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/AI AI 1 add D SI BL} D -/LU {BN /UI UI 1 sub D /AI AI 1 sub D SI BG{()Bm 17 get Ts mul BE}if BL} D -/OL {E BG{Tm 16 get Ts mul BE}{BN}ie TR AI NN Ty put /Ty E D NR AI NN 1 put - /AI AI 1 add D SI BL 1 Ln} D -/LO {BN /AI AI 1 sub D /Ty TR AI get D SI BG{()Bm 16 get Ts mul BE}if BL} D -/LI {E BN -1 SP /BP f D /CI 0 D 0 Np NR AI 1 sub NN get 1 eq - {dup dup 0 gt E 4 le and{/Ty E D}{pop}ie - /L1 L1 Ty AR AI NN get Ns SW pop XO sub dup 0 lt{pop 0}if add D ( ON )} - {pop ( B )}ie C1 E join /C1 E D CS Mf gt{/Mf CS D}if BL} D -/BQ {Tm 15 get Ts mul BE /BC BC 1 add D SI BL} D -/QB {Bm 15 get Ts mul BE /BC BC 1 sub D SI BL} D -/Al {E EP 1 sub dup 0 lt{pop AV AL get}if NA} D -/Ea {EP OA} D -/WB {PF{WR}{BT}ie} D -/F1 {WB /FN 0 D CS 0 FS} D -/F2 {WB /FN WI D CS 0 FS} D -/HY {/Hy t D WB /Hy f D} D -/YH {WB} D -/A {/LT E D LT 1 eq{/RN E D}if /Lh E D WB /C1 C1 ( Cp ) join D - Lc AF not and{Cl Sc}if /AF t D} D -/EA {Lc AF and{Ec}{WB}ie TL Pa AF and Lh 0 ne and - {( \() Lh join (\)) join /AF f D WB}if /AF f D} D -/TL {C1 ( Tl ) apa /C1 E D} d -/apa {AF OU and Lh 0 ne LT 1 eq or and{LT 1 eq{RN ( /) E ST cvs join} - {(\() Lh join (\)) join}ie E join join}{pop}ie} d -/Cp {/Xc CP /Yc E D D} D -/SS {Cf{dup 0 ge{EU E get dup -1 eq{pop CA CL get}if}{pop CA CL get}ie Sc} - {pop}ie SZ SL get /SL SL 1 add D} D -/I {WB 8 SS 1 FS} D -/EM {WB 8 SS /CF CF 1 xor D 0 FS} D -/BD {WB 9 SS 2 FS} D -/TT {WB 10 SS /FN Fp D 0 FS} D -/KB {WB 11 SS /FN Fp D 2 FS} D -/CT {WB 12 SS 1 FS} D -/SM {WB 13 SS /FN Fp D 0 FS} D -/Q {/QL QL 1 add D QO QL 2 mod get La get join WB} D -/EQ {QC QL 2 mod get La get join WB /QL QL 1 sub D} D -/RO {WB -1 SS /CF 0 D 0 FS} D -/SY {WB -1 SS -1 FS} D -/MY {WB -1 SS -2 FS} D -/ES {WB /SL SL 1 sub NN D /CF 0 D /FN FO SL get D SZ SL get FR SL get FS ()Ec}D -/FZ {3 sub 1.2 E exp GS mul E WB TL /C1 C1 ( Cp ) join D /SL SL 1 add D 0 FS} D -/Ef {WB TL ()ES /C1 C1 ( Cp ) join D} D -/BZ {dup /Bf E D FZ}D -/Sc {dup -1 ne Cf and{/CL CL 1 add D dup 0 eq{pop [0 0 0]}if - dup CA E CL E put VS ( VC ) join C1 E join /C1 E D}{pop}ie} D -/Ec {WB Cf{/CL CL 1 sub NN D CA CL get VS ( VC ) join C1 E join /C1 E D}if} D -/VS {dup type /arraytype eq{([) E {ST cvs join ( ) join}forall (]) join}if} D -/VC {{255 div}forall setrgbcolor} D -/Sl {dup type /integertype ne{Ds}if /La E D WB}d -/UN {WB /UF t D} D -/NU {WB /UF f D} D -/SE {WB /sF t D} D -/XE {WB /sF f D} D -/sM {/C1 C1 ( k1 ) join D}d -/eM {/C1 C1 ( k2 ) join D}d -/k1 {/YC CP E pop Ts add D /mF t D /f1 t D}d -/k2 {gsave 3 LW -9 CP E pop Ts 0.2 mul sub M -9 YC L stroke grestore /mF f D}d -/Ac {/AC E D WB}d -/Ca {eA{( \()join AC join(\) )join}if WB}d -/s {OU{gsave 0 CS .25 mul R dup SW pop CJ 0 RL stroke grestore}if}D -/CJ {AT 3 eq LB and{E dup dup length 1 sub A1 mul E - {( ) search{pop pop E A2 add E}{pop exit}ie}loop 3 -1 roll add - W CP pop sub 2 copy gt{E}if pop}if}D -/So {/Co E D} D -/SO {C1 Yo ST cvs join ( So ) join /C1 E D (j) SW pop 2 div Pd} D -/Se {E WB CS E div Pd}D -/Pd {dup type /stringtype eq{SW pop}if dup /L1 E L1 add D - ST cvs ( 0 R ) join C1 E join /C1 E D} D -/Sp {0.35 CO} D -/Sb {-0.2 CO} D -/CO {OV Io Yo put /Yo E CS mul Yo add D /Io Io 1 add D -1.5 Io mul 3 add FZ SO - CS Yo add dup YA gt{/YA E D}{pop}ie - Yo neg dup YB gt{/YB E D}{pop}ie} D -/Es {ES /Io Io 1 sub NN D /Yo OV Io get D SO} D -/SB {/N2 0 D 0 1 NI{/N E D{IX N2 get 0 lt{/N2 N2 1 add D}{exit}ie}loop - /K WS N get FC N get mul D /NY AY N2 get D /BV NY array D - 0 1 NY 1 sub{/TM K string D currentfile TM readhexstring pop pop BV E TM put} - for BM N BV put /N2 N2 1 add D}for} D -/IC [{/MA E D /MB 0 D}{2 div /MA E D /MB MA D}{/MB E CS sub D /MA CS D} - {pop /MA YS AB mul D /MB 1 AB sub YS mul D}{pop /MA 0 D /MB 0 D}] D -/IP {BV N get /N N 1 add D} D -/II {/K E D IX K get 0 lt{/EC E D}if /TY E D - TY 4 eq{/Y E D /X E D}if TY 3 eq{/AB E D}if - /XW AX K get D /YW AY K get D /IS SG IT K get get D /XS XW IS mul D - /YS YW IS mul D YS IC TY get exec /MA MA Fl not{3 add}if D} D -/IM {II /ty TY D /xs XS D /ys YS D /ya YA D /yb YB D /ma MA D /mb MB D /k K D - /ec EC D /BP f D /CI 0 D WB TL L1 xs add dup XO add MR add W gt - {pop /ma ma Fl{3 add}if D NL /YA ma D /YB mb D /YS ys D /L1 xs D} - {/L1 E D ma YA gt{/YA ma D}if mb YB gt{/YB mb D}if}ie /TB f D - OU{CP E pop YS sub LE neg lt Fl not and PB not and{NP /YA ma D /YB mb D}if - /BP f D ty ST cvs ( ) join IX k get 0 lt{(\() join ec join (\) ) join}if - k ST cvs join ty 3 eq{AB ST cvs ( ) join E join}if - ty 4 eq{X ST cvs ( ) join Y ST cvs join ( ) join E join}if C1 E join - ( DI ) join FP 2 eq FP 1 eq AF and or{( FM ) join}if - ( Il Cp ) apa /C1 E D /EN f D}if /HM t D /T f D} D -/DI {II /Xc CP /Yc E D D /YN YW neg D /HM t D /CI 0 D /K2 IX K get D gsave - TY 4 eq{OX X IS mul add OY FY add YS sub Y IS mul sub} - {/FY YS D CP MB sub 2 copy /OY E D /OX E D}ie - translate K2 0 ge{/DP AZ K2 get D /BV BM K2 get D XS YS scale /N 0 D XW YW DP - [XW 0 0 YN 0 YW] {IP} FC K2 get 1 eq{image}{f 3 colorimage}ie} - {EX}ie grestore XS 0 R /Ms t D} D -/FM {gsave 0 Sg CP MB sub translate XS neg 0 M 0 YS RL XS 0 RL 0 YS neg RL - XS neg 0 RL stroke grestore} D -/NA {/AT E D /AL AL 1 add D AV AL AT put} D -/OA {AL 0 gt{/AL AL 1 sub D /AT AV AL get D}if} D -/D1 {/BR {CP E pop E BN Mb{CP E pop eq{0 YI R}if}{pop}ie} D - /Sn {OU{C1 E ST cvs join ( Ld ) join /C1 E D}{pop}ie} D} D -/D1 {/BR {BN} D /Sn {OU {C1 E ST cvs join ( Ld ) join /C1 E D} {pop} ie} D} D -/TC {/TF t D /ML 0 D HN{SW pop dup ML gt{/ML E D}{pop}ie}forall NP /RM RM not D - RC /OU Tc D Ep /PN 0 D Ms not TP and{Ip}if /W IW ML sub Ts sub D - /A0 0 D TH{/BR {( ) join BT} D /Sn {pop} D /Au () D}if} D -/TN {0 eq{E EA PF HF or not XR and{HN E get Xr}{pop}ie} - {OU{Tn 0 ge{() BN}if /Tn E D}{pop}ie WB}ie} D -/NT {OU LB not and