral type T. -template -using uint32_or_64_or_128_t = - conditional_t() <= 32 && !FMT_REDUCE_INT_INSTANTIATIONS, - uint32_t, - conditional_t() <= 64, uint64_t, uint128_t>>; -template -using uint64_or_128_t = conditional_t() <= 64, uint64_t, uint128_t>; - -#define FMT_POWERS_OF_10(factor) \ - factor * 10, (factor) * 100, (factor) * 1000, (factor) * 10000, \ - (factor) * 100000, (factor) * 1000000, (factor) * 10000000, \ - (factor) * 100000000, (factor) * 1000000000 - -// Converts value in the range [0, 100) to a string. -constexpr auto digits2(size_t value) -> const char* { - // GCC generates slightly better code when value is pointer-size. - return &"0001020304050607080910111213141516171819" - "2021222324252627282930313233343536373839" - "4041424344454647484950515253545556575859" - "6061626364656667686970717273747576777879" - "8081828384858687888990919293949596979899"[value * 2]; -} - -// Sign is a template parameter to workaround a bug in gcc 4.8. -template constexpr auto sign(Sign s) -> Char { -#if !FMT_GCC_VERSION || FMT_GCC_VERSION >= 604 - static_assert(std::is_same::value, ""); -#endif - return static_cast("\0-+ "[s]); -} - -template FMT_CONSTEXPR auto count_digits_fallback(T n) -> int { - int count = 1; - for (;;) { - // Integer division is slow so do it for a group of four digits instead - // of for every digit. The idea comes from the talk by Alexandrescu - // "Three Optimization Tips for C++". See speed-test for a comparison. - if (n < 10) return count; - if (n < 100) return count + 1; - if (n < 1000) return count + 2; - if (n < 10000) return count + 3; - n /= 10000u; - count += 4; - } -} -#if FMT_USE_INT128 -FMT_CONSTEXPR inline auto count_digits(uint128_opt n) -> int { - return count_digits_fallback(n); -} -#endif - -#ifdef FMT_BUILTIN_CLZLL -// It is a separate function rather than a part of count_digits to workaround -// the lack of static constexpr in constexpr functions. -inline auto do_count_digits(uint64_t n) -> int { - // This has comparable performance to the version by Kendall Willets - // (https://github.com/fmtlib/format-benchmark/blob/master/digits10) - // but uses smaller tables. - // Maps bsr(n) to ceil(log10(pow(2, bsr(n) + 1) - 1)). - static constexpr uint8_t bsr2log10[] = { - 1, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, - 6, 6, 6, 7, 7, 7, 7, 8, 8, 8, 9, 9, 9, 10, 10, 10, - 10, 11, 11, 11, 12, 12, 12, 13, 13, 13, 13, 14, 14, 14, 15, 15, - 15, 16, 16, 16, 16, 17, 17, 17, 18, 18, 18, 19, 19, 19, 19, 20}; - auto t = bsr2log10[FMT_BUILTIN_CLZLL(n | 1) ^ 63]; - static constexpr const uint64_t zero_or_powers_of_10[] = { - 0, 0, FMT_POWERS_OF_10(1U), FMT_POWERS_OF_10(1000000000ULL), - 10000000000000000000ULL}; - return t - (n < zero_or_powers_of_10[t]); -} -#endif - -// Returns the number of decimal digits in n. Leading zeros are not counted -// except for n == 0 in which case count_digits returns 1. -FMT_CONSTEXPR20 inline auto count_digits(uint64_t n) -> int { -#ifdef FMT_BUILTIN_CLZLL - if (!is_constant_evaluated()) { - return do_count_digits(n); - } -#endif - return count_digits_fallback(n); -} - -// Counts the number of digits in n. BITS = log2(radix). -template -FMT_CONSTEXPR auto count_digits(UInt n) -> int { -#ifdef FMT_BUILTIN_CLZ - if (!is_constant_evaluated() && num_bits() == 32) - return (FMT_BUILTIN_CLZ(static_cast(n) | 1) ^ 31) / BITS + 1; -#endif - // Lambda avoids unreachable code warnings from NVHPC. - return [](UInt m) { - int num_digits = 0; - do { - ++num_digits; - } while ((m >>= BITS) != 0); - return num_digits; - }(n); -} - -#ifdef FMT_BUILTIN_CLZ -// It is a separate function rather than a part of count_digits to workaround -// the lack of static constexpr in constexpr functions. -FMT_INLINE auto do_count_digits(uint32_t n) -> int { -// An optimization by Kendall Willets from https://bit.ly/3uOIQrB. -// This increments the upper 32 bits (log10(T) - 1) when >= T is added. -# define FMT_INC(T) (((sizeof(#T) - 1ull) << 32) - T) - static constexpr uint64_t table[] = { - FMT_INC(0), FMT_INC(0), FMT_INC(0), // 8 - FMT_INC(10), FMT_INC(10), FMT_INC(10), // 64 - FMT_INC(100), FMT_INC(100), FMT_INC(100), // 512 - FMT_INC(1000), FMT_INC(1000), FMT_INC(1000), // 4096 - FMT_INC(10000), FMT_INC(10000), FMT_INC(10000), // 32k - FMT_INC(100000), FMT_INC(100000), FMT_INC(100000), // 256k - FMT_INC(1000000), FMT_INC(1000000), FMT_INC(1000000), // 2048k - FMT_INC(10000000), FMT_INC(10000000), FMT_INC(10000000), // 16M - FMT_INC(100000000), FMT_INC(100000000), FMT_INC(100000000), // 128M - FMT_INC(1000000000), FMT_INC(1000000000), FMT_INC(1000000000), // 1024M - FMT_INC(1000000000), FMT_INC(1000000000) // 4B - }; - auto inc = table[FMT_BUILTIN_CLZ(n | 1) ^ 31]; - return static_cast((n + inc) >> 32); -} -#endif - -// Optional version of count_digits for better performance on 32-bit platforms. -FMT_CONSTEXPR20 inline auto count_digits(uint32_t n) -> int { -#ifdef FMT_BUILTIN_CLZ - if (!is_constant_evaluated()) { - return do_count_digits(n); - } -#endif - return count_digits_fallback(n); -} - -template constexpr auto digits10() noexcept -> int { - return std::numeric_limits::digits10; -} -template <> constexpr auto digits10() noexcept -> int { return 38; } -template <> constexpr auto digits10() noexcept -> int { return 38; } - -template struct thousands_sep_result { - std::string grouping; - Char thousands_sep; -}; - -template -FMT_API auto thousands_sep_impl(locale_ref loc) -> thousands_sep_result; -template -inline auto thousands_sep(locale_ref loc) -> thousands_sep_result { - auto result = thousands_sep_impl(loc); - return {result.grouping, Char(result.thousands_sep)}; -} -template <> -inline auto thousands_sep(locale_ref loc) -> thousands_sep_result { - return thousands_sep_impl(loc); -} - -template -FMT_API auto decimal_point_impl(locale_ref loc) -> Char; -template inline auto decimal_point(locale_ref loc) -> Char { - return Char(decimal_point_impl(loc)); -} -template <> inline auto decimal_point(locale_ref loc) -> wchar_t { - return decimal_point_impl(loc); -} - -// Compares two characters for equality. -template auto equal2(const Char* lhs, const char* rhs) -> bool { - return lhs[0] == Char(rhs[0]) && lhs[1] == Char(rhs[1]); -} -inline auto equal2(const char* lhs, const char* rhs) -> bool { - return memcmp(lhs, rhs, 2) == 0; -} - -// Copies two characters from src to dst. -template -FMT_CONSTEXPR20 FMT_INLINE void copy2(Char* dst, const char* src) { - if (!is_constant_evaluated() && sizeof(Char) == sizeof(char)) { - memcpy(dst, src, 2); - return; - } - *dst++ = static_cast(*src++); - *dst = static_cast(*src); -} - -template struct format_decimal_result { - Iterator begin; - Iterator end; -}; - -// Formats a decimal unsigned integer value writing into out pointing to a -// buffer of specified size. The caller must ensure that the buffer is large -// enough. -template -FMT_CONSTEXPR20 auto format_decimal(Char* out, UInt value, int size) - -> format_decimal_result { - FMT_ASSERT(size >= count_digits(value), "invalid digit count"); - out += size; - Char* end = out; - while (value >= 100) { - // Integer division is slow so do it for a group of two digits instead - // of for every digit. The idea comes from the talk by Alexandrescu - // "Three Optimization Tips for C++". See speed-test for a comparison. - out -= 2; - copy2(out, digits2(static_cast(value % 100))); - value /= 100; - } - if (value < 10) { - *--out = static_cast('0' + value); - return {out, end}; - } - out -= 2; - copy2(out, digits2(static_cast(value))); - return {out, end}; -} - -template >::value)> -FMT_CONSTEXPR inline auto format_decimal(Iterator out, UInt value, int size) - -> format_decimal_result { - // Buffer is large enough to hold all digits (digits10 + 1). - Char buffer[digits10() + 1] = {}; - auto end = format_decimal(buffer, value, size).end; - return {out, detail::copy_str_noinline(buffer, end, out)}; -} - -template -FMT_CONSTEXPR auto format_uint(Char* buffer, UInt value, int num_digits, - bool upper = false) -> Char* { - buffer += num_digits; - Char* end = buffer; - do { - const char* digits = upper ? "0123456789ABCDEF" : "0123456789abcdef"; - unsigned digit = static_cast(value & ((1 << BASE_BITS) - 1)); - *--buffer = static_cast(BASE_BITS < 4 ? static_cast('0' + digit) - : digits[digit]); - } while ((value >>= BASE_BITS) != 0); - return end; -} - -template -FMT_CONSTEXPR inline auto format_uint(It out, UInt value, int num_digits, - bool upper = false) -> It { - if (auto ptr = to_pointer(out, to_unsigned(num_digits))) { - format_uint(ptr, value, num_digits, upper); - return out; - } - // Buffer should be large enough to hold all digits (digits / BASE_BITS + 1). - char buffer[num_bits() / BASE_BITS + 1] = {}; - format_uint(buffer, value, num_digits, upper); - return detail::copy_str_noinline(buffer, buffer + num_digits, out); -} - -// A converter from UTF-8 to UTF-16. -class utf8_to_utf16 { - private: - basic_memory_buffer buffer_; - - public: - FMT_API explicit utf8_to_utf16(string_view s); - operator basic_string_view() const { return {&buffer_[0], size()}; } - auto size() const -> size_t { return buffer_.size() - 1; } - auto c_str() const -> const wchar_t* { return &buffer_[0]; } - auto str() const -> std::wstring { return {&buffer_[0], size()}; } -}; - -enum class to_utf8_error_policy { abort, replace }; - -// A converter from UTF-16/UTF-32 (host endian) to UTF-8. -template class to_utf8 { - private: - Buffer buffer_; - - public: - to_utf8() {} - explicit to_utf8(basic_string_view s, - to_utf8_error_policy policy = to_utf8_error_policy::abort) { - static_assert(sizeof(WChar) == 2 || sizeof(WChar) == 4, - "Expect utf16 or utf32"); - if (!convert(s, policy)) - FMT_THROW(std::runtime_error(sizeof(WChar) == 2 ? "invalid utf16" - : "invalid utf32")); - } - operator string_view() const { return string_view(&buffer_[0], size()); } - auto size() const -> size_t { return buffer_.size() - 1; } - auto c_str() const -> const char* { return &buffer_[0]; } - auto str() const -> std::string { return std::string(&buffer_[0], size()); } - - // Performs conversion returning a bool instead of throwing exception on - // conversion error. This method may still throw in case of memory allocation - // error. - auto convert(basic_string_view s, - to_utf8_error_policy policy = to_utf8_error_policy::abort) - -> bool { - if (!convert(buffer_, s, policy)) return false; - buffer_.push_back(0); - return true; - } - static auto convert(Buffer& buf, basic_string_view s, - to_utf8_error_policy policy = to_utf8_error_policy::abort) - -> bool { - for (auto p = s.begin(); p != s.end(); ++p) { - uint32_t c = static_cast(*p); - if (sizeof(WChar) == 2 && c >= 0xd800 && c <= 0xdfff) { - // Handle a surrogate pair. - ++p; - if (p == s.end() || (c & 0xfc00) != 0xd800 || (*p & 0xfc00) != 0xdc00) { - if (policy == to_utf8_error_policy::abort) return false; - buf.append(string_view("\xEF\xBF\xBD")); - --p; - } else { - c = (c << 10) + static_cast(*p) - 0x35fdc00; - } - } else if (c < 0x80) { - buf.push_back(static_cast(c)); - } else if (c < 0x800) { - buf.push_back(static_cast(0xc0 | (c >> 6))); - buf.push_back(static_cast(0x80 | (c & 0x3f))); - } else if ((c >= 0x800 && c <= 0xd7ff) || (c >= 0xe000 && c <= 0xffff)) { - buf.push_back(static_cast(0xe0 | (c >> 12))); - buf.push_back(static_cast(0x80 | ((c & 0xfff) >> 6))); - buf.push_back(static_cast(0x80 | (c & 0x3f))); - } else if (c >= 0x10000 && c <= 0x10ffff) { - buf.push_back(static_cast(0xf0 | (c >> 18))); - buf.push_back(static_cast(0x80 | ((c & 0x3ffff) >> 12))); - buf.push_back(static_cast(0x80 | ((c & 0xfff) >> 6))); - buf.push_back(static_cast(0x80 | (c & 0x3f))); - } else { - return false; - } - } - return true; - } -}; - -// Computes 128-bit result of multiplication of two 64-bit unsigned integers. -inline auto umul128(uint64_t x, uint64_t y) noexcept -> uint128_fallback { -#if FMT_USE_INT128 - auto p = static_cast(x) * static_cast(y); - return {static_cast(p >> 64), static_cast(p)}; -#elif defined(_MSC_VER) && defined(_M_X64) - auto hi = uint64_t(); - auto lo = _umul128(x, y, &hi); - return {hi, lo}; -#else - const uint64_t mask = static_cast(max_value()); - - uint64_t a = x >> 32; - uint64_t b = x & mask; - uint64_t c = y >> 32; - uint64_t d = y & mask; - - uint64_t ac = a * c; - uint64_t bc = b * c; - uint64_t ad = a * d; - uint64_t bd = b * d; - - uint64_t intermediate = (bd >> 32) + (ad & mask) + (bc & mask); - - return {ac + (intermediate >> 32) + (ad >> 32) + (bc >> 32), - (intermediate << 32) + (bd & mask)}; -#endif -} - -namespace dragonbox { -// Computes floor(log10(pow(2, e))) for e in [-2620, 2620] using the method from -// https://fmt.dev/papers/Dragonbox.pdf#page=28, section 6.1. -inline auto floor_log10_pow2(int e) noexcept -> int { - FMT_ASSERT(e <= 2620 && e >= -2620, "too large exponent"); - static_assert((-1 >> 1) == -1, "right shift is not arithmetic"); - return (e * 315653) >> 20; -} - -inline auto floor_log2_pow10(int e) noexcept -> int { - FMT_ASSERT(e <= 1233 && e >= -1233, "too large exponent"); - return (e * 1741647) >> 19; -} - -// Computes upper 64 bits of multiplication of two 64-bit unsigned integers. -inline auto umul128_upper64(uint64_t x, uint64_t y) noexcept -> uint64_t { -#if FMT_USE_INT128 - auto p = static_cast(x) * static_cast(y); - return static_cast(p >> 64); -#elif defined(_MSC_VER) && defined(_M_X64) - return __umulh(x, y); -#else - return umul128(x, y).high(); -#endif -} - -// Computes upper 128 bits of multiplication