Tn 0 ge and{PL 0 eq{Ms not{CS CF FS}if CP dup - /y E YA sub D W 9 sub CS -1.8 mul XO L1 add 2 add{y M (.) show}for - HN Tn get dup SW pop IW E sub y M show CP BB M}if /Tn -1 D}if} D -/Ld {/DN E D HN DN Pn put [/View [/XYZ -4 Fl{PS}{CP YA add US E pop}ie null] - /Dest DN ST cvs cvn /DEST pdfmark} D -/C {ND 1 eq{1 sub}if TI mul /XO E D NL Nf not{pop()}if 0 3 -1 roll 1 A} D -/OP {BP not{NP}if PN 2 mod 0 eq{/Ms t D NP}if}D -/Ep {Xp PN 2 mod 0 eq and OU and{/Pn (-) D showpage /PM 1 D LA}if}D -/Dg [73 86 88 76 67 68 77] D -/Rd [0 [1 1 0][2 1 0][3 1 0][2 1 1][1 1 1][2 2 1][3 3 1][4 4 1][2 1 2]] D -/Ns {/m E D /c E 32 mul D /j m 1000 idiv D /p j 12 add string D - c 96 le m 0 gt and{c 32 le {/i 0 D /d 77 D /l 100 D /m m j 1000 mul sub D - j -1 1 {pop p i d c add put /i i 1 add D}for - 4 -2 0 {/j E D /n m l idiv D /m m n l mul sub D /d Dg j get D - n 0 gt {/x Rd n get D x 0 get -1 1 {pop p i d c add put /i i 1 add D}for - p i x 1 get sub Dg x 2 get j add get c add put}if /l l 10 idiv D - }for p 0 i GI} - {/i ST length 1 sub D m {1 sub dup 0 ge{dup 26 mod c add 1 add - ST i 3 -1 roll put 26 idiv dup 0 eq{pop exit}if}if /i i 1 sub D}loop - ST i ST length i sub GI}ie} - {m p cvs}ie} D -/US {matrix currentmatrix matrix defaultmatrix matrix invertmatrix - matrix concatmatrix transform} D -/GB {Gb{US}if}D -/Tl {/Rn E D Xc CP pop ne{ - [/Rect [Xc 1 sub Yc cS 0.25 mul sub GB CP E 1 add E cS 0.85 mul add GB] - /Subtype /Link /Border [0 0 Cf Lc and LX and AU or{0}{1}ie] Rn type - /nametype eq {/Dest Rn}{/Action [/Subtype /URI /URI Rn] Cd}ie - /ANN pdfmark}if} D -/Il {/Rn E D [/Rect [Xc Yc GB Xc XS add Yc YS add GB] /Subtype /Link - /Border [0 0 0] Rn type /nametype eq{/Dest Rn} - {/Action [/Subtype /URI /URI Rn] Cd}ie /ANN pdfmark} D -/XP {[{/Z Bz 2 div D Z 0 R Z Z RL Z neg Z RL Z neg Z neg RL Z Z neg RL - Fi cH 1 eq and{fill}if} {Bz 0 RL 0 Bz RL Bz neg 0 RL 0 Bz neg RL - Fi cH 1 eq and{fill}if} {0 -5 R Bz 0 RL 0 21 RL Bz neg 0 RL 0 -21 RL}]} D -/MS {/Sm E D WB}D -/O {BN()0 Sm BX} D -/BX {/Bt E D Bt 2 lt{/Ch E D CS 0.8 mul}{11 mul}ie W XO sub MR sub - 2 copy gt{E}if pop /HZ E D Bt 2 eq{Fi not{pop()}if ( )E join /Ft E D TT - /PF t D /MW 1 D /Li 1 D /Fw Ft SW pop D Fw HZ gt{/HZ Fw 8 add D}if - HZ ST cvs( )join}{WB Ch ST cvs( )join}ie L1 HZ add XO add MR add W gt{NL}if - Bt 2 eq{Ft ES Fw neg HM{CS sub}if Pd}if Bt ST cvs join( Bx )join - Bt 2 eq HM and{CS Pd}if C1 E join /C1 E D /L1 L1 HZ add D /T f D - ( ) Pd /PF f D Bt 2 lt{YA CS .8 mul lt{/YA CS .8 mul D}if} - {YB 5 lt{/YB 5 D}if YA 21 lt{/YA 21 D}if}ie /CI 0 D} D -/Bx {dup 2 eq{E /Bz E D}{E /cH E D /Bz CS .8 mul D}ie - OU {gsave 0 Sg XP E get exec stroke grestore}{pop}ie Bz 0 R /Ms t D}D -/SD {FD 4 mul Dy add DZ NF newpath 0 0 M DX t charpath pathbbox - 3 -1 roll sub /DY E D E dup /X1 E D sub WM mul WX DY mul add WM DG mul E div - /DF E D /DR WX DF mul DY mul WM div 2 div D} d -/Sd {gsave 0 IL Di mul neg translate IL IW atan Di 0 eq{neg}if rotate - FD 4 mul Dy add DZ NF DR X1 sub DY 2 div neg M cD VC DX show grestore} d -/Pt {/tp t D Tp{NP /Pn (TP) D 0 Tt neg R Th BN NP Ep ET RC ZF}if /tp f D} D -/RC {/AI 0 D /LG 0 D /BC 0 D /UI 0 D /PF f D /Cc 0 D /cC 0 D /Dc 10 array D - /NR [0 1 9{pop 0}for] D /La Ds D /AR 10 array D /TR 10 array D /AV 30 array D - SI /AL -1 D /AT A0 D AT NA /OV 9 array D /Yo 0 D /Co 0 D /Io 0 D /Hy f D - /Ph f D /CL -1 D Ct Sc}D -/ZF {/FR [0 1 30{pop 0}for] D /SZ [0 1 30{pop 0}for] D /FO [0 1 30{pop 0}for] D - /SL 0 D /CF 0 D /FN 0 D 0 Ts SF}D -/QO [[(\234)(\233)(\253\240)(\232)(\273)(\253)][(')(`)(\253\240)(\231)(\273)(\253)]] D -/QC [[(\234)(\234)(\240\273)(\233)(\253)(\273)][(')(')(\240\273)(`)(\253)(\273)]] D -/Hf EF length 2 sub D -/Hz EZ Hf get D -/HS Ey Hf get D -/Fz EZ Hf 1 add get D -/Fs Ey Hf 1 add get D -/LE IL D -/Ps EZ 1 get D -/Fp EF 1 get D -/XO 0 D -/YI 0 D -/CI 0 D -/FP 0 D -/WW Ts 7 mul D -/Mf 0 D -/YA 0 D -/YB 0 D -/Cs Ts D -/GS Ts D -/F0 0 D -/NS 0 D -/NB 0 D -/N 0 D -/C0 [] D -/C1 () D -/Lo 0 D -/L1 0 D -/LM 0 D -/PH 0 D -/EC 0 D -/Lh 0 D -/LT 0 D -/CH 1 string D -/ST 16 string D -/CA 9 array D -/HC (\255) D -/HM f D -/PF f D -/EN f D -/TB f D -/UF f D -/sF f D -/AE f D -/AF f D -/BP t D -/CD f D -/PA t D -/GL f D -/T t D -/HF f D -/AH f D -/SA f D -/PB f D -/f1 f D -/mF f D -/OX 0 D -/OY 0 D -/FY 0 D -/EO 0 D -/FB 0 D -/PL 0 D -/Bw 0 D -/PD -1 D -/TP f D -/tp f D -/TH t D -/Ty 4 D -/Tn -1 D -/Fl t D -/LB t D -/PM 1 D -/Ms f D -/Ba f D -/Bb f D -/Hl 3 D -/hl 6 D -/Hv 6 D -/Hs f D -/HI 0 D -/hi 0 D -/PO t D -/TE f D -/LF t D -/BO 0 D -/Sm 1 D -/Bf 3 D -/A1 0 D -/A2 0 D -/Ds 1 D -/QL -1 D -/Cb Db D -/Ct Dt D -/Cl Dl D -[/Creator (html2ps version 1.0 beta5) /Author () /Keywords (xsd, xml, schema, c++, mapping, data, binding, tree, serialization, guide, manual, examples) /Subject () - /Title (C++/Tree Mapping User Manual) /DOCINFO pdfmark -/ND 1 D -/HN [(1) (1) (1) (1) (1) (1) (1) (2) (2) (2) (3) (3) (3) (4) (5) (5) (5) (5) -(6) (6) (7) (??) (9) (10) (11) (11) (12) (14) (17) (18) (19) (21) (22) (23) -(24) (24) (25) (26) (27) (28) (28) (30) (31) (31) (35) (35) (35) (37) (39) -(43) (45) (46) (48) (50) (50) (53) (54) (56) (59) (64) (69) (69) (72) (72) -(73) (75) (76) (76) (77) (78) (78) (78) (79) (79) (80) (80) (80) (81) (81) -(83) (83) (85) (86) (86) (87) (87) (87) (88) (89) (90) (90) (92) (93) (??) -(1) (1) (1) (1) (2) (2) (2) (3) (3) (3) (4) (5) (5) (5) (5) (6) (6) (7) -(9) (10) (11) (11) (12) (14) (17) (18) (19) (21) (22) (23) (24) (24) (25) -(26) (27) (28) (28) (30) (31) (31) (35) (35) (35) (37) (39) (43) (45) (46) -(48) (50) (50) (53) (54) (56) (59) (64) (69) (69) (72) (72) (73) (75) (76) -(76) (77) (78) (78) (78) (79) (79) (80) (80) (80) (81) (81) (83) (83) (85) -(86) (86) (87) (87) (87) (88) (89) (90) (90) (92) (93)] D -/h0 [()(Table of Contents)] D -/h1 [(1\240\240)(Preface)] D -/h2 [(1.1\240\240)(About This Document)] D -/h3 [(1.2\240\240)(More Information)] D -/h4 [(2\240\240)(1 Introduction)] D -/h5 [(3\240\240)(2 C++/Tree Mapping)] D -/h6 [(3.1\240\240)(2.1 Preliminary Information)] D -/h7 [(3.1.1\240\240)(2.1.1 Identifiers)] D -/h8 [(3.1.2\240\240)(2.1.2 Character Type and Encoding)] D -/h9 [(3.1.3\240\240)(2.1.3 XML Schema Namespace)] D -/h10 [(3.1.4\240\240)(2.1.4 Anonymous Types)] D -/h11 [(3.2\240\240)(2.2 Error Handling)] D -/h12 [(3.2.1\240\240)(2.2.1 xml_schema::duplicate_id)] D -/h13 [(3.3\240\240)(2.3 Mapping for import and include)] D -/h14 [(3.3.1\240\240)(2.3.1 Import)] D -/h15 [(3.3.2\240\240)(2.3.2 Inclusion with Target Namespace)] D -/h16 [(3.3.3\240\240)(2.3.3 Inclusion without Target Namespace)] D -/h17 [(3.4\240\240)(2.4 Mapping for Namespaces)] D -/h18 [(3.5\240\240)(2.5 Mapping for Built-in Data Types)] D -/h19 [(3.5.1\240\240)(2.5.1 Inheritance from Built-in Data Types)] D -/h20 [(3.5.2\240\240)(2.5.2 Mapping for anyType)] D -/h21 [(3.5.3\240\240)(2.5.3 Mapping for anySimpleType)] D -/h22 [(3.5.4\240\240)(2.5.4 Mapping for QName)] D -/h23 [(3.5.5\240\240)(2.5.5 Mapping for IDREF)] D -/h24 [(3.5.6\240\240)(2.5.6 Mapping for base64Binary and hexBinary)] D -/h25 [(3.6\240\240)(2.5.7 Time Zone Representation)] D -/h26 [(3.7\240\240)(2.5.8 Mapping for date)] D -/h27 [(3.8\240\240)(2.5.9 Mapping for dateTime)] D -/h28 [(3.9\240\240)(2.5.10 Mapping for duration)] D -/h29 [(3.10\240\240)(2.5.11 Mapping for gDay)] D -/h30 [(3.11\240\240)(2.5.12 Mapping for gMonth)] D -/h31 [(3.12\240\240)(2.5.13 Mapping for gMonthDay)] D -/h32 [(3.13\240\240)(2.5.14 Mapping for gYear)] D -/h33 [(3.14\240\240)(2.5.15 Mapping for gYearMonth)] D -/h34 [(3.15\240\240)(2.5.16 Mapping for time)] D -/h35 [(3.16\240\240)(2.6 Mapping for Simple Types)] D -/h36 [(3.16.1\240\240)(2.6.1 Mapping for Derivation by Restriction)] D -/h37 [(3.16.2\240\240)(2.6.2 Mapping for Enumerations)] D -/h38 [(3.16.3\240\240)(2.6.3 Mapping for Derivation by List)] D -/h39 [(3.16.4\240\240)(2.6.4 Mapping for Derivation by Union)] D -/h40 [(3.17\240\240)(2.7 Mapping for Complex Types)] D -/h41 [(3.17.1\240\240)(2.7.1 Mapping for Derivation by Extension)] D -/h42 [(3.17.2\240\240)(2.7.2 Mapping for Derivation by Restriction)] D -/h43 [(3.18\240\240)(2.8 Mapping for Local Elements and Attributes)] D -/h44 [(3.18.1\240\240)(2.8.1 Mapping for Members with the One Cardinality Class)] D -/h45 [(3.18.2\240\240)(2.8.2 Mapping for Members with the Optional Cardinality Class)] D -/h46 [(3.18.3\240\240)(2.8.3 Mapping for Members with the Sequence Cardinality Class)] D -/h47 [(3.19\240\240)(2.9 Mapping for Global Elements)] D -/h48 [(3.19.1\240\240)(2.9.1 Element Types)] D -/h49 [(3.19.2\240\240)(2.9.2 Element Map)] D -/h50 [(3.20\240\240)(2.10 Mapping for Global Attributes)] D -/h51 [(3.21\240\240)(2.11 Mapping for xsi:type and Substitution Groups)] D -/h52 [(3.22\240\240)(2.12 Mapping for any and anyAttribute)] D -/h53 [(3.22.1\240\240)(2.12.1 Mapping for any with the One Cardinality Class)] D -/h54 [(3.22.2\240\240)(2.12.2 Mapping for any with the Optional Cardinality Class)] D -/h55 [(3.22.3\240\240)(2.12.3 Mapping for any with the Sequence Cardinality Class)] D -/h56 [(3.22.4\240\240)(2.12.4 Mapping for anyAttribute)] D -/h57 [(3.23\240\240)(2.13 Mapping for Mixed Content Models)] D -/h58 [(4\240\240)(3 Parsing)] D -/h59 [(4.1\240\240)(3.1 Initializing the Xerces-C++ Runtime)] D -/h60 [(4.2\240\240)(3.2 Flags and Properties)] D -/h61 [(4.3\240\240)(3.3 Error Handling)] D -/h62 [(4.3.1\240\240)(3.3.1 xml_schema::parsing)] D -/h63 [(4.3.2\240\240)(3.3.2 xml_schema::expected_element)] D -/h64 [(4.3.3\240\240)(3.3.3 xml_schema::unexpected_element)] D -/h65 [(4.3.4\240\240)(3.3.4 xml_schema::expected_attribute)] D -/h66 [(4.3.5\240\240)(3.3.5 xml_schema::unexpected_enumerator)] D -/h67 [(4.3.6\240\240)(3.3.6 xml_schema::expected_text_content)] D -/h68 [(4.3.7\240\240)(3.3.7 xml_schema::no_type_info)] D -/h69 [(4.3.8\240\240)(3.3.8 xml_schema::not_derived)] D -/h70 [(4.3.9\240\240)(3.3.9 xml_schema::no_prefix_mapping)] D -/h71 [(4.4\240\240)(3.4 Reading from a Local File or URI)] D -/h72 [(4.5\240\240)(3.5 Reading from std::istream)] D -/h73 [(4.6\240\240)(3.6 Reading from xercesc::InputSource)] D -/h74 [(4.7\240\240)(3.7 Reading from DOM)] D -/h75 [(5\240\240)(4 Serialization)] D -/h76 [(5.1\240\240)(4.1 Initializing the Xerces-C++ Runtime)] D -/h77 [(5.2\240\240)(4.2 Namespace Infomap and Character Encoding)] D -/h78 [(5.3\240\240)(4.3 Flags)] D -/h79 [(5.4\240\240)(4.4 Error Handling)] D -/h80 [(5.4.1\240\240)(4.4.1 xml_schema::serialization)] D -/h81 [(5.4.2\240\240)(4.4.2 xml_schema::unexpected_element)] D -/h82 [(5.4.3\240\240)(4.4.3 xml_schema::no_type_info)] D -/h83 [(5.5\240\240)(4.5 Serializing to std::ostream)] D -/h84 [(5.6\240\240)(4.6 Serializing to xercesc::XMLFormatTarget)] D -/h85 [(5.7\240\240)(4.7 Serializing to DOM)] D -/h86 [(6\240\240)(5 Additional Functionality)] D -/h87 [(6.1\240\240)(5.1 DOM Association)] D -/h88 [(6.2\240\240)(5.2 Binary Serialization)] D -/h89 [(7\240\240)(Appendix A \236 Default and Fixed Values)] D -/Hr [94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 -112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 -130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 -148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 -166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182]D -/HV [1 2 2 1 1 2 3 3 3 3 2 3 2 3 3 3 2 2 3 3 3 3 3 3 2 2 2 2 2 2 2 2 2 -2 2 3 3 3 3 2 3 3 2 3 3 3 2 3 3 2 2 2 3 3 3 3 2 1 2 2 2 3 3 3 3 3 3 3 3 -3 2 2 2 2 1 2 2 2 2 3 3 3 2 2 2 1 2 2 1]D -/Cn [2 0 0 0 23 4 0 0 0 0 1 0 3 0 0 0 0 6 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 -0 4 0 0 0 0 2 0 0 3 0 0 0 2 0 0 0 0 4 0 0 0 0 0 7 