of a 64-bit unsigned integer and a -// 128-bit unsigned integer. -inline auto umul192_upper128(uint64_t x, uint128_fallback y) noexcept - -> uint128_fallback { - uint128_fallback r = umul128(x, y.high()); - r += umul128_upper64(x, y.low()); - return r; -} - -FMT_API auto get_cached_power(int k) noexcept -> uint128_fallback; - -// Type-specific information that Dragonbox uses. -template struct float_info; - -template <> struct float_info { - using carrier_uint = uint32_t; - static const int exponent_bits = 8; - static const int kappa = 1; - static const int big_divisor = 100; - static const int small_divisor = 10; - static const int min_k = -31; - static const int max_k = 46; - static const int shorter_interval_tie_lower_threshold = -35; - static const int shorter_interval_tie_upper_threshold = -35; -}; - -template <> struct float_info { - using carrier_uint = uint64_t; - static const int exponent_bits = 11; - static const int kappa = 2; - static const int big_divisor = 1000; - static const int small_divisor = 100; - static const int min_k = -292; - static const int max_k = 341; - static const int shorter_interval_tie_lower_threshold = -77; - static const int shorter_interval_tie_upper_threshold = -77; -}; - -// An 80- or 128-bit floating point number. -template -struct float_info::digits == 64 || - std::numeric_limits::digits == 113 || - is_float128::value>> { - using carrier_uint = detail::uint128_t; - static const int exponent_bits = 15; -}; - -// A double-double floating point number. -template -struct float_info::value>> { - using carrier_uint = detail::uint128_t; -}; - -template struct decimal_fp { - using significand_type = typename float_info::carrier_uint; - significand_type significand; - int exponent; -}; - -template FMT_API auto to_decimal(T x) noexcept -> decimal_fp; -} // namespace dragonbox - -// Returns true iff Float has the implicit bit which is not stored. -template constexpr auto has_implicit_bit() -> bool { - // An 80-bit FP number has a 64-bit significand an no implicit bit. - return std::numeric_limits::digits != 64; -} - -// Returns the number of significand bits stored in Float. The implicit bit is -// not counted since it is not stored. -template constexpr auto num_significand_bits() -> int { - // std::numeric_limits may not support __float128. - return is_float128() ? 112 - : (std::numeric_limits::digits - - (has_implicit_bit() ? 1 : 0)); -} - -template -constexpr auto exponent_mask() -> - typename dragonbox::float_info::carrier_uint { - using float_uint = typename dragonbox::float_info::carrier_uint; - return ((float_uint(1) << dragonbox::float_info::exponent_bits) - 1) - << num_significand_bits(); -} -template constexpr auto exponent_bias() -> int { - // std::numeric_limits may not support __float128. - return is_float128() ? 16383 - : std::numeric_limits::max_exponent - 1; -} - -// Writes the exponent exp in the form "[+-]d{2,3}" to buffer. -template -FMT_CONSTEXPR auto write_exponent(int exp, It it) -> It { - FMT_ASSERT(-10000 < exp && exp < 10000, "exponent out of range"); - if (exp < 0) { - *it++ = static_cast('-'); - exp = -exp; - } else { - *it++ = static_cast('+'); - } - if (exp >= 100) { - const char* top = digits2(to_unsigned(exp / 100)); - if (exp >= 1000) *it++ = static_cast(top[0]); - *it++ = static_cast(top[1]); - exp %= 100; - } - const char* d = digits2(to_unsigned(exp)); - *it++ = static_cast(d[0]); - *it++ = static_cast(d[1]); - return it; -} - -// A floating-point number f * pow(2, e) where F is an unsigned type. -template struct basic_fp { - F f; - int e; - - static constexpr const int num_significand_bits = - static_cast(sizeof(F) * num_bits()); - - constexpr basic_fp() : f(0), e(0) {} - constexpr basic_fp(uint64_t f_val, int e_val) : f(f_val), e(e_val) {} - - // Constructs fp from an IEEE754 floating-point number. - template FMT_CONSTEXPR basic_fp(Float n) { assign(n); } - - // Assigns n to this and return true iff predecessor is closer than successor. - template ::value)> - FMT_CONSTEXPR auto assign(Float n) -> bool { - static_assert(std::numeric_limits::digits <= 113, "unsupported FP"); - // Assume Float is in the format [sign][exponent][significand]. - using carrier_uint = typename dragonbox::float_info::carrier_uint; - const auto num_float_significand_bits = - detail::num_significand_bits(); - const auto implicit_bit = carrier_uint(1) << num_float_significand_bits; - const auto significand_mask = implicit_bit - 1; - auto u = bit_cast(n); - f = static_cast(u & significand_mask); - auto biased_e = static_cast((u & exponent_mask()) >> - num_float_significand_bits); - // The predecessor is closer if n is a normalized power of 2 (f == 0) - // other than the smallest normalized number (biased_e > 1). - auto is_predecessor_closer = f == 0 && biased_e > 1; - if (biased_e == 0) - biased_e = 1; // Subnormals use biased exponent 1 (min exponent). - else if (has_implicit_bit()) - f += static_cast(implicit_bit); - e = biased_e - exponent_bias() - num_float_significand_bits; - if (!has_implicit_bit()) ++e; - return is_predecessor_closer; - } - - template ::value)> - FMT_CONSTEXPR auto assign(Float n) -> bool { - static_assert(std::numeric_limits::is_iec559, "unsupported FP"); - return assign(static_cast(n)); - } -}; - -using fp = basic_fp; - -// Normalizes the value converted from double and multiplied by (1 << SHIFT). -template -FMT_CONSTEXPR auto normalize(basic_fp value) -> basic_fp { - // Handle subnormals. - const auto implicit_bit = F(1) << num_significand_bits(); - const auto shifted_implicit_bit = implicit_bit << SHIFT; - while ((value.f & shifted_implicit_bit) == 0) { - value.f <<= 1; - --value.e; - } - // Subtract 1 to account for hidden bit. - const auto offset = basic_fp::num_significand_bits - - num_significand_bits() - SHIFT - 1; - value.f <<= offset; - value.e -= offset; - return value; -} - -// Computes lhs * rhs / pow(2, 64) rounded to nearest with half-up tie breaking. -FMT_CONSTEXPR inline auto multiply(uint64_t lhs, uint64_t rhs) -> uint64_t { -#if FMT_USE_INT128 - auto product = static_cast<__uint128_t>(lhs) * rhs; - auto f = static_cast(product >> 64); - return (static_cast(product) & (1ULL << 63)) != 0 ? f + 1 : f; -#else - // Multiply 32-bit parts of significands. - uint64_t mask = (1ULL << 32) - 1; - uint64_t a = lhs >> 32, b = lhs & mask; - uint64_t c = rhs >> 32, d = rhs & mask; - uint64_t ac = a * c, bc = b * c, ad = a * d, bd = b * d; - // Compute mid 64-bit of result and round. - uint64_t mid = (bd >> 32) + (ad & mask) + (bc & mask) + (1U << 31); - return ac + (ad >> 32) + (bc >> 32) + (mid >> 32); -#endif -} - -FMT_CONSTEXPR inline auto operator*(fp x, fp y) -> fp { - return {multiply(x.f, y.f), x.e + y.e + 64}; -} - -template () == num_bits()> -using convert_float_result = - conditional_t::value || doublish, double, T>; - -template -constexpr auto convert_float(T value) -> convert_float_result { - return static_cast>(value); -} - -template -FMT_NOINLINE FMT_CONSTEXPR auto fill(OutputIt it, size_t n, - const fill_t& fill) -> OutputIt { - auto fill_size = fill.size(); - if (fill_size == 1) return detail::fill_n(it, n, fill[0]); - auto data = fill.data(); - for (size_t i = 0; i < n; ++i) - it = copy_str(data, data + fill_size, it); - return it; -} - -// Writes the output of f, padded according to format specifications in specs. -// size: output size in code units. -// width: output display width in (terminal) column positions. -template -FMT_CONSTEXPR auto write_padded(OutputIt out, const format_specs& specs, - size_t size, size_t width, F&& f) -> OutputIt { - static_assert(align == align::left || align == align::right, ""); - unsigned spec_width = to_unsigned(specs.width); - size_t padding = spec_width > width ? spec_width - width : 0; - // Shifts are encoded as string literals because static constexpr is not - // supported in constexpr functions. - auto* shifts = align == align::left ? "\x1f\x1f\x00\x01" : "\x00\x1f\x00\x01"; - size_t left_padding = padding >> shifts[specs.align]; - size_t right_padding = padding - left_padding; - auto it = reserve(out, size + padding * specs.fill.size()); - if (left_padding != 0) it = fill(it, left_padding, specs.fill); - it = f(it); - if (right_padding != 0) it = fill(it, right_padding, specs.fill); - return base_iterator(out, it); -} - -template -constexpr auto write_padded(OutputIt out, const format_specs& specs, - size_t size, F&& f) -> OutputIt { - return write_padded(out, specs, size, size, f); -} - -template -FMT_CONSTEXPR auto write_bytes(OutputIt out, string_view bytes, - const format_specs& specs) -> OutputIt { - return write_padded( - out, specs, bytes.size(), [bytes](reserve_iterator it) { - const char* data = bytes.data(); - return copy_str(data, data + bytes.size(), it); - }); -} - -template -auto write_ptr(OutputIt out, UIntPtr value, const format_specs* specs) - -> OutputIt { - int num_digits = count_digits<4>(value); - auto size = to_unsigned(num_digits) + size_t(2); - auto write = [=](reserve_iterator it) { - *it++ = static_cast('0'); - *it++ = static_cast('x'); - return format_uint<4, Char>(it, value, num_digits); - }; - return specs ? write_padded(out, *specs, size, write) - : base_iterator(out, write(reserve(out, size))); -} - -// Returns true iff the code point cp is printable. -FMT_API auto is_printable(uint32_t cp) -> bool; - -inline auto needs_escape(uint32_t cp) -> bool { - return cp < 0x20 || cp == 0x7f || cp == '"' || cp == '\\' || - !is_printable(cp); -} - -template struct find_escape_result { - const Char* begin; - const Char* end; - uint32_t cp; -}; - -template -using make_unsigned_char = - typename conditional_t::value, - std::make_unsigned, - type_identity>::type; - -template -auto find_escape(const Char* begin, const Char* end) - -> find_escape_result { - for (; begin != end; ++begin) { - uint32_t cp = static_cast>(*begin); - if (const_check(sizeof(Char) == 1) && cp >= 0x80) continue; - if (needs_escape(cp)) return {begin, begin + 1, cp}; - } - return {begin, nullptr, 0}; -} - -inline auto find_escape(const char* begin, const char* end) - -> find_escape_result { - if (!is_utf8()) return find_escape(begin, end); - auto result = find_escape_result{end, nullptr, 0}; - for_each_codepoint(string_view(begin, to_unsigned(end - begin)), - [&](uint32_t cp, string_view sv) { - if (needs_escape(cp)) { - result = {sv.begin(), sv.end(), cp}; - return false; - } - return true; - }); - return result; -} - -#define FMT_STRING_IMPL(s, base, explicit) \ - [] { \ - /* Use the hidden visibility as a workaround for a GCC bug (#1973). */ \ - /* Use a macro-like name to avoid shadowing warnings. */ \ - struct FMT_VISIBILITY("hidden") FMT_COMPILE_STRING : base { \ - using char_type FMT_MAYBE_UNUSED = fmt::remove_cvref_t; \ - FMT_MAYBE_UNUSED FMT_CONSTEXPR explicit \ - operator fmt::basic_string_view() const { \ - return fmt::detail_exported::compile_string_to_view(s); \ - } \ - }; \ - return FMT_COMPILE_STRING(); \ - }() - -/** - \rst - Constructs a compile-time format string from a string literal *s*. - - **Example**:: - - // A compile-time error because 'd' is an invalid specifier for strings. - std::string s = fmt::format(FMT_STRING("{:d}"), "foo"); - \endrst - */ -#define FMT_STRING(s) FMT_STRING_IMPL(s, fmt::detail::compile_string, ) - -template -auto write_codepoint(OutputIt out, char prefix, uint32_t cp) -> OutputIt { - *out++ = static_cast('\\'); - *out++ = static_cast(prefix); - Char buf[width]; - fill_n(buf, width, static_cast('0')); - format_uint<4>(buf, cp, width); - return copy_str(buf, buf + width, out); -} - -template -auto write_escaped_cp(OutputIt out, const find_escape_result& escape) - -> OutputIt { - auto c = static_cast(escape.cp); - switch (escape.cp) { - case '\n': - *out++ = static_cast('\\'); - c = static_cast('n'); - break; - case '\r': - *out++ = static_cast('\\'); - c = static_cast('r'); - break; - case '\t': - *out++ = static_cast('\\'); - c = static_cast('t'); - break; - case '"': - FMT_FALLTHROUGH; - case '\'': - FMT_FALLTHROUGH; - case '\\': - *out++ = static_cast('\\'); - break; - default: - if (escape.cp < 0x100) { - return write_codepoint<2, Char>(out, 'x', escape.cp); - } - if (escape.cp < 0x10000) { - return write_codepoint<4, Char>(out, 'u', escape.cp); - } - if (escape.cp < 0x110000) { - return write_codepoint<8, Char>(out, 'U', escape.cp); - } - for (Char escape_char : basic_string_view( - escape.begin, to_unsigned(escape.end - escape.begin))) { - out = write_codepoint<2, Char>(out, 'x', - static_cast(escape_char) & 0xFF); - } - return out; - } - *out++ = c; - return out; -} - -template -auto write_escaped_string(OutputIt out, basic_string_view str) - -> OutputIt { - *out++ = static_cast('"'); - auto begin = str.begin(), end = str.end(); - do { - auto escape = find_escape(begin, end); - out = copy_str(begin, escape.begin, out); - begin = escape.end; - if (!begin) break; - out = write_escaped_cp(out, escape); - } while (begin != end); - *out++ = static_cast('"'); - return out; -} - -template -auto write_escaped_char(OutputIt out, Char v) -> OutputIt { - Char v_array[1] = {v}; - *out++ = static_cast('\''); - if ((needs_escape(static_cast(v)) && v != static_cast('"')) || - v == static_cast('\'')) { - out = write_escaped_cp(out, - find_escape_result{v_array, v_array + 1, - static_cast(v)}); - } else { - *out++ = v; - } - *out++ = static_cast('\''); - return out; -} - -template -FMT_CONSTEXPR auto write_char(OutputIt out, Char value, - const