0 0 9 0 0 0 0 0 0 0 0 -0 0 0 0 0 7 0 0 0 3 0 0 0 0 0 0 2 0 0 0]D -Hr length 0 gt{[/PageMode /UseOutlines /DOCVIEW pdfmark}if -/Hn 1 D -0 1 Hr length 1 sub{ - /Bn E D [Cn Bn get dup 0 gt{/Count E HV Bn get Bl ge{neg}if}{pop}ie - /Dest Hr Bn get dup abs ST cvs cvn E 0 ge{(h)Hn ST cvs join cvx exec - dup 1 get E Nf{0 get E join}{pop}ie /Hn Hn 1 add D}{()}ie - /Title E dup length 255 gt{0 255 getinterval}if /OUT pdfmark}for -ZF /FN Fp D Ps 0 FS /WC Wf{( )}{}ie SW pop D -ET RC ZF -/Df f D -/R0 (http://www.codesynthesis.com/licenses/fdl-1.2.txt) D -/R1 (http://www.codesynthesis.com/projects/xsd/documentation/cxx/tree/manual/index.xhtml) D -/R2 (http://www.codesynthesis.com/projects/xsd/documentation/cxx/tree/manual/cxx-tree-manual.pdf) D -/R3 (http://www.codesynthesis.com/projects/xsd/documentation/cxx/tree/manual/cxx-tree-manual.ps) D -/R1 (http://www.codesynthesis.com/products/xsd) D -/R2 (http://codesynthesis.com/projects/xsd/documentation/cxx/tree/manual/index.xhtml) D -/R3 (http://codesynthesis.com/projects/xsd/documentation/cxx/tree/manual/cxx-tree-manual.pdf) D -/R4 (http://codesynthesis.com/projects/xsd/documentation/cxx/tree/manual/cxx-tree-manual.ps) D -/R5 (http://www.codesynthesis.com/projects/xsd/documentation/cxx/tree/guide/) D -/R6 (http://wiki.codesynthesis.com/Tree/Customization_guide) D -/R7 (http://www.codesynthesis.com/projects/xsd/documentation/cxx/tree/dbxml/) D -/R8 (http://wiki.codesynthesis.com/Tree/FAQ) D -/R9 (http://www.codesynthesis.com/projects/xsd/documentation/xsd.xhtml) D -/R10 (http://www.codesynthesis.com/mailman/listinfo/xsd-users) D -/R11 (http://www.codesynthesis.com/pipermail/xsd-users/) D -/R12 (http://en.wikipedia.org/wiki/Character_code) D -/TS { - tables E get /table E D - table aload pop /rdesc E D /cdesc E D /tdesc E D - tdesc aload pop /capalg E D /caption E D /rules E D /frame E D /nfoot E D - /nhead E D /ncol E D /nrow E D /border E D /twid E D /units E D /talign E D - /flow E D /clear E D /tclass E D pop pop - /w W D /eps 0.1 D /OU f D /PL 1 D - /FN EF 21 get D EZ 21 get Ey 21 get FS - 0 1 1{ - /pass E D - 0 1 nrow{ - /irow E D - /cells rdesc irow get 6 get D - 0 1 ncol{ - /icol E D - /cell cells icol get D - cell 0 ne{ - cell aload pop /ang E D /CB E D pop pop pop - /DV E D /bot E D /top E D /right E D /left E D /nowrap E D /valign E D - /dp E D /align E D /rspan E D /cspan E D /cclass E D /ctype E D /cmax E D - /cmin E D /proc E D - rspan 0 eq{/rspan nrow irow sub 1 add D}if - cspan 0 eq{/cspan ncol icol sub 1 add D}if - pass 0 eq cspan 1 eq and pass 1 eq cspan 1 gt and or{ - /W 1e5 D /LL W D /PH 1 D - ctype 1 eq{() BD}if - RC align NA - AT 4 eq{/CD t D /DC dp D /LN 0 D /M1 0 D /M2 0 D}{/CD f D}ie - 0 0 M /LM 0 D proc exec BN - AT 4 eq{ - LN array astore cell 15 3 -1 roll put - cdesc icol get dup dup 5 get M1 lt{5 M1 put}{5 get /M1 E D}ie - dup 6 get M2 lt{6 M2 put}{6 get /M2 E D}ie - /LM M1 M2 add D - }if - /CD f D - ang 0 ne{/LM CP E pop neg D}if - /thiswid LM left add right add eps add D - /oldmin 0 D /oldmax 0 D - 0 1 cspan 1 sub{ - icol add cdesc E get dup 2 get /oldmax E oldmax add D - 1 get /oldmin E oldmin add D - }for - thiswid oldmax ge{ - 0 1 cspan 1 sub{ - icol add cdesc E get dup 2 E 2 get oldmax 0 eq - {pop thiswid cspan div}{thiswid mul oldmax div}ie - put - }for - }if - nowrap 1 eq{ - thiswid oldmin ge{ - 0 1 cspan 1 sub{ - icol add cdesc E get dup 1 E 1 get oldmin 0 eq - {pop thiswid cspan div}{thiswid mul oldmin div}ie - put - }for - }if - }{ - /W 0 D /LL W D /PH 2 D - ctype 1 eq{() ES () BD}if - 0 0 M /LM 0 D RC proc exec BN - /thiswid LM left add right add eps add D - thiswid oldmin ge{ - 0 1 cspan 1 sub{ - icol add cdesc E get dup 1 E 1 get oldmin 0 eq - {pop thiswid cspan div}{thiswid mul oldmin div}ie - put - }for - }if - }ie - ctype 1 eq{() ES}if - }if - }if - }for - }for - }for - /tmin 0 D /tmax 0 D - 0 1 ncol{ - cdesc E get dup 1 get E 2 get 2 copy gt{pop dup}if - tmax add /tmax E D tmin add /tmin E D - }for - twid 0 lt{twid neg IW gt{IW neg}{twid}ie /twid E D}if - tdesc 0 twid neg tmin 2 copy lt{E}if pop put - tdesc 1 twid neg tmax 2 copy lt{E}if pop put - /W w D /LL W D /OU t D /PH 0 D /PL 0 D -} D -/PT { - /PL PL 1 add D - tables E get /table E D Tm 21 get Ts mul BE - PL 2 ge{save}if - /SL SL 1 add D /FN EF 21 get D EZ 21 get Ey 21 get FS - table aload pop /rdesc E D /cdesc E D /tdesc E D - tdesc aload pop /capalg E D /caption E D /rules E D /frame E D /nfoot E D - /nhead E D /ncol E D /nrow E D /border E D /twid E D /units E D /talign E D - /flow E D /clear E D /tclass E D /tmax E D /tmin E D - /w W D /xo XO D /mr MR D /ll LL D /lg LG D /ai AI D /bc BC D /nr NR D /ar AR D - /tr TR D /ui UI D /ph PH D /a0 A0 D /pf PF D /at AT D /av AV D /al AL D - /Le LE D /la La D - talign 0 lt{/talign AL 0 gt{AV AL get}{A0 2 le{A0}{0}ie}ie D}if - ph 1 eq ph 2 eq or{ - NL ph 1 eq{tmax}{tmin}ie dup XO add LM gt{/LM E XO add D}{pop}ie LM E - }{ - /PH 3 D /LE 1e5 D RC %ZF - border 0 gt{/border 1 D}if - /twidth 0 D /avail W xo sub D - twid 0 eq{0 1 ncol{cdesc E get dup 2 get E 3 get dup 0 gt{div neg dup twid lt - {/twid E D}{pop}ie}{pop pop}ie}for}if - /twid twid dup 0 lt{neg avail 2 copy gt{E}if pop}{avail mul}ie D - /OK t D 0 1 ncol{cdesc E get dup 1 get E 3 get twid mul gt{/OK f D}if}for - 0 1 ncol{ - cdesc E get dup 1 get /colmin E D dup 3 get /cwid E twid mul D dup - tmax avail le{2 get}if - tmin avail le tmax avail gt and{ - dup 2 get E 1 get dup 3 1 roll sub avail tmin sub mul tmax tmin sub div add - }if - tmin avail gt{1 get}if - 0 E colmin cwid lt OK and{pop cwid}if dup /twidth E twidth add D put - }for - /OU f D CP - tmin twid le{ - 0 1 ncol{cdesc E get dup 0 get twidth div twid mul 0 E put}for - /twidth twid D - }if - CP printcap CP E pop sub /caphig E D pop - 0 1 1{ - /pass E D - 0 1 nrow{ - /irow E D - /cells rdesc irow get 6 get D - 0 1 ncol{ - /icol E D - /cell cells icol get D - cell 0 ne{ - cell aload pop /ang E D /CB E D pop pop pop - /DV E D /bot E D /top E D /right E D /left E D /nowrap E D /valign E D - /dp E D /align E D /rspan E D /cspan E D /cclass E D /ctype E D /cmax E D - /cmin E D /proc E D - rspan 0 eq{/rspan nrow irow sub 1 add D}if - cspan 0 eq{/cspan ncol icol sub 1 add D}if - /W 0 D - 0 1 cspan 1 sub{icol add cdesc E get 0 get /W E W add D}for - pass 0 eq rspan 1 eq and pass 1 eq rspan 1 gt and or{ - ctype 1 eq{() BD}if - /W W left sub right sub D /XO 0 D /EO 0 D SI - /A0 align D RC align NA - AT 4 eq{ - /DC dp D /DO 0 D /ID 1 D - 0 1 DV length 1 sub{DV E get dup DO gt{/DO E D}{pop}ie}for - /Lo DO DV 0 get sub D /L1 Lo D - }if - 0 0 M /BP t D /Fl t D /MF 0 D /FB 0 D - proc exec T not{/CI 0 D}if BN 0 FB neg R MF 0 eq{/MF CS D}if - CP /thishig E neg bot add top add CI add D pop - ang 0 ne{/thishig LM bot add top add D}if - cell 16 MF put cell 17 Ya put cell 18 thishig put - valign 4 eq{ - /below thishig Ya sub D - rdesc irow get dup dup 4 get Ya lt - {4 Ya put}{4 get /Ya E D}ie - dup 5 get below lt{5 below put}{5 get /below E D}ie - /thishig Ya below add D - }if - ctype 1 eq{()ES}if - /oldhig 0 D - 0 1 rspan 1 sub{ - irow add rdesc E get 0 get /oldhig E oldhig add D - }for - thishig oldhig ge{ - 0 1 rspan 1 sub{ - irow add rdesc E get dup 0 E 0 get oldhig 0 eq - {pop thishig rspan div}{thishig mul oldhig div}ie - put - }for - }if - }if - }if - }for - }for - }for M RC %ZF - /thight 0 D /racc 0 D /maxh 0 D /brk 0 D /rbeg nhead nfoot add D - 0 1 nrow{ - rdesc E get dup 0 get dup /thight E thight add D - brk 0 eq{/racc E D}{/racc E racc add D}ie - racc maxh gt{/maxh racc D}if 2 get /brk E D - }for - ph 3 ge{thight caphig add E}if - ph 0 eq ph 4 eq or{ - /PH 4 D /LE Le D /OU Ou D /yoff 0 D /headsz 0 D - 0 1 nhead 1 sub{rdesc E get 0 get headsz add /headsz E D}for - /footsz 0 D - 0 1 nfoot 1 sub{rdesc E nhead add get 0 get footsz add /footsz E D}for - /ahig LE BO add MI add D /maxh maxh headsz add footsz add D - /thight thight headsz add footsz add D - tmin avail gt maxh ahig gt or - {/Sf avail tmin div dup ahig maxh div gt{pop ahig maxh div}if D /SA t D} - {/Sf 1 D}ie - tclass 1 eq thight LE 15 sub gt and - {/SA t D LE 15 sub thight div dup Sf lt{/Sf E D}{pop}ie}if - SA{Sf Sf scale /ll ll Sf div D /xo xo Sf div D /LE LE Sf div D - /mr mr Sf div D /BO BO Sf div D /ahig ahig Sf div D}if - nhead nfoot add getwid - LE CP E pop add capalg 0 eq{caphig sub}if - bT{f}{dup thight lt thight ahig lt and}ie - E headsz sub footsz sub rwid lt or{NP}if - capalg 0 eq{printcap -8 SP}if - CP /ycur E D pop - printhead - rbeg 1 nrow{/row E D row - getwid - ycur yoff add rwid sub footsz sub LE add 0 lt - {nfoot 0 gt{printfoot}if Tf NP /rbeg irow1 D - Ba{MI /MI MI SA{Sf div}if D MI SP /MI E D}if - CP /ycur E D pop /yoff 0 D printhead}if - irow1 printrow - }for - printfoot /row row 1 add D Tf - 0 ycur yoff add M - capalg 1 eq{/EO 0 D SI -3 SP printcap}if - Sf 1 lt{1 Sf div dup scale /ll ll Sf mul D /xo xo Sf mul D /LE LE Sf mul D - /mr mr Sf mul D /BO BO Sf mul D /SA f D}if - /EO 0 D - }if - }ie - /W w D /XO xo D /MR mr D /LL ll D /LG lg D /AI ai D /BC bc D /NR nr D /AR ar D - /TR tr D /UI ui D /PH ph D /A0 a0 D /PF pf D /AT at D /AV av D /AL al D - /La la D - /SL SL 1 sub NN D /CF 0 D /FN 0 D SZ SL get FR SL get FS Wf not{()F2}if - PL 2 ge{Ms E restore Ms or /Ms E D PH 1 eq PH 2 eq or - {/LM E D}if PH 3 ge{/CI 0 D NL 0 E neg R}if - }if - /PL PL 1 sub D /CI 0 D /BP f D /PO f D () Bm 21 get Ts mul BE BL %CF CS SF -} D -/printcap{ - capalg 0 ge{ - SA{/W w Sf div D} - {talign 1 eq{/XO xo ll twidth sub 2 div add D}if - talign 2 eq{/XO xo ll twidth sub add D}if - /W XO twidth add D - }ie /XO xo D /LL W XO sub MR sub D - /PA f D /Fl capalg 0 eq D - 1 NA BL caption exec BN OA /PA t D - }if -} D -/getwid{ - /irow1 E D - /irow2 irow1 D - /rwid 0 D - {rdesc irow2 get dup 0 get rwid add /rwid E D 2 get 0 eq - {exit}{/irow2 irow2 1 add D}ie - }loop -} D -/printrow{ - /xoff ll twidth PL 2 ge{Sf div}if sub talign mul 2 div D - /xleft xoff xo add D - /irow E D - /cells rdesc irow get 6 get D - 0 1 ncol{ - /icol E D - /cell cells icol get D - cell 0 ne{ - cell aload pop /ang E D /CB E D /cvsize E D /above E D /fontsz E D - /DV E D /bot E D /top E D /right E D /left E D /nowrap E D /valign E D - /dp E D /align E D /rspan E D /cspan E D /cclass E D /ctype E D /cmax E D - /cmin E D /proc E D - rspan 0 eq{/rspan nrow irow sub 1 add D}if - cspan 0 eq{/cspan ncol icol sub 1 add D}if - /width 0 D - 0 1 cspan 1 sub{icol add cdesc E get 0 get /width E width add D}for - /rhight rdesc irow get 0 get D - /hight rhight D - 1 1 rspan 1 sub{irow add rdesc E get 0 get /hight E hight add D}for - /W xo xoff add width add right sub D - ang 0 ne{/W xo xoff add hight add right sub D}if - /EO xo xoff add left add D SI - Cf{ - gsave CB VC xo xoff add ycur yoff add M - 0 hight neg RL width 0 RL 0 hight RL width neg 0 RL fill - grestore - }if - ctype 1 eq{() BD}if - /A0 align D RC - AT 4 eq{ - /DC dp D /ID 1 D /DO cdesc icol get 5 get D /Lo DO DV 0 get sub D /L1 Lo D - }if - ang 0 ne{ - gsave ang 90 eq - {xoff ycur add hight cvsize sub 2 div sub ycur hight sub xoff sub} - {xoff ycur sub width add hight cvsize sub 2 div add ycur xoff add}ie - translate ang rotate - }if - valign 3 le{0 ycur yoff add top sub - hight cvsize sub valign 1 sub mul 2 div sub M} - {0 ycur yoff add top sub above add rdesc irow get 4 get sub M}ie - /PA f D /BP t D /Fl t D - BL proc exec BN - ang 0 ne{grestore}if - /PA t D - ctype 1 eq{() ES}if - }if - /xoff xoff cdesc icol get 0 get add D - }for - /yoff yoff rhight sub D -} D -/printhead {0 1 nhead 1 sub{printrow}for} D -/printfoot {nhead 1 nhead nfoot add 1 