format_specs& specs) -> OutputIt { - bool is_debug = specs.type == presentation_type::debug; - return write_padded(out, specs, 1, [=](reserve_iterator it) { - if (is_debug) return write_escaped_char(it, value); - *it++ = value; - return it; - }); -} -template -FMT_CONSTEXPR auto write(OutputIt out, Char value, - const format_specs& specs, locale_ref loc = {}) - -> OutputIt { - // char is formatted as unsigned char for consistency across platforms. - using unsigned_type = - conditional_t::value, unsigned char, unsigned>; - return check_char_specs(specs) - ? write_char(out, value, specs) - : write(out, static_cast(value), specs, loc); -} - -// Data for write_int that doesn't depend on output iterator type. It is used to -// avoid template code bloat. -template struct write_int_data { - size_t size; - size_t padding; - - FMT_CONSTEXPR write_int_data(int num_digits, unsigned prefix, - const format_specs& specs) - : size((prefix >> 24) + to_unsigned(num_digits)), padding(0) { - if (specs.align == align::numeric) { - auto width = to_unsigned(specs.width); - if (width > size) { - padding = width - size; - size = width; - } - } else if (specs.precision > num_digits) { - size = (prefix >> 24) + to_unsigned(specs.precision); - padding = to_unsigned(specs.precision - num_digits); - } - } -}; - -// Writes an integer in the format -// -// where are written by write_digits(it). -// prefix contains chars in three lower bytes and the size in the fourth byte. -template -FMT_CONSTEXPR FMT_INLINE auto write_int(OutputIt out, int num_digits, - unsigned prefix, - const format_specs& specs, - W write_digits) -> OutputIt { - // Slightly faster check for specs.width == 0 && specs.precision == -1. - if ((specs.width | (specs.precision + 1)) == 0) { - auto it = reserve(out, to_unsigned(num_digits) + (prefix >> 24)); - if (prefix != 0) { - for (unsigned p = prefix & 0xffffff; p != 0; p >>= 8) - *it++ = static_cast(p & 0xff); - } - return base_iterator(out, write_digits(it)); - } - auto data = write_int_data(num_digits, prefix, specs); - return write_padded( - out, specs, data.size, [=](reserve_iterator it) { - for (unsigned p = prefix & 0xffffff; p != 0; p >>= 8) - *it++ = static_cast(p & 0xff); - it = detail::fill_n(it, data.padding, static_cast('0')); - return write_digits(it); - }); -} - -template class digit_grouping { - private: - std::string grouping_; - std::basic_string thousands_sep_; - - struct next_state { - std::string::const_iterator group; - int pos; - }; - auto initial_state() const -> next_state { return {grouping_.begin(), 0}; } - - // Returns the next digit group separator position. - auto next(next_state& state) const -> int { - if (thousands_sep_.empty()) return max_value(); - if (state.group == grouping_.end()) return state.pos += grouping_.back(); - if (*state.group <= 0 || *state.group == max_value()) - return max_value(); - state.pos += *state.group++; - return state.pos; - } - - public: - explicit digit_grouping(locale_ref loc, bool localized = true) { - if (!localized) return; - auto sep = thousands_sep(loc); - grouping_ = sep.grouping; - if (sep.thousands_sep) thousands_sep_.assign(1, sep.thousands_sep); - } - digit_grouping(std::string grouping, std::basic_string sep) - : grouping_(std::move(grouping)), thousands_sep_(std::move(sep)) {} - - auto has_separator() const -> bool { return !thousands_sep_.empty(); } - - auto count_separators(int num_digits) const -> int { - int count = 0; - auto state = initial_state(); - while (num_digits > next(state)) ++count; - return count; - } - - // Applies grouping to digits and write the output to out. - template - auto apply(Out out, basic_string_view digits) const -> Out { - auto num_digits = static_cast(digits.size()); - auto separators = basic_memory_buffer(); - separators.push_back(0); - auto state = initial_state(); - while (int i = next(state)) { - if (i >= num_digits) break; - separators.push_back(i); - } - for (int i = 0, sep_index = static_cast(separators.size() - 1); - i < num_digits; ++i) { - if (num_digits - i == separators[sep_index]) { - out = - copy_str(thousands_sep_.data(), - thousands_sep_.data() + thousands_sep_.size(), out); - --sep_index; - } - *out++ = static_cast(digits[to_unsigned(i)]); - } - return out; - } -}; - -FMT_CONSTEXPR inline void prefix_append(unsigned& prefix, unsigned value) { - prefix |= prefix != 0 ? value << 8 : value; - prefix += (1u + (value > 0xff ? 1 : 0)) << 24; -} - -// Writes a decimal integer with digit grouping. -template -auto write_int(OutputIt out, UInt value, unsigned prefix, - const format_specs& specs, - const digit_grouping& grouping) -> OutputIt { - static_assert(std::is_same, UInt>::value, ""); - int num_digits = 0; - auto buffer = memory_buffer(); - switch (specs.type) { - case presentation_type::none: - case presentation_type::dec: { - num_digits = count_digits(value); - format_decimal(appender(buffer), value, num_digits); - break; - } - case presentation_type::hex_lower: - case presentation_type::hex_upper: { - bool upper = specs.type == presentation_type::hex_upper; - if (specs.alt) - prefix_append(prefix, unsigned(upper ? 'X' : 'x') << 8 | '0'); - num_digits = count_digits<4>(value); - format_uint<4, char>(appender(buffer), value, num_digits, upper); - break; - } - case presentation_type::bin_lower: - case presentation_type::bin_upper: { - bool upper = specs.type == presentation_type::bin_upper; - if (specs.alt) - prefix_append(prefix, unsigned(upper ? 'B' : 'b') << 8 | '0'); - num_digits = count_digits<1>(value); - format_uint<1, char>(appender(buffer), value, num_digits); - break; - } - case presentation_type::oct: { - num_digits = count_digits<3>(value); - // Octal prefix '0' is counted as a digit, so only add it if precision - // is not greater than the number of digits. - if (specs.alt && specs.precision <= num_digits && value != 0) - prefix_append(prefix, '0'); - format_uint<3, char>(appender(buffer), value, num_digits); - break; - } - case presentation_type::chr: - return write_char(out, static_cast(value), specs); - default: - throw_format_error("invalid format specifier"); - } - - unsigned size = (prefix != 0 ? prefix >> 24 : 0) + to_unsigned(num_digits) + - to_unsigned(grouping.count_separators(num_digits)); - return write_padded( - out, specs, size, size, [&](reserve_iterator it) { - for (unsigned p = prefix & 0xffffff; p != 0; p >>= 8) - *it++ = static_cast(p & 0xff); - return grouping.apply(it, string_view(buffer.data(), buffer.size())); - }); -} - -// Writes a localized value. -FMT_API auto write_loc(appender out, loc_value value, - const format_specs<>& specs, locale_ref loc) -> bool; -template -inline auto write_loc(OutputIt, loc_value, const format_specs&, - locale_ref) -> bool { - return false; -} - -template struct write_int_arg { - UInt abs_value; - unsigned prefix; -}; - -template -FMT_CONSTEXPR auto make_write_int_arg(T value, sign_t sign) - -> write_int_arg> { - auto prefix = 0u; - auto abs_value = static_cast>(value); - if (is_negative(value)) { - prefix = 0x01000000 | '-'; - abs_value = 0 - abs_value; - } else { - constexpr const unsigned prefixes[4] = {0, 0, 0x1000000u | '+', - 0x1000000u | ' '}; - prefix = prefixes[sign]; - } - return {abs_value, prefix}; -} - -template struct loc_writer { - buffer_appender out; - const format_specs& specs; - std::basic_string sep; - std::string grouping; - std::basic_string decimal_point; - - template ::value)> - auto operator()(T value) -> bool { - auto arg = make_write_int_arg(value, specs.sign); - write_int(out, static_cast>(arg.abs_value), arg.prefix, - specs, digit_grouping(grouping, sep)); - return true; - } - - template ::value)> - auto operator()(T) -> bool { - return false; - } -}; - -template -FMT_CONSTEXPR FMT_INLINE auto write_int(OutputIt out, write_int_arg arg, - const format_specs& specs, - locale_ref) -> OutputIt { - static_assert(std::is_same>::value, ""); - auto abs_value = arg.abs_value; - auto prefix = arg.prefix; - switch (specs.type) { - case presentation_type::none: - case presentation_type::dec: { - auto num_digits = count_digits(abs_value); - return write_int( - out, num_digits, prefix, specs, [=](reserve_iterator it) { - return format_decimal(it, abs_value, num_digits).end; - }); - } - case presentation_type::hex_lower: - case presentation_type::hex_upper: { - bool upper = specs.type == presentation_type::hex_upper; - if (specs.alt) - prefix_append(prefix, unsigned(upper ? 'X' : 'x') << 8 | '0'); - int num_digits = count_digits<4>(abs_value); - return write_int( - out, num_digits, prefix, specs, [=](reserve_iterator it) { - return format_uint<4, Char>(it, abs_value, num_digits, upper); - }); - } - case presentation_type::bin_lower: - case presentation_type::bin_upper: { - bool upper = specs.type == presentation_type::bin_upper; - if (specs.alt) - prefix_append(prefix, unsigned(upper ? 'B' : 'b') << 8 | '0'); - int num_digits = count_digits<1>(abs_value); - return write_int(out, num_digits, prefix, specs, - [=](reserve_iterator it) { - return format_uint<1, Char>(it, abs_value, num_digits); - }); - } - case presentation_type::oct: { - int num_digits = count_digits<3>(abs_value); - // Octal prefix '0' is counted as a digit, so only add it if precision - // is not greater than the number of digits. - if (specs.alt && specs.precision <= num_digits && abs_value != 0) - prefix_append(prefix, '0'); - return write_int(out, num_digits, prefix, specs, - [=](reserve_iterator it) { - return format_uint<3, Char>(it, abs_value, num_digits); - }); - } - case presentation_type::chr: - return write_char(out, static_cast(abs_value), specs); - default: - throw_format_error("invalid format specifier"); - } - return out; -} -template -FMT_CONSTEXPR FMT_NOINLINE auto write_int_noinline( - OutputIt out, write_int_arg arg, const format_specs& specs, - locale_ref loc) -> OutputIt { - return write_int(out, arg, specs, loc); -} -template ::value && - !std::is_same::value && - std::is_same>::value)> -FMT_CONSTEXPR FMT_INLINE auto write(OutputIt out, T value, - const format_specs& specs, - locale_ref loc) -> OutputIt { - if (specs.localized && write_loc(out, value, specs, loc)) return out; - return write_int_noinline(out, make_write_int_arg(value, specs.sign), specs, - loc); -} -// An inlined version of write used in format string compilation. -template ::value && - !std::is_same::value && - !std::is_same>::value)> -FMT_CONSTEXPR FMT_INLINE auto write(OutputIt out, T value, - const format_specs& specs, - locale_ref loc) -> OutputIt { - if (specs.localized && write_loc(out, value, specs, loc)) return out; - return write_int(out, make_write_int_arg(value, specs.sign), specs, loc); -} - -// An output iterator that counts the number of objects written to it and -// discards them. -class counting_iterator { - private: - size_t count_; - - public: - using iterator_category = std::output_iterator_tag; - using difference_type = std::ptrdiff_t; - using pointer = void; - using reference = void; - FMT_UNCHECKED_ITERATOR(counting_iterator); - - struct value_type { - template FMT_CONSTEXPR void operator=(const T&) {} - }; - - FMT_CONSTEXPR counting_iterator() : count_(0) {} - - FMT_CONSTEXPR auto count() const -> size_t { return count_; } - - FMT_CONSTEXPR auto operator++() -> counting_iterator& { - ++count_; - return *this; - } - FMT_CONSTEXPR auto operator++(int) -> counting_iterator { - auto it = *this; - ++*this; - return it; - } - - FMT_CONSTEXPR friend auto operator+(counting_iterator it, difference_type n) - -> counting_iterator { - it.count_ += static_cast(n); - return it; - } - - FMT_CONSTEXPR auto operator*() const -> value_type { return {}; } -}; - -template -FMT_CONSTEXPR auto write(OutputIt out, basic_string_view s, - const format_specs& specs) -> OutputIt { - auto data = s.data(); - auto size = s.size(); - if (specs.precision >= 0 && to_unsigned(specs.precision) < size) - size = code_point_index(s, to_unsigned(specs.precision)); - bool is_debug = specs.type == presentation_type::debug; - size_t width = 0; - if (specs.width != 0) { - if (is_debug) - width = write_escaped_string(counting_iterator{}, s).count(); - else - width = compute_width(basic_string_view(data, size)); - } - return write_padded(out, specs, size, width, - [=](reserve_iterator it) { - if (is_debug) return write_escaped_string(it, s); - return copy_str(data, data + size, it); - }); -} -template -FMT_CONSTEXPR auto write(OutputIt out, - basic_string_view> s, - const format_specs& specs, locale_ref) - -> OutputIt { - return write(out, s, specs); -} -template -FMT_CONSTEXPR auto write(OutputIt out, const Char* s, - const format_specs& specs, locale_ref) - -> OutputIt { - if (specs.type == presentation_type::pointer) - return write_ptr(out, bit_cast(s), &specs); - if (!s) throw_format_error("string pointer is null"); - return write(out, basic_string_view(s), specs, {}); -} - -template ::value && - !std::is_same::value && - !std::is_same::value)> -FMT_CONSTEXPR auto write(OutputIt out, T value) -> OutputIt { - auto abs_value = static_cast>(value); - bool negative = is_negative(value); - // Don't do -abs_value since it trips unsigned-integer-overflow sanitizer. - if (negative) abs_value = ~abs_value + 1; - int num_digits = count_digits(abs_value); - auto size = (negative ? 