sub{printrow}for} D -/Tf { - OU{rules 2 ge{/yoff 0 D - gsave 0 Sg - [0 1 nhead 1 sub{}for rbeg 1 row 1 sub{}for nhead 1 nhead nfoot add 1 sub{}for]{ - /irow E D - /xoff ll twidth PL 2 ge{Sf div}if sub talign mul 2 div D - /cells rdesc irow get 6 get D - 0 1 ncol{ - /icol E D - /cell cells icol get D - cell 0 ne{ - /rspan cell 6 get D - /cspan cell 5 get D - rspan 0 eq{/rspan nrow irow sub 1 add D}if - cspan 0 eq{/cspan ncol icol sub 1 add D}if - /width 0 D - 0 1 cspan 1 sub{icol add cdesc E get 0 get /width E width add D}for - /rhight rdesc irow get 0 get D - /hight rhight D - 1 1 rspan 1 sub{irow add rdesc E get 0 get /hight E hight add D}for - xo xoff add width add ycur yoff add M - 0 hight neg icol cspan add 1 sub ncol lt - {cdesc icol 1 add get 4 get dup rules 3 le{1 eq}{pop t}ie - {1 eq{0.8}{0.3}ie - LW RL CP stroke M}{pop R}ie}{R}ie - irow nhead nfoot add 1 sub ne nfoot 0 eq or - {irow rspan add 1 sub nrow lt - {rdesc irow rspan add get 3 get}{nfoot 0 eq{0}{1}ie}ie - dup rules 2 mod 0 eq{1 eq}{pop t}ie - {1 eq irow rspan add nhead eq or irow rspan add row eq nfoot 0 gt and or - {0.8}{0.3}ie LW width neg 0 RL CP stroke M}{pop}ie}if - }if - /xoff xoff cdesc icol get 0 get add D - }for - /yoff yoff rhight sub D - }forall - grestore - /Ms t D - }if - frame 1 gt{ - gsave - 1 LW 0 Sg - xleft ycur M CP BB - 0 yoff frame 5 eq frame 7 ge or{RL}{R}ie - twidth 0 frame 3 eq frame 4 eq or frame 8 ge or{RL}{R}ie CP BB - 0 yoff neg frame 6 ge{RL}{R}ie - twidth neg 0 frame 2 eq frame 4 eq or frame 8 ge or{RL}{R}ie - closepath stroke - grestore - /Ms t D - }if - }if -} D -/tables [[[0 0 0 0 0 -1 0 0 1 58 2 0 0 9 5 {()} -1] - [[0 0 0 0 0 0 0][0 0 0 0 0 0 0][0 0 0 0 0 0 0]] - [[0 0 0 0 0 0 [[{()1 Sl()WB(XML Schema type)} 0 0 1 0 1 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(Alias in the )SM(xml_schema)ES( names)HY(pace)YH()} 0 0 1 0 1 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(C++ type - )} 0 0 1 0 1 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB(anyType and anySim)HY(ple)HY(Type)YH( types - )} 0 0 1 0 3 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -0 -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(anyType)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(type)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()0 23 1 A(Section 2.5.2, "Mapping for )SM(anyType)ES(")23 0 TN TL()Ec /AF f D( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(anySim)HY(ple)HY(Type)YH()ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(simple_type)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()0 24 1 A(Section 2.5.3, "Mapping for )SM(anySim)HY(ple)HY(Type)YH()ES(")24 0 TN TL()Ec /AF f D( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB(fixed-length inte)HY(gral)YH( types - )} 0 0 1 0 3 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -0 -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(byte)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(byte)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(signed\240char)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(unsigned)HY(Byte)YH()ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(unsigned_byte)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(unsigned\240char)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(short)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(short_)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(short)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(unsigned)HY(Short)YH()ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(unsigned_short)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(unsigned\240short)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(int)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(int_)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(int)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(unsignedInt)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(unsigned_int)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(unsigned\240int)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(long)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(long_)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(long\240long)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(unsigned)HY(Long)YH()ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(unsigned_long)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(unsigned\240long\240long)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB(arbi)HY(trary)YH(-length inte)HY(gral)YH( types - )} 0 0 1 0 3 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -0 -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(integer)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(integer)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(long\240long)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(nonPos)HY(i)HY(tiveIn)HY(te)HY(ger)YH()ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(non_posi)HY(tive)YH(_integer)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(long\240long)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(nonNeg)HY(a)HY(tiveIn)HY(te)HY(ger)YH()ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(non_nega)HY(tive)YH(_integer)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(unsigned long\240long)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(posi)HY(tiveIn)HY(te)HY(ger)YH()ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(posi)HY(tive)YH(_integer)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(unsigned long\240long)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(nega)HY(tiveIn)HY(te)HY(ger)YH()ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(nega)HY(tive)YH(_integer)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(long\240long)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB(boolean types - )} 0 0 1 0 3 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -0 -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(boolean)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(boolean)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(bool)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB(fixed-preci)HY(sion)YH( float)HY(ing)YH(-point types - )} 0 0 1 0 3 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -0 -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(float)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(float_)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(float)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(double)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(double_)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(double)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB(arbi)HY(trary)YH(-preci)HY(sion)YH( float)HY(ing)YH(-point types - )} 0 0 1 0 3 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -0 -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(decimal)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(decimal)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(double)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB(string types - )} 0 0 1 0 3 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -0 -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(string)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(string)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(type derived from )SM(std::basic_string)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(normal)HY(ized)HY(String)YH()ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(normal)HY(ized)YH(_string)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(type derived from )SM(string)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(token)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(token)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(type\240derived\240from\240)SM(normal)HY(ized)YH(_string)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(Name)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(name)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(type derived from )SM(token)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(NMTOKEN)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(nmtoken)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(type derived from )SM(token)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(NMTO)HY(KENS)YH()ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(nmto)HY(kens)YH()ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(type derived from )SM(sequence)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(NCName)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(ncname)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(type derived from )SM(name)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(language)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(language)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(type derived from )SM(token)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB(qual)HY(i)HY(fied)YH( name - )} 0 0 1 0 3 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -0 -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(QName)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(qname)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()0 25 1 A(Section 2.5.4, "Mapping for )SM(QName)ES(")25 0 TN TL()Ec /AF f D( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB(ID/IDREF types - )} 0 0 1 0 3 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -0 -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(ID)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(id)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(type derived from )SM(ncname)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(IDREF)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(idref)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()0 26 1 A(Section 2.5.5, "Mapping for )SM(IDREF)ES(")26 0 TN TL()Ec /AF f D( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(IDREFS)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(idrefs)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(type derived from )SM(sequence)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB(URI types - )} 0 0 1 0 3 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -0 -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(anyURI)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(uri)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(type derived from )SM(std::basic_string)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB(binary types - )} 0 0 1 0 3 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -0 -]] -[0 0 1 0 0 0 [[{()1 Sl()WB()SM(base64Binary)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(base64_binary)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()0 27 1 A(Section 2.5.6, "Mapping for - )SM(base64Binary)ES( and )SM(hexBi)HY(nary)YH()ES(")27 0 TN TL()Ec /AF f D( - )} 0 0 0 0 1 2 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(hexBi)HY(nary)YH()ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(hex_binary)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -]] -[0 0 0 0 0 0 [[{()1 Sl()WB(date/time types - )} 0 0 1 0 3 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -0 -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(date)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(date)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()0 29 1 A(Section 2.5.8, "Mapping for - )SM(date)ES(")29 0 TN TL()Ec /AF f D( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(date)HY(Time)YH()ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(date_time)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()0 