1 : 0) + static_cast(num_digits); - auto it = reserve(out, size); - if (auto ptr = to_pointer(it, size)) { - if (negative) *ptr++ = static_cast('-'); - format_decimal(ptr, abs_value, num_digits); - return out; - } - if (negative) *it++ = static_cast('-'); - it = format_decimal(it, abs_value, num_digits).end; - return base_iterator(out, it); -} - -// DEPRECATED! -template -FMT_CONSTEXPR auto parse_align(const Char* begin, const Char* end, - format_specs& specs) -> const Char* { - FMT_ASSERT(begin != end, ""); - auto align = align::none; - auto p = begin + code_point_length(begin); - if (end - p <= 0) p = begin; - for (;;) { - switch (to_ascii(*p)) { - case '<': - align = align::left; - break; - case '>': - align = align::right; - break; - case '^': - align = align::center; - break; - } - if (align != align::none) { - if (p != begin) { - auto c = *begin; - if (c == '}') return begin; - if (c == '{') { - throw_format_error("invalid fill character '{'"); - return begin; - } - specs.fill = {begin, to_unsigned(p - begin)}; - begin = p + 1; - } else { - ++begin; - } - break; - } else if (p == begin) { - break; - } - p = begin; - } - specs.align = align; - return begin; -} - -// A floating-point presentation format. -enum class float_format : unsigned char { - general, // General: exponent notation or fixed point based on magnitude. - exp, // Exponent notation with the default precision of 6, e.g. 1.2e-3. - fixed, // Fixed point with the default precision of 6, e.g. 0.0012. - hex -}; - -struct float_specs { - int precision; - float_format format : 8; - sign_t sign : 8; - bool upper : 1; - bool locale : 1; - bool binary32 : 1; - bool showpoint : 1; -}; - -template -FMT_CONSTEXPR auto parse_float_type_spec(const format_specs& specs) - -> float_specs { - auto result = float_specs(); - result.showpoint = specs.alt; - result.locale = specs.localized; - switch (specs.type) { - case presentation_type::none: - result.format = float_format::general; - break; - case presentation_type::general_upper: - result.upper = true; - FMT_FALLTHROUGH; - case presentation_type::general_lower: - result.format = float_format::general; - break; - case presentation_type::exp_upper: - result.upper = true; - FMT_FALLTHROUGH; - case presentation_type::exp_lower: - result.format = float_format::exp; - result.showpoint |= specs.precision != 0; - break; - case presentation_type::fixed_upper: - result.upper = true; - FMT_FALLTHROUGH; - case presentation_type::fixed_lower: - result.format = float_format::fixed; - result.showpoint |= specs.precision != 0; - break; - case presentation_type::hexfloat_upper: - result.upper = true; - FMT_FALLTHROUGH; - case presentation_type::hexfloat_lower: - result.format = float_format::hex; - break; - default: - throw_format_error("invalid format specifier"); - break; - } - return result; -} - -template -FMT_CONSTEXPR20 auto write_nonfinite(OutputIt out, bool isnan, - format_specs specs, - const float_specs& fspecs) -> OutputIt { - auto str = - isnan ? (fspecs.upper ? "NAN" : "nan") : (fspecs.upper ? "INF" : "inf"); - constexpr size_t str_size = 3; - auto sign = fspecs.sign; - auto size = str_size + (sign ? 1 : 0); - // Replace '0'-padding with space for non-finite values. - const bool is_zero_fill = - specs.fill.size() == 1 && *specs.fill.data() == static_cast('0'); - if (is_zero_fill) specs.fill[0] = static_cast(' '); - return write_padded(out, specs, size, [=](reserve_iterator it) { - if (sign) *it++ = detail::sign(sign); - return copy_str(str, str + str_size, it); - }); -} - -// A decimal floating-point number significand * pow(10, exp). -struct big_decimal_fp { - const char* significand; - int significand_size; - int exponent; -}; - -constexpr auto get_significand_size(const big_decimal_fp& f) -> int { - return f.significand_size; -} -template -inline auto get_significand_size(const dragonbox::decimal_fp& f) -> int { - return count_digits(f.significand); -} - -template -constexpr auto write_significand(OutputIt out, const char* significand, - int significand_size) -> OutputIt { - return copy_str(significand, significand + significand_size, out); -} -template -inline auto write_significand(OutputIt out, UInt significand, - int significand_size) -> OutputIt { - return format_decimal(out, significand, significand_size).end; -} -template -FMT_CONSTEXPR20 auto write_significand(OutputIt out, T significand, - int significand_size, int exponent, - const Grouping& grouping) -> OutputIt { - if (!grouping.has_separator()) { - out = write_significand(out, significand, significand_size); - return detail::fill_n(out, exponent, static_cast('0')); - } - auto buffer = memory_buffer(); - write_significand(appender(buffer), significand, significand_size); - detail::fill_n(appender(buffer), exponent, '0'); - return grouping.apply(out, string_view(buffer.data(), buffer.size())); -} - -template ::value)> -inline auto write_significand(Char* out, UInt significand, int significand_size, - int integral_size, Char decimal_point) -> Char* { - if (!decimal_point) - return format_decimal(out, significand, significand_size).end; - out += significand_size + 1; - Char* end = out; - int floating_size = significand_size - integral_size; - for (int i = floating_size / 2; i > 0; --i) { - out -= 2; - copy2(out, digits2(static_cast(significand % 100))); - significand /= 100; - } - if (floating_size % 2 != 0) { - *--out = static_cast('0' + significand % 10); - significand /= 10; - } - *--out = decimal_point; - format_decimal(out - integral_size, significand, integral_size); - return end; -} - -template >::value)> -inline auto write_significand(OutputIt out, UInt significand, - int significand_size, int integral_size, - Char decimal_point) -> OutputIt { - // Buffer is large enough to hold digits (digits10 + 1) and a decimal point. - Char buffer[digits10() + 2]; - auto end = write_significand(buffer, significand, significand_size, - integral_size, decimal_point); - return detail::copy_str_noinline(buffer, end, out); -} - -template -FMT_CONSTEXPR auto write_significand(OutputIt out, const char* significand, - int significand_size, int integral_size, - Char decimal_point) -> OutputIt { - out = detail::copy_str_noinline(significand, - significand + integral_size, out); - if (!decimal_point) return out; - *out++ = decimal_point; - return detail::copy_str_noinline(significand + integral_size, - significand + significand_size, out); -} - -template -FMT_CONSTEXPR20 auto write_significand(OutputIt out, T significand, - int significand_size, int integral_size, - Char decimal_point, - const Grouping& grouping) -> OutputIt { - if (!grouping.has_separator()) { - return write_significand(out, significand, significand_size, integral_size, - decimal_point); - } - auto buffer = basic_memory_buffer(); - write_significand(buffer_appender(buffer), significand, - significand_size, integral_size, decimal_point); - grouping.apply( - out, basic_string_view(buffer.data(), to_unsigned(integral_size))); - return detail::copy_str_noinline(buffer.data() + integral_size, - buffer.end(), out); -} - -template > -FMT_CONSTEXPR20 auto do_write_float(OutputIt out, const DecimalFP& f, - const format_specs& specs, - float_specs fspecs, locale_ref loc) - -> OutputIt { - auto significand = f.significand; - int significand_size = get_significand_size(f); - const Char zero = static_cast('0'); - auto sign = fspecs.sign; - size_t size = to_unsigned(significand_size) + (sign ? 1 : 0); - using iterator = reserve_iterator; - - Char decimal_point = - fspecs.locale ? detail::decimal_point(loc) : static_cast('.'); - - int output_exp = f.exponent + significand_size - 1; - auto use_exp_format = [=]() { - if (fspecs.format == float_format::exp) return true; - if (fspecs.format != float_format::general) return false; - // Use the fixed notation if the exponent is in [exp_lower, exp_upper), - // e.g. 0.0001 instead of 1e-04. Otherwise use the exponent notation. - const int exp_lower = -4, exp_upper = 16; - return output_exp < exp_lower || - output_exp >= (fspecs.precision > 0 ? fspecs.precision : exp_upper); - }; - if (use_exp_format()) { - int num_zeros = 0; - if (fspecs.showpoint) { - num_zeros = fspecs.precision - significand_size; - if (num_zeros < 0) num_zeros = 0; - size += to_unsigned(num_zeros); - } else if (significand_size == 1) { - decimal_point = Char(); - } - auto abs_output_exp = output_exp >= 0 ? output_exp : -output_exp; - int exp_digits = 2; - if (abs_output_exp >= 100) exp_digits = abs_output_exp >= 1000 ? 4 : 3; - - size += to_unsigned((decimal_point ? 1 : 0) + 2 + exp_digits); - char exp_char = fspecs.upper ? 'E' : 'e'; - auto write = [=](iterator it) { - if (sign) *it++ = detail::sign(sign); - // Insert a decimal point after the first digit and add an exponent. - it = write_significand(it, significand, significand_size, 1, - decimal_point); - if (num_zeros > 0) it = detail::fill_n(it, num_zeros, zero); - *it++ = static_cast(exp_char); - return write_exponent(output_exp, it); - }; - return specs.width > 0 ? write_padded(out, specs, size, write) - : base_iterator(out, write(reserve(out, size))); - } - - int exp = f.exponent + significand_size; - if (f.exponent >= 0) { - // 1234e5 -> 123400000[.0+] - size += to_unsigned(f.exponent); - int num_zeros = fspecs.precision - exp; - abort_fuzzing_if(num_zeros > 5000); - if (fspecs.showpoint) { - ++size; - if (num_zeros <= 0 && fspecs.format != float_format::fixed) num_zeros = 0; - if (num_zeros > 0) size += to_unsigned(num_zeros); - } - auto grouping = Grouping(loc, fspecs.locale); - size += to_unsigned(grouping.count_separators(exp)); - return write_padded(out, specs, size, [&](iterator it) { - if (sign) *it++ = detail::sign(sign); - it = write_significand(it, significand, significand_size, - f.exponent, grouping); - if (!fspecs.showpoint) return it; - *it++ = decimal_point; - return num_zeros > 0 ? detail::fill_n(it, num_zeros, zero) : it; - }); - } else if (exp > 0) { - // 1234e-2 -> 12.34[0+] - int num_zeros = fspecs.showpoint ? fspecs.precision - significand_size : 0; - size += 1 + to_unsigned(num_zeros > 0 ? num_zeros : 0); - auto grouping = Grouping(loc, fspecs.locale); - size += to_unsigned(grouping.count_separators(exp)); - return write_padded(out, specs, size, [&](iterator it) { - if (sign) *it++ = detail::sign(sign); - it = write_significand(it, significand, significand_size, exp, - decimal_point, grouping); - return num_zeros > 0 ? detail::fill_n(it, num_zeros, zero) : it; - }); - } - // 1234e-6 -> 0.001234 - int num_zeros = -exp; - if (significand_size == 0 && fspecs.precision >= 0 && - fspecs.precision < num_zeros) { - num_zeros = fspecs.precision; - } - bool pointy = num_zeros != 0 || significand_size != 0 || fspecs.showpoint; - size += 1 + (pointy ? 1 : 0) + to_unsigned(num_zeros); - return write_padded(out, specs, size, [&](iterator it) { - if (sign) *it++ = detail::sign(sign); - *it++ = zero; - if (!pointy) return it; - *it++ = decimal_point; - it = detail::fill_n(it, num_zeros, zero); - return write_significand(it, significand, significand_size); - }); -} - -template class fallback_digit_grouping { - public: - constexpr fallback_digit_grouping(locale_ref, bool) {} - - constexpr auto has_separator() const -> bool { return false; } - - constexpr auto count_separators(int) const -> int { return 0; } - - template - constexpr auto apply(Out out, basic_string_view) const -> Out { - return out; - } -}; - -template -FMT_CONSTEXPR20 auto write_float(OutputIt out, const DecimalFP& f, - const format_specs& specs, - float_specs fspecs, locale_ref loc) - -> OutputIt { - if (is_constant_evaluated()) { - return do_write_float>(out, f, specs, fspecs, - loc); - } else { - return do_write_float(out, f, specs, fspecs, loc); - } -} - -template constexpr auto isnan(T value) -> bool { - return !(value >= value); // std::isnan doesn't support __float128. -} - -template -struct has_isfinite : std::false_type {}; - -template -struct has_isfinite> - : std::true_type {}; - -template ::value&& - has_isfinite::value)> -FMT_CONSTEXPR20 auto isfinite(T value) -> bool { - constexpr T inf = T(std::numeric_limits::infinity()); - if (is_constant_evaluated()) - return !detail::isnan(value) && value < inf && value > -inf; - return std::isfinite(value); -} -template ::value)> -FMT_CONSTEXPR auto isfinite(T value) -> bool { - T inf = T(std::numeric_limits::infinity()); - // std::isfinite doesn't support __float128. - return !detail::isnan(value) && value < inf && value > -inf; -} - -template ::value)> -FMT_INLINE FMT_CONSTEXPR bool signbit(T value) { - if (is_constant_evaluated()) { -#ifdef __cpp_if_constexpr - if constexpr (std::numeric_limits::is_iec559) { - auto bits = detail::bit_cast(static_cast(value)); - return (bits >> (num_bits() - 1)) != 0; - } -#endif - } - return std::signbit(static_cast(value)); -} - -inline FMT_CONSTEXPR20 void adjust_precision(int& precision, int exp10) { - // Adjust fixed precision by exponent because it is relative to decimal - // point. - if (exp10 > 0 && precision > max_value() - exp10) - FMT_THROW(format_error("number is too big")); - precision += exp10; -} - -class bigint { - private: - // A bigint is stored as an array of bigits (big digits), with bigit at index - // 0 being the least significant one. - using bigit = uint32_t; - using double_bigit = uint64_t; - enum { bigits_capacity = 32 }; - basic_memory_buffer bigits_; - int exp_; - - FMT_CONSTEXPR20 auto operator[](int index) const -> bigit { - return bigits_[to_unsigned(index)]; - } - FMT_CONSTEXPR20 auto operator[](int index) -> bigit& { - return bigits_[to_unsigned(index)]; - } - - static constexpr const int bigit_bits = num_bits(); - - friend struct formatter; - - FMT_CONSTEXPR20 void subtract_bigits(int index, bigit other, bigit& borrow) { - auto result = static_cast((*this)[index]) - other - borrow; - (*this)[index] = static_cast(result); - borrow = static_cast(result >> (bigit_bits * 2 - 1)); - } - - FMT_CONSTEXPR20 void remove_leading_zeros() { - int num_bigits = static_cast(bigits_.size()) - 1; - while (num_bigits > 0 && (*this)[num_bigits] == 0) --num_bigits; - bigits_.resize(to_unsigned(num_bigits + 1)); - } - - // Computes *this -= other assuming aligned bigints and *this >= other. - FMT_CONSTEXPR20 void subtract_aligned(const bigint& other) { - FMT_ASSERT(other.exp_ >= exp_, "unaligned bigints"); - FMT_ASSERT(compare(*this, other) >= 0, ""); - bigit borrow = 0; - int i = other.exp_ - exp_; - for (size_t j = 0, n = other.bigits_.size(); j != n; ++i, ++j) - subtract_bigits(i, other.bigits_[j], borrow); - while (borrow > 0) subtract_bigits(i, 0, borrow); - remove_leading_zeros(); - } - - FMT_CONSTEXPR20 void multiply(uint32_t value) { - const double_bigit wide_value = value; - bigit carry = 0; - for (size_t i = 0, n = bigits_.size(); i < n; ++i) { - double_bigit result = bigits_[i] * wide_value + carry; - bigits_[i] = static_cast(result); - carry = static_cast(result >> bigit_bits); - } - if (carry != 0) bigits_.push_back(carry); - } - - template ::value || - std::is_same::value)> - FMT_CONSTEXPR20 void multiply(UInt value) { - using half_uint = - conditional_t::value, uint64_t, uint32_t>; - const int shift = num_bits() - bigit_bits; - const UInt lower = static_cast(value); - const UInt upper = value >> num_bits(); - UInt carry = 0; - for (size_t i = 0, n = bigits_.size(); i < n; ++i) { - UInt result = lower * bigits_[i] + static_cast(carry); - carry = (upper * bigits_[i] << shift) + (result >> bigit_bits) + - (carry >> bigit_bits); - bigits_[i] = static_cast(result); - } - while (carry != 0) { - bigits_.push_back(static_cast(carry)); - carry >>= bigit_bits; - } - } - - template ::value || - std::is_same::value)> - FMT_CONSTEXPR20 void assign(UInt n) { - size_t num_bigits = 0; - do { - bigits_[num_bigits++] = static_cast(n); - n >>= bigit_bits; - } while (n != 0); - bigits_.resize(num_bigits); - exp_ = 0; - } - - public: - FMT_CONSTEXPR20 bigint() : exp_(0) {} - explicit bigint(uint64_t n) { assign(n); } - - bigint(const bigint&) = delete; - void operator=(const bigint&) = delete; - - FMT_CONSTEXPR20 void assign(const bigint& other) { - auto size = other.bigits_.size(); - bigits_.resize(size); - auto data = other.bigits_.data(); - copy_str(data, data + size, bigits_.data()); - exp_ = other.exp_; - } - - template FMT_CONSTEXPR20 void operator=(Int n) { - FMT_ASSERT(n > 0, ""); - assign(uint64_or_128_t(n)); - } - - FMT_CONSTEXPR20 auto num_bigits() const -> int { - return static_cast(bigits_.size()) + exp_; - } - - FMT_NOINLINE FMT_CONSTEXPR20 auto operator<<=(int shift) -> bigint& { - FMT_ASSERT(shift >= 0, ""); - exp_ += shift / bigit_bits; - shift %= bigit_bits; - if (shift == 0) return *this; - bigit carry = 0; - for (size_t i = 0, n = bigits_.size(); i < n; ++i) { - bigit c = bigits_[i] >> (bigit_bits - shift); - bigits_[i] = (bigits_[i] << shift) + carry; - carry = c; - } - if (carry != 0) bigits_.push_back(carry); - return *this; - } - - template - FMT_CONSTEXPR20 auto operator*=(Int value) -> bigint& { - FMT_ASSERT(value > 0, ""); - multiply(uint32_or_64_or_128_t(value)); - return *this; - } - - friend FMT_CONSTEXPR20 auto compare(const bigint& lhs, const bigint& rhs) - -> int { - int num_lhs_bigits = lhs.num_bigits(), num_rhs_bigits = rhs.num_bigits(); - if (num_lhs_bigits != num_rhs_bigits) - return num_lhs_bigits > num_rhs_bigits ? 1 : -1; - int i = static_cast(lhs.bigits_.size()) - 1; - int j = static_cast(rhs.bigits_.size()) - 1; - int end = i - j; - if (end < 0) end = 0; - for (; i >= end; --i, --j) { - bigit lhs_bigit = lhs[i], rhs_bigit = rhs[j]; - if (lhs_bigit != rhs_bigit) return lhs_bigit > rhs_bigit ? 1 : -1; - } - if (i != j) return i > j ? 1 : -1; - return 0; - } - - // Returns compare(lhs1 + lhs2, rhs). - friend FMT_CONSTEXPR20 auto add_compare(const bigint& lhs1, - const bigint& lhs2, const bigint& rhs) - -> int { - auto minimum = [](int a, int b) { return a < b ? a : b; }; - auto maximum = [](int a, int b) { return a > b ? a : b; }; - int max_lhs_bigits = maximum(lhs1.num_bigits(), lhs2.num_bigits()); - int num_rhs_bigits = rhs.num_bigits(); - if (max_lhs_bigits + 1 < num_rhs_bigits) return -1; - if (max_lhs_bigits > num_rhs_bigits) return 1; - auto get_bigit = [](const bigint& n, int i) -> bigit { - return i >= n.exp_ && i < n.num_bigits() ? n[i - n.exp_] : 0; - }; - double_bigit borrow = 0; - int min_exp = minimum(minimum(lhs1.exp_, lhs2.exp_), rhs.exp_); - for (int i = num_rhs_bigits - 1; i >= min_exp; --i) { - double_bigit sum = - static_cast(get_bigit(lhs1, i)) + get_bigit(lhs2, i); - bigit rhs_bigit = get_bigit(rhs, i); - if (sum > rhs_bigit + borrow) return 1; - borrow = rhs_bigit + borrow - sum; - if (borrow > 1) return -1; - borrow <<= bigit_bits; - } - return borrow != 0 ? -1 : 0; - } - - // Assigns pow(10, exp) to this bigint. - FMT_CONSTEXPR20 void assign_pow10(int exp) { - FMT_ASSERT(exp >= 0, ""); - if (exp == 0) return *this = 1; - // Find the top bit. - int bitmask = 1; - while (exp >= bitmask) bitmask <<= 1; - bitmask >>= 1; - // pow(10, exp) = pow(5, exp) * pow(2, exp). First compute pow(5, exp) by - // repeated squaring and multiplication. - *this = 5; - bitmask >>= 1; - while (bitmask != 0) { - square(); - if ((exp & bitmask) != 0) *this *= 5; - bitmask >>= 1; - } - *this <<= exp; // Multiply by pow(2, exp) by shifting. - } - - FMT_CONSTEXPR20 void square() { - int num_bigits = static_cast(bigits_.size()); - int num_result_bigits = 2 * num_bigits; - basic_memory_buffer n(std::move(bigits_)); - bigits_.resize(to_unsigned(num_result_bigits)); - auto sum = uint128_t(); - for (int bigit_index = 0; bigit_index < num_bigits; ++bigit_index) { - // Compute bigit at position bigit_index of the result by adding - // cross-product terms n[i] * n[j] such that i + j == bigit_index. - for (int i = 0, j = bigit_index; j >= 0; ++i, --j) { - // Most terms are multiplied twice which can be optimized in the future. - sum += static_cast(n[i]) * n[j]; - } - (*this)[bigit_index] = static_cast(sum); - sum >>= num_bits(); // Compute the carry. - } - // Do the same for the top half. - for (int bigit_index = num_bigits; bigit_index < num_result_bigits; - ++bigit_index) { - for (int j = num_bigits - 1, i = bigit_index - j; i < num_bigits;) - sum += static_cast(n[i++]) * n[j--]; - (*this)[bigit_index] = static_cast(sum); - sum >>= num_bits(); - } - remove_leading_zeros(); - exp_ *= 2; - } - - // If this bigint has a bigger exponent than other, adds trailing zero to make - // exponents equal. This simplifies some operations such as subtraction. - FMT_CONSTEXPR20 void align(const bigint& other) { - int exp_difference = exp_ - other.exp_; - if (exp_difference <= 0) return; - int num_bigits = static_cast(bigits_.size()); - bigits_.resize(to_unsigned(num_bigits + exp_difference)); - for (int i = num_bigits - 1, j = i + exp_difference; i >= 0; --i, --j) - bigits_[j] = bigits_[i]; - std::uninitialized_fill_n(bigits_.data(), exp_difference, 0u); - exp_ -= exp_difference; - } - - // Divides this bignum by divisor, assigning the remainder to this and - // returning the quotient. - FMT_CONSTEXPR20 auto divmod_assign(const bigint& divisor) -> int { - FMT_ASSERT(this != &divisor, ""); - if (compare(*this, divisor) < 0) return 0; - FMT_ASSERT(divisor.bigits_[divisor.bigits_.size() - 1u] != 0, ""); - align(divisor); - int quotient = 0; - do { - subtract_aligned(divisor); - ++quotient; - } while (compare(*this, divisor) >= 0); - return quotient; - } -}; - -// format_dragon flags. -enum dragon { - predecessor_closer = 1, - fixup = 2, // Run fixup to correct exp10 which can be off by one. - fixed = 4, -}; - -// Formats a floating-point number using a variation of the Fixed-Precision -// Positive Floating-Point Printout ((FPP)^2) algorithm by Steele & White: -// https://fmt.dev/papers/p372-steele.pdf. -FMT_CONSTEXPR20 inline void format_dragon(basic_fp value, - unsigned flags, int num_digits, - buffer& buf, int& exp10) { - bigint numerator; // 2 * R in (FPP)^2. - bigint denominator; // 2 * S in (FPP)^2. - // lower and upper are differences between value and corresponding boundaries. - bigint lower; // (M^- in (FPP)^2). - bigint upper_store; // upper's value if different from lower. - bigint* upper = nullptr; // (M^+ in (FPP)^2). - // Shift numerator and denominator by an extra bit or two (if lower boundary - // is closer) to make lower and upper integers. This eliminates multiplication - // by 2 during later computations. - bool is_predecessor_closer = (flags & dragon::predecessor_closer) != 0; - int shift = is_predecessor_closer ? 2 : 1; - if (value.e >= 0) { - numerator = value.f; - numerator <<= value.e + shift; - lower = 1; - lower <<= value.e; - if (is_predecessor_closer) { - upper_store = 1; - upper_store <<= value.e + 1; - upper = &upper_store; - } - denominator.assign_pow10(exp10); - denominator <<= shift; - } else if (exp10 < 0) { - numerator.assign_pow10(-exp10); - lower.assign(numerator); - if (is_predecessor_closer) { - upper_store.assign(numerator); - upper_store <<= 1; - upper = &upper_store; - } - numerator *= value.f; - numerator <<= shift; - denominator = 1; - denominator <<= shift - value.e; - } else { - numerator = value.f; - numerator <<= shift; - denominator.assign_pow10(exp10); - denominator <<= shift - value.e; - lower = 1; - if (is_predecessor_closer) { - upper_store = 1ULL << 1; - upper = &upper_store; - } - } - int even = static_cast((value.f & 1) == 0); - if (!upper) upper = &lower; - bool shortest = num_digits < 0; - if ((flags & dragon::fixup) != 0) { - if (add_compare(numerator, *upper, denominator) + even <= 0) { - --exp10; - numerator *= 10; - if (num_digits < 0) { - lower *= 10; - if (upper != &lower) *upper *= 10; - } - } - if ((flags & dragon::fixed) != 0) adjust_precision(num_digits, exp10 + 1); - } - // Invariant: value == (numerator / denominator) * pow(10, exp10). - if (shortest) { - // Generate the shortest representation. - num_digits = 0; - char* data = buf.data(); - for (;;) { - int digit = numerator.divmod_assign(denominator); - bool low = compare(numerator, lower) - even < 0; // numerator <[=] lower. - // numerator + upper >[=] pow10: - bool high = add_compare(numerator, *upper, denominator) + even > 0; - data[num_digits++] = static_cast('0' + digit); - if (low || high) { - if (!low) { - ++data[num_digits - 1]; - } else if (high) { - int result = add_compare(numerator, numerator, denominator); - // Round half to even. - if (result > 0 || (result == 0 && (digit % 2) != 0)) - ++data[num_digits - 1]; - } - buf.try_resize(to_unsigned(num_digits)); - exp10 -= num_digits - 1; - return; - } - numerator *= 10; - lower *= 10; - if (upper != &lower) *upper *= 10; - } - } - // Generate the given number of digits. - exp10 -= num_digits - 1; - if (num_digits <= 0) { - denominator *= 10; - auto digit = add_compare(numerator, numerator, denominator) > 0 ? '1' : '0'; - buf.push_back(digit); - return; - } - buf.try_resize(to_unsigned(num_digits)); - for (int i = 0; i < num_digits - 1; ++i) { - int digit = numerator.divmod_assign(denominator); - buf[i] = static_cast('0' + digit); - numerator *= 10; - } - int digit = numerator.divmod_assign(denominator); - auto result = add_compare(numerator, numerator, denominator); - if (result > 0 || (result == 0 && (digit % 2) != 0)) { - if (digit == 9) { - const auto overflow = '0' + 10; - buf[num_digits - 1] = overflow; - // Propagate the carry. - for (int i = num_digits - 1; i > 0 && buf[i] == overflow; --i) { - buf[i] = '0'; - ++buf[i - 1]; - } - if (buf[0] == overflow) { - buf[0] = '1'; - if ((flags & dragon::fixed) != 0) - buf.push_back('0'); - else - ++exp10; - } - return; - } - ++digit; - } - buf[num_digits - 1] = static_cast('0' + digit); -} - -// Formats a floating-point number using the hexfloat format. -template ::value)> -FMT_CONSTEXPR20 void format_hexfloat(Float value, int precision, - float_specs specs, buffer& buf) { - // float is passed as double to reduce the number of instantiations and to - // simplify implementation. - static_assert(!std::is_same::value, ""); - - using info = dragonbox::float_info; - - // Assume Float is in the format [sign][exponent][significand]. - using carrier_uint = typename info::carrier_uint; - - constexpr auto num_float_significand_bits = - detail::num_significand_bits(); - - basic_fp f(value); - f.e += num_float_significand_bits; - if (!has_implicit_bit()) --f.e; - - constexpr auto num_fraction_bits = - num_float_significand_bits + (has_implicit_bit() ? 1 : 0); - constexpr auto num_xdigits = (num_fraction_bits + 3) / 4; - - constexpr auto leading_shift = ((num_xdigits - 1) * 4); - const auto leading_mask = carrier_uint(0xF) << leading_shift; - const auto leading_xdigit = - static_cast((f.f & leading_mask) >> leading_shift); - if (leading_xdigit > 1) f.e -= (32 - countl_zero(leading_xdigit) - 1); - - int print_xdigits = num_xdigits - 1; - if (precision >= 0 && print_xdigits > precision) { - const int shift = ((print_xdigits - precision - 1) * 4); - const auto mask = carrier_uint(0xF) << shift; - const auto v = static_cast((f.f & mask) >> shift); - - if (v >= 8) { - const auto inc = carrier_uint(1) << (shift + 4); - f.f += inc; - f.f &= ~(inc - 1); - } - - // Check long double overflow - if (!has_implicit_bit()) { - const auto implicit_bit = carrier_uint(1) << num_float_significand_bits; - if ((f.f & implicit_bit) == implicit_bit) { - f.f >>= 4; - f.e += 4; - } - } - - print_xdigits = precision; - } - - char xdigits[num_bits() / 4]; - detail::fill_n(xdigits, sizeof(xdigits), '0'); - format_uint<4>(xdigits, f.f, num_xdigits, specs.upper); - - // Remove zero tail - while (print_xdigits > 0 && xdigits[print_xdigits] == '0') --print_xdigits; - - buf.push_back('0'); - buf.push_back(specs.upper ? 'X' : 'x'); - buf.push_back(xdigits[0]); - if (specs.showpoint || print_xdigits > 0 || print_xdigits < precision) - buf.push_back('.'); - buf.append(xdigits + 1, xdigits + 1 + print_xdigits); - for (; print_xdigits < precision; ++print_xdigits) buf.push_back('0'); - - buf.push_back(specs.upper ? 'P' : 'p'); - - uint32_t abs_e; - if (f.e < 0) { - buf.push_back('-'); - abs_e = static_cast(-f.e); - } else { - buf.push_back('+'); - abs_e = static_cast(f.e); - } - format_decimal(appender(buf), abs_e, detail::count_digits(abs_e)); -} - -template ::value)> -FMT_CONSTEXPR20 void format_hexfloat(Float value, int precision, - float_specs specs, buffer& buf) { - format_hexfloat(static_cast(value), precision, specs, buf); -} - -constexpr auto fractional_part_rounding_thresholds(int index) -> uint32_t { - // For checking rounding thresholds. - // The kth entry is chosen to be the smallest integer such that the - // upper 32-bits of 10^(k+1) times it is strictly bigger than 5 * 10^k. - // It is equal to ceil(2^31 + 2^32/10^(k + 1)). - // These are stored in a string literal because we cannot have static arrays - // in constexpr functions and non-static ones are poorly optimized. - return U"\x9999999a\x828f5c29\x80418938\x80068db9\x8000a7c6\x800010c7" - U"\x800001ae\x8000002b"[index]; -} - -template -FMT_CONSTEXPR20 auto format_float(Float value, int precision, float_specs specs, - buffer& buf) -> int { - // float is passed as double to reduce the number of instantiations. - static_assert(!std::is_same::value, ""); - FMT_ASSERT(value >= 0, "value is negative"); - auto converted_value = convert_float(value); - - const bool fixed = specs.format == float_format::fixed; - if (value <= 0) { // <= instead of == to silence a warning. - if (precision <= 0 || !fixed) { - buf.push_back('0'); - return 0; - } - buf.try_resize(to_unsigned(precision)); - fill_n(buf.data(), precision, '0'); - return -precision; - } - - int exp = 0; - bool use_dragon = true; - unsigned dragon_flags = 0; - if (!is_fast_float() || is_constant_evaluated()) { - const auto inv_log2_10 = 0.3010299956639812; // 1 / log2(10) - using info = dragonbox::float_info; - const auto f = basic_fp(converted_value); - // Compute exp, an approximate power of 10, such that - // 10^(exp - 1) <= value < 10^exp or 10^exp <= value < 10^(exp + 1). - // This is based on log10(value) == log2(value) / log2(10) and approximation - // of log2(value) by e + num_fraction_bits idea from double-conversion. - auto e = (f.e + count_digits<1>(f.f) - 1) * inv_log2_10 - 1e-10; - exp = static_cast(e); - if (e > exp) ++exp; // Compute ceil. - dragon_flags = dragon::fixup; - } else if (precision < 0) { - // Use Dragonbox for the shortest format. - if (specs.binary32) { - auto dec = dragonbox::to_decimal(static_cast(value)); - write(buffer_appender(buf), dec.significand); - return dec.exponent; - } - auto dec = dragonbox::to_decimal(static_cast(value)); - write(buffer_appender(buf), dec.significand); - return dec.exponent; - } else { - // Extract significand bits and exponent bits. - using info = dragonbox::float_info; - auto br = bit_cast(static_cast(value)); - - const uint64_t significand_mask = - (static_cast(1) << num_significand_bits()) - 1; - uint64_t significand = (br & significand_mask); - int exponent = static_cast((br & exponent_mask()) >> - num_significand_bits()); - - if (exponent != 0) { // Check if normal. - exponent -= exponent_bias() + num_significand_bits(); - significand |= - (static_cast(1) << num_significand_bits()); - significand <<= 1; - } else { - // Normalize subnormal inputs. - FMT_ASSERT(significand != 0, "zeros should not appear here"); - int shift = countl_zero(significand); - FMT_ASSERT(shift >= num_bits() - num_significand_bits(), - ""); - shift -= (num_bits() - num_significand_bits() - 2); - exponent = (std::numeric_limits::min_exponent - - num_significand_bits()) - - shift; - significand <<= shift; - } - - // Compute the first several nonzero decimal significand digits. - // We call the number we get the first segment. - const int k = info::kappa - dragonbox::floor_log10_pow2(exponent); - exp = -k; - const int beta = exponent + dragonbox::floor_log2_pow10(k); - uint64_t first_segment; - bool has_more_segments; - int digits_in_the_first_segment; - { - const auto r = dragonbox::umul192_upper128( - significand << beta, dragonbox::get_cached_power(k)); - first_segment = r.high(); - has_more_segments = r.low() != 0; - - // The first segment can have 18 ~ 19 digits. - if (first_segment >= 1000000000000000000ULL) { - digits_in_the_first_segment = 19; - } else { - // When it is of 18-digits, we align it to 19-digits by adding a bogus - // zero at the end. - digits_in_the_first_segment = 18; - first_segment *= 10; - } - } - - // Compute the actual number of decimal digits to print. - if (fixed) adjust_precision(precision, exp + digits_in_the_first_segment); - - // Use Dragon4 only when there might be not enough digits in the first - // segment. - if (digits_in_the_first_segment > precision) { - use_dragon = false; - - if (precision <= 0) { - exp += digits_in_the_first_segment; - - if (precision < 0) { - // Nothing to do, since all we have are just leading zeros. - buf.try_resize(0); - } else { - // We may need to round-up. - buf.try_resize(1); - if ((first_segment | static_cast(has_more_segments)) > - 5000000000000000000ULL) { - buf[0] = '1'; - } else { - buf[0] = '0'; - } - } - } // precision <= 0 - else { - exp += digits_in_the_first_segment - precision; - - // When precision > 0, we divide the first segment into three - // subsegments, each with 9, 9, and 0 ~ 1 digits so that each fits - // in 32-bits which usually allows faster calculation than in - // 64-bits. Since some compiler (e.g. MSVC) doesn't know how to optimize - // division-by-constant for large 64-bit divisors, we do it here - // manually. The magic number 7922816251426433760 below is equal to - // ceil(2^(64+32) / 10^10). - const uint32_t first_subsegment = static_cast( - dragonbox::umul128_upper64(first_segment, 7922816251426433760ULL) >> - 32); - const uint64_t second_third_subsegments = - first_segment - first_subsegment * 10000000000ULL; - - uint64_t prod; - uint32_t digits; - bool should_round_up; - int number_of_digits_to_print = precision > 9 ? 9 : precision; - - // Print a 9-digits subsegment, either the first or the second. - auto print_subsegment = [&](uint32_t subsegment, char* buffer) { - int number_of_digits_printed = 0; - - // If we want to print an odd number of digits from the subsegment, - if ((number_of_digits_to_print & 1) != 0) { - // Convert to 64-bit fixed-point fractional form with 1-digit - // integer part. The magic number 720575941 is a good enough - // approximation of 2^(32 + 24) / 10^8; see - // https://jk-jeon.github.io/posts/2022/12/fixed-precision-formatting/#fixed-length-case - // for details. - prod = ((subsegment * static_cast(720575941)) >> 24) + 1; - digits = static_cast(prod >> 32); - *buffer = static_cast('0' + digits); - number_of_digits_printed++; - } - // If we want to print an even number of digits from the - // first_subsegment, - else { - // Convert to 64-bit fixed-point fractional form with 2-digits - // integer part. The magic number 450359963 is a good enough - // approximation of 2^(32 + 20) / 10^7; see - // https://jk-jeon.github.io/posts/2022/12/fixed-precision-formatting/#fixed-length-case - // for details. - prod = ((subsegment * static_cast(450359963)) >> 20) + 1; - digits = static_cast(prod >> 32); - copy2(buffer, digits2(digits)); - number_of_digits_printed += 2; - } - - // Print all digit pairs. - while (number_of_digits_printed < number_of_digits_to_print) { - prod = static_cast(prod) * static_cast(100); - digits = static_cast(prod >> 32); - copy2(buffer + number_of_digits_printed, digits2(digits)); - number_of_digits_printed += 2; - } - }; - - // Print first subsegment. - print_subsegment(first_subsegment, buf.data()); - - // Perform rounding if the first subsegment is the last subsegment to - // print. - if (precision <= 9) { - // Rounding inside the subsegment. - // We round-up if: - // - either the fractional part is strictly larger than 1/2, or - // - the fractional part is exactly 1/2 and the last digit is odd. - // We rely on the following observations: - // - If fractional_part >= threshold, then the fractional part is - // strictly larger than 1/2. - // - If the MSB of fractional_part is set, then the fractional part - // must be at least 1/2. - // - When the MSB of fractional_part is set, either - // second_third_subsegments being nonzero or has_more_segments - // being true means there are further digits not printed, so the - // fractional part is strictly larger than 1/2. - if (precision < 9) { - uint32_t fractional_part = static_cast(prod); - should_round_up = - fractional_part >= fractional_part_rounding_thresholds( - 8 - number_of_digits_to_print) || - ((fractional_part >> 31) & - ((digits & 1) | (second_third_subsegments != 0) | - has_more_segments)) != 0; - } - // Rounding at the subsegment boundary. - // In this case, the fractional part is at least 1/2 if and only if - // second_third_subsegments >= 5000000000ULL, and is strictly larger - // than 1/2 if we further have either second_third_subsegments > - // 5000000000ULL or has_more_segments == true. - else { - should_round_up = second_third_subsegments > 5000000000ULL || - (second_third_subsegments == 5000000000ULL && - ((digits & 1) != 0 || has_more_segments)); - } - } - // Otherwise, print the second subsegment. - else { - // Compilers are not aware of how to leverage the maximum value of - // second_third_subsegments to find out a better magic number which - // allows us to eliminate an additional shift. 1844674407370955162 = - // ceil(2^64/10) < ceil(2^64*(10^9/(10^10 - 1))). - const uint32_t second_subsegment = - static_cast(dragonbox::umul128_upper64( - second_third_subsegments, 1844674407370955162ULL)); - const uint32_t third_subsegment = - static_cast(second_third_subsegments) - - second_subsegment * 10; - - number_of_digits_to_print = precision - 9; - print_subsegment(second_subsegment, buf.data() + 9); - - // Rounding inside the subsegment. - if (precision < 18) { - // The condition third_subsegment != 0 implies that the segment was - // of 19 digits, so in this case the third segment should be - // consisting of a genuine digit from the input. - uint32_t fractional_part = static_cast(prod); - should_round_up = - fractional_part >= fractional_part_rounding_thresholds( - 8 - number_of_digits_to_print) || - ((fractional_part >> 31) & - ((digits & 1) | (third_subsegment != 0) | - has_more_segments)) != 0; - } - // Rounding at the subsegment boundary. - else { - // In this case, the segment must be of 19 digits, thus - // the third subsegment should be consisting of a genuine digit from - // the input. - should_round_up = third_subsegment > 5 || - (third_subsegment == 5 && - ((digits & 1) != 0 || has_more_segments)); - } - } - - // Round-up if necessary. - if (should_round_up) { - ++buf[precision - 1]; - for (int i = precision - 1; i > 0 && buf[i] > '9'; --i) { - buf[i] = '0'; - ++buf[i - 1]; - } - if (buf[0] > '9') { - buf[0] = '1'; - if (fixed) - buf[precision++] = '0'; - else - ++exp; - } - } - buf.try_resize(to_unsigned(precision)); - } - } // if (digits_in_the_first_segment > precision) - else { - // Adjust the exponent for its use in Dragon4. - exp += digits_in_the_first_segment - 1; - } - } - if (use_dragon) { - auto f = basic_fp(); - bool is_predecessor_closer = specs.binary32 - ? f.assign(static_cast(value)) - : f.assign(converted_value); - if (is_predecessor_closer) dragon_flags |= dragon::predecessor_closer; - if (fixed) dragon_flags |= dragon::fixed; - // Limit precision to the maximum possible number of significant digits in - // an IEEE754 double because we don't need to generate zeros. - const int max_double_digits = 767; - if (precision > max_double_digits) precision = max_double_digits; - format_dragon(f, dragon_flags, precision, buf, exp); - } - if (!fixed && !specs.showpoint) { - // Remove trailing zeros. - auto num_digits = buf.size(); - while (num_digits > 0 && buf[num_digits - 1] == '0') { - --num_digits; - ++exp; - } - buf.try_resize(num_digits); - } - return exp; -} -template -FMT_CONSTEXPR20 auto write_float(OutputIt out, T value, - format_specs specs, locale_ref loc) - -> OutputIt { - float_specs fspecs = parse_float_type_spec(specs); - fspecs.sign = specs.sign; - if (detail::signbit(value)) { // value < 0 is false for NaN so use signbit. - fspecs.sign = sign::minus; - value = -value; - } else if (fspecs.sign == sign::minus) { - fspecs.sign = sign::none; - } - - if (!detail::isfinite(value)) - return write_nonfinite(out, detail::isnan(value), specs, fspecs); - - if (specs.align == align::numeric && fspecs.sign) { - auto it = reserve(out, 1); - *it++ = detail::sign(fspecs.sign); - out = base_iterator(out, it); - fspecs.sign = sign::none; - if (specs.width != 0) --specs.width; - } - - memory_buffer buffer; - if (fspecs.format == float_format::hex) { - if (fspecs.sign) buffer.push_back(detail::sign(fspecs.sign)); - format_hexfloat(convert_float(value), specs.precision, fspecs, buffer); - return write_bytes(out, {buffer.data(), buffer.size()}, - specs); - } - int precision = specs.precision >= 0 || specs.type == presentation_type::none - ? specs.precision - : 6; - if (fspecs.format == float_format::exp) { - if (precision == max_value()) - throw_format_error("number is too big"); - else - ++precision; - } else if (fspecs.format != float_format::fixed && precision == 0) { - precision = 1; - } - if (const_check(std::is_same())) fspecs.binary32 = true; - int exp = format_float(convert_float(value), precision, fspecs, buffer); - fspecs.precision = precision; - auto f = big_decimal_fp{buffer.data(), static_cast(buffer.size()), exp}; - return write_float(out, f, specs, fspecs, loc); -} - -template ::value)> -FMT_CONSTEXPR20 auto write(OutputIt out, T value, format_specs specs, - locale_ref loc = {}) -> OutputIt { - if (const_check(!is_supported_floating_point(value))) return out; - return specs.localized && write_loc(out, value, specs, loc) - ? out - : write_float(out, value, specs, loc); -} - -template ::value)> -FMT_CONSTEXPR20 auto write(OutputIt out, T value) -> OutputIt { - if (is_constant_evaluated()) return write(out, value, format_specs()); - if (const_check(!is_supported_floating_point(value))) return out; - - auto fspecs = float_specs(); - if (detail::signbit(value)) { - fspecs.sign = sign::minus; - value = -value; - } - - constexpr auto specs = format_specs(); - using floaty = conditional_t::value, double, T>; - using floaty_uint = typename dragonbox::float_info::carrier_uint; - floaty_uint mask = exponent_mask(); - if ((bit_cast(value) & mask) == mask) - return write_nonfinite(out, std::isnan(value), specs, fspecs); - - auto dec = dragonbox::to_decimal(static_cast(value)); - return write_float(out, dec, specs, fspecs, {}); -} - -template ::value && - !is_fast_float::value)> -inline auto write(OutputIt out, T value) -> OutputIt { - return write(out, value, format_specs()); -} - -template -auto write(OutputIt out, monostate, format_specs = {}, locale_ref = {}) - -> OutputIt { - FMT_ASSERT(false, ""); - return out; -} - -template -FMT_CONSTEXPR auto write(OutputIt out, basic_string_view value) - -> OutputIt { - auto it = reserve(out, value.size()); - it = copy_str_noinline(value.begin(), value.end(), it); - return base_iterator(out, it); -} - -template ::value)> -constexpr auto write(OutputIt out, const T& value) -> OutputIt { - return write(out, to_string_view(value)); -} - -// FMT_ENABLE_IF() condition separated to workaround an MSVC bug. -template < - typename Char, typename OutputIt, typename T, - bool check = - std::is_enum::value && !std::is_same::value && - mapped_type_constant>::value != - type::custom_type, - FMT_ENABLE_IF(check)> -FMT_CONSTEXPR auto write(OutputIt out, T value) -> OutputIt { - return write(out, static_cast>(value)); -} - -template ::value)> -FMT_CONSTEXPR auto write(OutputIt out, T value, - const format_specs& specs = {}, locale_ref = {}) - -> OutputIt { - return specs.type != presentation_type::none && - specs.type != presentation_type::string - ? write(out, value ? 1 : 0, specs, {}) - : write_bytes(out, value ? "true" : "false", specs); -} - -template -FMT_CONSTEXPR auto write(OutputIt out, Char value) -> OutputIt { - auto it = reserve(out, 1); - *it++ = value; - return base_iterator(out, it); -} - -template -FMT_CONSTEXPR_CHAR_TRAITS auto write(OutputIt out, const Char* value) - -> OutputIt { - if (value) return write(out, basic_string_view(value)); - throw_format_error("string pointer is null"); - return out; -} - -template ::value)> -auto write(OutputIt out, const T* value, const format_specs& specs = {}, - locale_ref = {}) -> OutputIt { - return write_ptr(out, bit_cast(value), &specs); -} - -// A write overload that handles implicit conversions. -template > -FMT_CONSTEXPR auto write(OutputIt out, const T& value) -> enable_if_t< - std::is_class::value && !is_string::value && - !is_floating_point::value && !std::is_same::value && - !std::is_same().map( - value))>>::value, - OutputIt> { - return write(out, arg_mapper().map(value)); -} - -template > -FMT_CONSTEXPR auto write(OutputIt out, const T& value) - -> enable_if_t::value == type::custom_type, - OutputIt> { - auto formatter = typename Context::template formatter_type(); - auto parse_ctx = typename Context::parse_context_type({}); - formatter.parse(parse_ctx); - auto ctx = Context(out, {}, {}); - return formatter.format(value, ctx); -} - -// An argument visitor that formats the argument and writes it via the output -// iterator. It's a class and not a generic lambda for compatibility with C++11. -template struct default_arg_formatter { - using iterator = buffer_appender; - using context = buffer_context; - - iterator out; - basic_format_args args; - locale_ref loc; - - template auto operator()(T value) -> iterator { - return write(out, value); - } - auto operator()(typename basic_format_arg::handle h) -> iterator { - basic_format_parse_context parse_ctx({}); - context format_ctx(out, args, loc); - h.format(parse_ctx, format_ctx); - return format_ctx.out(); - } -}; - -template struct arg_formatter { - using iterator = buffer_appender; - using context = buffer_context; - - iterator out; - const format_specs& specs; - locale_ref locale; - - template - FMT_CONSTEXPR FMT_INLINE auto operator()(T value) -> iterator { - return detail::write(out, value, specs, locale); - } - auto operator()(typename basic_format_arg::handle) -> iterator { - // User-defined types are handled separately because they require access - // to the parse context. - return out; - } -}; - -struct width_checker { - template ::value)> - FMT_CONSTEXPR auto operator()(T value) -> unsigned long long { - if (is_negative(value)) throw_format_error("negative width"); - return static_cast(value); - } - - template ::value)> - FMT_CONSTEXPR auto operator()(T) -> unsigned long long { - throw_format_error("width is not integer"); - return 0; - } -}; - -struct precision_checker { - template ::value)> - FMT_CONSTEXPR auto operator()(T value) -> unsigned long long { - if (is_negative(value)) throw_format_error("negative precision"); - return static_cast(value); - } - - template ::value)> - FMT_CONSTEXPR auto operator()(T) -> unsigned long long { - throw_format_error("precision is not integer"); - return 0; - } -}; - -template -FMT_CONSTEXPR auto get_dynamic_spec(FormatArg arg) -> int { - unsigned long long value = visit_format_arg(Handler(), arg); - if (value > to_unsigned(max_value())) - throw_format_error("number is too big"); - return static_cast(value); -} - -template -FMT_CONSTEXPR auto get_arg(Context& ctx, ID id) -> decltype(ctx.arg(id)) { - auto arg = ctx.arg(id); - if (!arg) ctx.on_error("argument not found"); - return arg; -} - -template -FMT_CONSTEXPR void handle_dynamic_spec(int& value, - arg_ref ref, - Context& ctx) { - switch (ref.kind) { - case arg_id_kind::none: - break; - case arg_id_kind::index: - value = detail::get_dynamic_spec(get_arg(ctx, ref.val.index)); - break; - case arg_id_kind::name: - value = detail::get_dynamic_spec(get_arg(ctx, ref.val.name)); - break; - } -} - -#if FMT_USE_USER_DEFINED_LITERALS -# if FMT_USE_NONTYPE_TEMPLATE_ARGS -template Str> -struct statically_named_arg : view { - static constexpr auto name = Str.data; - - const T& value; - statically_named_arg(const T& v) : value(v) {} -}; - -template Str> -struct is_named_arg> : std::true_type {}; - -template Str> -struct is_statically_named_arg> - : std::true_type {}; - -template Str> -struct udl_arg { - template auto operator=(T&& value) const { - return statically_named_arg(std::forward(value)); - } -}; -# else -template struct udl_arg { - const Char* str; - - template auto operator=(T&& value) const -> named_arg { - return {str, std::forward(value)}; - } -}; -# endif -#endif // FMT_USE_USER_DEFINED_LITERALS - -template -auto vformat(const Locale& loc, basic_string_view fmt, - basic_format_args>> args) - -> std::basic_string { - auto buf = basic_memory_buffer(); - detail::vformat_to(buf, fmt, args, detail::locale_ref(loc)); - return {buf.data(), buf.size()}; -} - -using format_func = void (*)(detail::buffer&, int, const char*); - -FMT_API void format_error_code(buffer& out, int error_code, - string_view message) noexcept; - -FMT_API void report_error(format_func func, int error_code, - const char* message) noexcept; -} // namespace detail - -FMT_API auto vsystem_error(int error_code, string_view format_str, - format_args args) -> std::system_error; - -/** - \rst - Constructs :class:`std::system_error` with a message formatted with - ``fmt::format(fmt, args...)``. - *error_code* is a system error code as given by ``errno``. - - **Example**:: - - // This throws std::system_error with the description - // cannot open file 'madeup': No such file or directory - // or similar (system message may vary). - const char* filename = "madeup"; - std::FILE* file = std::fopen(filename, "r"); - if (!file) - throw fmt::system_error(errno, "cannot open file '{}'", filename); - \endrst - */ -template -auto system_error(int error_code, format_string fmt, T&&... args) - -> std::system_error { - return vsystem_error(error_code, fmt, fmt::make_format_args(args...)); -} - -/** - \rst - Formats an error message for an error returned by an operating system or a - language runtime, for example a file opening error, and writes it to *out*. - The format is the same as the one used by ``std::system_error(ec, message)`` - where ``ec`` is ``std::error_code(error_code, std::generic_category()})``. - It is implementation-defined but normally looks like: - - .. parsed-literal:: - **: ** - - where ** is the passed message and ** is the system - message corresponding to the error code. - *error_code* is a system error code as given by ``errno``. - \endrst - */ -FMT_API void format_system_error(detail::buffer& out, int error_code, - const char* message) noexcept; - -// Reports a system error without throwing an exception. -// Can be used to report errors from destructors. -FMT_API void report_system_error(int error_code, const char* message) noexcept; - -/** Fast integer formatter. */ -class format_int { - private: - // Buffer should be large enough to hold all digits (digits10 + 1), - // a sign and a null character. - enum { buffer_size = std::numeric_limits::digits10 + 3 }; - mutable char buffer_[buffer_size]; - char* str_; - - template auto format_unsigned(UInt value) -> char* { - auto n = static_cast>(value); - return detail::format_decimal(buffer_, n, buffer_size - 1).begin; - } - - template auto format_signed(Int value) -> char* { - auto abs_value = static_cast>(value); - bool negative = value < 0; - if (negative) abs_value = 0 - abs_value; - auto begin = format_unsigned(abs_value); - if (negative) *--begin = '-'; - return begin; - } - - public: - explicit format_int(int value) : str_(format_signed(value)) {} - explicit format_int(long value) : str_(format_signed(value)) {} - explicit format_int(long long value) : str_(format_signed(value)) {} - explicit format_int(unsigned value) : str_(format_unsigned(value)) {} - explicit format_int(unsigned long value) : str_(format_unsigned(value)) {} - explicit format_int(unsigned long long value) - : str_(format_unsigned(value)) {} - - /** Returns the number of characters written to the output buffer. */ - auto size() const -> size_t { - return detail::to_unsigned(buffer_ - str_ + buffer_size - 1); - } - - /** - Returns a pointer to the output buffer content. No terminating null - character is appended. - */ - auto data() const -> const char* { return str_; } - - /** - Returns a pointer to the output buffer content with terminating null - character appended. - */ - auto c_str() const -> const char* { - buffer_[buffer_size - 1] = '\0'; - return str_; - } - - /** - \rst - Returns the content of the output buffer as an ``std::string``. - \endrst - */ - auto str() const -> std::string { return std::string(str_, size()); } -}; - -template -struct formatter::value>> - : formatter, Char> { - template - auto format(const T& value, FormatContext& ctx) const -> decltype(ctx.out()) { - using base = formatter, Char>; - return base::format(format_as(value), ctx); - } -}; - -#define FMT_FORMAT_AS(Type, Base) \ - template \ - struct formatter : formatter {} - -FMT_FORMAT_AS(signed char, int); -FMT_FORMAT_AS(unsigned char, unsigned); -FMT_FORMAT_AS(short, int); -FMT_FORMAT_AS(unsigned short, unsigned); -FMT_FORMAT_AS(long, detail::long_type); -FMT_FORMAT_AS(unsigned long, detail::ulong_type); -FMT_FORMAT_AS(Char*, const Char*); -FMT_FORMAT_AS(std::basic_string, basic_string_view); -FMT_FORMAT_AS(std::nullptr_t, const void*); -FMT_FORMAT_AS(detail::std_string_view, basic_string_view); -FMT_FORMAT_AS(void*, const void*); - -template -struct formatter : formatter, Char> {}; - -/** - \rst - Converts ``p`` to ``const void*`` for pointer formatting. - - **Example**:: - - auto s = fmt::format("{}", fmt::ptr(p)); - \endrst - */ -template auto ptr(T p) -> const void* { - static_assert(std::is_pointer::value, ""); - return detail::bit_cast(p); -} -template -auto ptr(const std::unique_ptr& p) -> const void* { - return p.get(); -} -template auto ptr(const std::shared_ptr& p) -> const void* { - return p.get(); -} - -/** - \rst - Converts ``e`` to the underlying type. - - **Example**:: - - enum class color { red, green, blue }; - auto s = fmt::format("{}", fmt::underlying(color::red)); - \endrst - */ -template -constexpr auto underlying(Enum e) noexcept -> underlying_t { - return static_cast>(e); -} - -namespace enums { -template ::value)> -constexpr auto format_as(Enum e) noexcept -> underlying_t { - return static_cast>(e); -} -} // namespace enums - -class bytes { - private: - string_view data_; - friend struct formatter; - - public: - explicit bytes(string_view data) : data_(data) {} -}; - -template <> struct formatter { - private: - detail::dynamic_format_specs<> specs_; - - public: - template - FMT_CONSTEXPR auto parse(ParseContext& ctx) -> const char* { - return parse_format_specs(ctx.begin(), ctx.end(), specs_, ctx, - detail::type::string_type); - } - - template - auto format(bytes b, FormatContext& ctx) -> decltype(ctx.out()) { - detail::handle_dynamic_spec(specs_.width, - specs_.width_ref, ctx); - detail::handle_dynamic_spec( - specs_.precision, specs_.precision_ref, ctx); - return detail::write_bytes(ctx.out(), b.data_, specs_); - } -}; - -// group_digits_view is not derived from view because it copies the argument. -template struct group_digits_view { - T value; -}; - -/** - \rst - Returns a view that formats an integer value using ',' as a locale-independent - thousands separator. - - **Example**:: - - fmt::print("{}", fmt::group_digits(12345)); - // Output: "12,345" - \endrst - */ -template auto group_digits(T value) -> group_digits_view { - return {value}; -} - -template struct formatter> : formatter { - private: - detail::dynamic_format_specs<> specs_; - - public: - template - FMT_CONSTEXPR auto parse(ParseContext& ctx) -> const char* { - return parse_format_specs(ctx.begin(), ctx.end(), specs_, ctx, - detail::type::int_type); - } - - template - auto format(group_digits_view t, FormatContext& ctx) - -> decltype(ctx.out()) { - detail::handle_dynamic_spec(specs_.width, - specs_.width_ref, ctx); - detail::handle_dynamic_spec( - specs_.precision, specs_.precision_ref, ctx); - return detail::write_int( - ctx.out(), static_cast>(t.value), 0, specs_, - detail::digit_grouping("\3", ",")); - } -}; - -template struct nested_view { - const formatter* fmt; - const T* value; -}; - -template struct formatter> { - FMT_CONSTEXPR auto parse(format_parse_context& ctx) -> const char* { - return ctx.begin(); - } - auto format(nested_view view, format_context& ctx) const - -> decltype(ctx.out()) { - return view.fmt->format(*view.value, ctx); - } -}; - -template struct nested_formatter { - private: - int width_; - detail::fill_t fill_; - align_t align_ : 4; - formatter formatter_; - - public: - constexpr nested_formatter() : width_(0), align_(align_t::none) {} - - FMT_CONSTEXPR auto parse(format_parse_context& ctx) -> const char* { - auto specs = detail::dynamic_format_specs(); - auto it = parse_format_specs(ctx.begin(), ctx.end(), specs, ctx, - detail::type::none_type); - width_ = specs.width; - fill_ = specs.fill; - align_ = specs.align; - ctx.advance_to(it); - return formatter_.parse(ctx); - } - - template - auto write_padded(format_context& ctx, F write) const -> decltype(ctx.out()) { - if (width_ == 0) return write(ctx.out()); - auto buf = memory_buffer(); - write(std::back_inserter(buf)); - auto specs = format_specs<>(); - specs.width = width_; - specs.fill = fill_; - specs.align = align_; - return detail::write(ctx.out(), string_view(buf.data(), buf.size()), specs); - } - - auto nested(const T& value) const -> nested_view { - return nested_view{&formatter_, &value}; - } -}; - -// DEPRECATED! join_view will be moved to ranges.h. -template -struct join_view : detail::view { - It begin; - Sentinel end; - basic_string_view sep; - - join_view(It b, Sentinel e, basic_string_view s) - : begin(b), end(e), sep(s) {} -}; - -template -struct formatter, Char> { - private: - using value_type = -#ifdef __cpp_lib_ranges - std::iter_value_t; -#else - typename std::iterator_traits::value_type; -#endif - formatter, Char> value_formatter_; - - public: - template - FMT_CONSTEXPR auto parse(ParseContext& ctx) -> const Char* { - return value_formatter_.parse(ctx); - } - - template - auto format(const join_view& value, - FormatContext& ctx) const -> decltype(ctx.out()) { - auto it = value.begin; - auto out = ctx.out(); - if (it != value.end) { - out = value_formatter_.format(*it, ctx); - ++it; - while (it != value.end) { - out = detail::copy_str(value.sep.begin(), value.sep.end(), out); - ctx.advance_to(out); - out = value_formatter_.format(*it, ctx); - ++it; - } - } - return out; - } -}; - -/** - Returns a view that formats the iterator range `[begin, end)` with elements - separated by `sep`. - */ -template -auto join(It begin, Sentinel end, string_view sep) -> join_view { - return {begin, end, sep}; -} - -/** - \rst - Returns a view that formats `range` with elements separated by `sep`. - - **Example**:: - - std::vector v = {1, 2, 3}; - fmt::print("{}", fmt::join(v, ", ")); - // Output: "1, 2, 3" - - ``fmt::join`` applies passed format specifiers to the range elements:: - - fmt::print("{:02}", fmt::join(v, ", ")); - // Output: "01, 02, 03" - \endrst - */ -template -auto join(Range&& range, string_view sep) - -> join_view, detail::sentinel_t> { - return join(std::begin(range), std::end(range), sep); -} - -/** - \rst - Converts *value* to ``std::string`` using the default format for type *T*. - - **Example**:: - - #include - - std::string answer = fmt::to_string(42); - \endrst - */ -template ::value && - !detail::has_format_as::value)> -inline auto to_string(const T& value) -> std::string { - auto buffer = memory_buffer(); - detail::write(appender(buffer), value); - return {buffer.data(), buffer.size()}; -} - -template ::value)> -FMT_NODISCARD inline auto to_string(T value) -> std::string { - // The buffer should be large enough to store the number including the sign - // or "false" for bool. - constexpr int max_size = detail::digits10() + 2; - char buffer[max_size > 5 ? static_cast(max_size) : 5]; - char* begin = buffer; - return std::string(begin, detail::write(begin, value)); -} - -template -FMT_NODISCARD auto to_string(const basic_memory_buffer& buf) - -> std::basic_string { - auto size = buf.size(); - detail::assume(size < std::basic_string().max_size()); - return std::basic_string(buf.data(), size); -} - -template ::value && - detail::has_format_as::value)> -inline auto to_string(const T& value) -> std::string { - return to_string(format_as(value)); -} - -FMT_END_EXPORT - -namespace detail { - -template -void vformat_to(buffer& buf, basic_string_view fmt, - typename vformat_args::type args, locale_ref loc) { - auto out = buffer_appender(buf); - if (fmt.size() == 2 && equal2(fmt.data(), "{}")) { - auto arg = args.get(0); - if (!arg) throw_format_error("argument not found"); - visit_format_arg(default_arg_formatter{out, args, loc}, arg); - return; - } - - struct format_handler : error_handler { - basic_format_parse_context parse_context; - buffer_context context; - - format_handler(buffer_appender p_out, basic_string_view str, - basic_format_args> p_args, - locale_ref p_loc) - : parse_context(str), context(p_out, p_args, p_loc) {} - - void on_text(const Char* begin, const Char* end) { - auto text = basic_string_view(begin, to_unsigned(end - begin)); - context.advance_to(write(context.out(), text)); - } - - FMT_CONSTEXPR auto on_arg_id() -> int { - return parse_context.next_arg_id(); - } - FMT_CONSTEXPR auto on_arg_id(int id) -> int { - return parse_context.check_arg_id(id), id; - } - FMT_CONSTEXPR auto on_arg_id(basic_string_view id) -> int { - int arg_id = context.arg_id(id); - if (arg_id < 0) throw_format_error("argument not found"); - return arg_id; - } - - FMT_INLINE void on_replacement_field(int id, const Char*) { - auto arg = get_arg(context, id); - context.advance_to(visit_format_arg( - default_arg_formatter{context.out(), context.args(), - context.locale()}, - arg)); - } - - auto on_format_specs(int id, const Char* begin, const Char* end) - -> const Char* { - auto arg = get_arg(context, id); - // Not using a visitor for custom types gives better codegen. - if (arg.format_custom(begin, parse_context, context)) - return parse_context.begin(); - auto specs = detail::dynamic_format_specs(); - begin = parse_format_specs(begin, end, specs, parse_context, arg.type()); - detail::handle_dynamic_spec( - specs.width, specs.width_ref, context); - detail::handle_dynamic_spec( - specs.precision, specs.precision_ref, context); - if (begin == end || *begin != '}') - throw_format_error("missing '}' in format string"); - auto f = arg_formatter{context.out(), specs, context.locale()}; - context.advance_to(visit_format_arg(f, arg)); - return begin; - } - }; - detail::parse_format_string(fmt, format_handler(out, fmt, args, loc)); -} - -FMT_BEGIN_EXPORT - -#ifndef FMT_HEADER_ONLY -extern template FMT_API void vformat_to(buffer&, string_view, - typename vformat_args<>::type, - locale_ref); -extern template FMT_API auto thousands_sep_impl(locale_ref) - -> thousands_sep_result; -extern template FMT_API auto thousands_sep_impl(locale_ref) - -> thousands_sep_result; -extern template FMT_API auto decimal_point_impl(locale_ref) -> char; -extern template FMT_API auto decimal_point_impl(locale_ref) -> wchar_t; -#endif // FMT_HEADER_ONLY - -} // namespace detail - -#if FMT_USE_USER_DEFINED_LITERALS -inline namespace literals { -/** - \rst - User-defined literal equivalent of :func:`fmt::arg`. - - **Example**:: - - using namespace fmt::literals; - fmt::print("Elapsed time: {s:.2f} seconds", "s"_a=1.23); - \endrst - */ -# if FMT_USE_NONTYPE_TEMPLATE_ARGS -template constexpr auto operator""_a() { - using char_t = remove_cvref_t; - return detail::udl_arg(); -} -# else -constexpr auto operator""_a(const char* s, size_t) -> detail::udl_arg { - return {s}; -} -# endif -} // namespace literals -#endif // FMT_USE_USER_DEFINED_LITERALS - -template ::value)> -inline auto vformat(const Locale& loc, string_view fmt, format_args args) - -> std::string { - return detail::vformat(loc, fmt, args); -} - -template ::value)> -inline auto format(const Locale& loc, format_string fmt, T&&... args) - -> std::string { - return fmt::vformat(loc, string_view(fmt), fmt::make_format_args(args...)); -} - -template ::value&& - detail::is_locale::value)> -auto vformat_to(OutputIt out, const Locale& loc, string_view fmt, - format_args args) -> OutputIt { - using detail::get_buffer; - auto&& buf = get_buffer(out); - detail::vformat_to(buf, fmt, args, detail::locale_ref(loc)); - return detail::get_iterator(buf, out); -} - -template ::value&& - detail::is_locale::value)> -FMT_INLINE auto format_to(OutputIt out, const Locale& loc, - format_string fmt, T&&... args) -> OutputIt { - return vformat_to(out, loc, fmt, fmt::make_format_args(args...)); -} - -template ::value)> -FMT_NODISCARD FMT_INLINE auto formatted_size(const Locale& loc, - format_string fmt, - T&&... args) -> size_t { - auto buf = detail::counting_buffer<>(); - detail::vformat_to(buf, fmt, fmt::make_format_args(args...), - detail::locale_ref(loc)); - return buf.count(); -} - -FMT_END_EXPORT - -template -template -FMT_CONSTEXPR FMT_INLINE auto -formatter::value != - detail::type::custom_type>>::format(const T& val, - FormatContext& ctx) - const -> decltype(ctx.out()) { - if (specs_.width_ref.kind == detail::arg_id_kind::none && - specs_.precision_ref.kind == detail::arg_id_kind::none) { - return detail::write(ctx.out(), val, specs_, ctx.locale()); - } - auto specs = specs_; - detail::handle_dynamic_spec(specs.width, - specs.width_ref, ctx); - detail::handle_dynamic_spec( - specs.precision, specs.precision_ref, ctx); - return detail::write(ctx.out(), val, specs, ctx.locale()); -} - -FMT_END_NAMESPACE - -#ifdef FMT_HEADER_ONLY -# define FMT_FUNC inline -# include "format-inl.h" -#else -# define FMT_FUNC -#endif - -#endif // FMT_FORMAT_H_ diff --git a/vm/math.cpp b/vm/math.cpp index 0c612a55b8..ef56d265dc 100644 --- a/vm/math.cpp +++ b/vm/math.cpp @@ -3,8 +3,6 @@ #include #include -#include "fmt/format.h" - namespace factor { void factor_vm::primitive_bignum_to_fixnum() { @@ -229,33 +227,23 @@ void factor_vm::primitive_format_float() { ctx->replace(tag(array)); return; } - - if (format[0]) { - - switch (format[0]) { - case 'f': localized_stream << std::fixed; break; - case 'e': localized_stream << std::scientific; break; - } - if (isupper(format[0])) { - localized_stream << std::uppercase; - } - if (fill[0] != '\0') { - localized_stream << std::setfill(fill[0]); - } - if (width >= 0) { - localized_stream << std::setw(static_cast(width)); - } - if (precision >= 0) { - localized_stream << std::setprecision(static_cast(precision)); - } - - localized_stream << value; - - } else { - - localized_stream << fmt::format("{}", value); + switch (format[0]) { + case 'f': localized_stream << std::fixed; break; + case 'e': localized_stream << std::scientific; break; } - + if (isupper(format[0])) { + localized_stream << std::uppercase; + } + if (fill[0] != '\0') { + localized_stream << std::setfill(fill[0]); + } + if (width >= 0) { + localized_stream << std::setw(static_cast(width)); + } + if (precision >= 0) { + localized_stream << std::setprecision(static_cast(precision)); + } + localized_stream << value; const std::string& tmp = localized_stream.str(); const char* cstr = tmp.c_str(); size_t size = tmp.length();