30 1 A(Section 2.5.9, "Mapping for - )SM(date)HY(Time)YH()ES(")30 0 TN TL()Ec /AF f D( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(dura)HY(tion)YH()ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(dura)HY(tion)YH()ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()0 31 1 A(Section 2.5.10, "Mapping for - )SM(dura)HY(tion)YH()ES(")31 0 TN TL()Ec /AF f D( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(gDay)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(gday)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()0 32 1 A(Section 2.5.11, "Mapping for - )SM(gDay)ES(")32 0 TN TL()Ec /AF f D( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(gMonth)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(gmonth)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()0 33 1 A(Section 2.5.12, "Mapping for - )SM(gMonth)ES(")33 0 TN TL()Ec /AF f D( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(gMon)HY(th)HY(Day)YH()ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(gmonth_day)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()0 34 1 A(Section 2.5.13, "Mapping for - )SM(gMon)HY(th)HY(Day)YH()ES(")34 0 TN TL()Ec /AF f D( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(gYear)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(gyear)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()0 35 1 A(Section 2.5.14, "Mapping for - )SM(gYear)ES(")35 0 TN TL()Ec /AF f D( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(gYear)HY(Month)YH()ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(gyear_month)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()0 36 1 A(Section 2.5.15, "Mapping for - )SM(gYear)HY(Month)YH()ES(")36 0 TN TL()Ec /AF f D( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(time)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(time)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()0 37 1 A(Section 2.5.16, "Mapping for - )SM(time)ES(")37 0 TN TL()Ec /AF f D( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB(entity types - )} 0 0 1 0 3 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -0 -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(ENTITY)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(entity)ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(type derived from )SM(name)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 0 0 0 0 [[{()1 Sl()WB()SM(ENTI)HY(TIES)YH()ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()SM(enti)HY(ties)YH()ES()} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(type derived from )SM(sequence)ES( - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -]] -[[0 0 0 0 0 -1 0 0 1 8 5 0 0 9 5 {()} -1] - [[0 0 0 0 0 0 0][0 0 0 0 0 0 0][0 0 0 0 0 0 0][0 0 0 0 0 0 0][0 0 0 0 0 0 0][0 0 0 0 0 0 0]] - [[0 0 0 0 0 0 [[{()1 Sl()WB()} 0 0 1 0 1 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB()} 0 0 1 0 1 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(default)} 0 0 1 0 2 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -[{()1 Sl()WB(fixed - )} 0 0 1 0 2 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -]] -[0 0 1 0 0 0 [[{()1 Sl()WB(element)} 0 0 1 0 1 4 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(not present)} 0 0 1 0 1 2 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(optional)} 0 0 1 0 1 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(required)} 0 0 1 0 1 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(optional)} 0 0 1 0 1 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(required - )} 0 0 1 0 1 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 1 0 0 0 [0 -0 -[{()1 Sl()WB(not present)} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(invalid instance)} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(not present)} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(invalid instance - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 1 0 0 0 [0 -[{()1 Sl()WB(empty)} 0 0 1 0 1 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(default value is used)} 0 0 0 0 2 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -[{()1 Sl()WB(fixed value is used - )} 0 0 0 0 2 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -]] -[0 0 0 0 0 0 [0 -[{()1 Sl()WB(value)} 0 0 1 0 1 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(value is used)} 0 0 0 0 2 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -[{()1 Sl()WB(value is used provided it's the same as fixed - )} 0 0 0 0 2 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -]] -[0 0 1 0 0 0 [[{()1 Sl()WB(attribute)} 0 0 1 0 1 4 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(not present)} 0 0 1 0 1 2 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(optional)} 0 0 1 0 1 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(required)} 0 0 1 0 1 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(optional)} 0 0 1 0 1 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(required - )} 0 0 1 0 1 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 1 0 0 0 [0 -0 -[{()1 Sl()WB(default value is used)} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(invalid schema)} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(fixed value is used)} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(invalid instance - )} 0 0 0 0 1 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -]] -[0 0 1 0 0 0 [0 -[{()1 Sl()WB(empty)} 0 0 1 0 1 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(empty value is used)} 0 0 0 0 2 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -[{()1 Sl()WB(empty value is used provided it's the same as fixed - )} 0 0 0 0 2 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -]] -[0 0 0 0 0 0 [0 -[{()1 Sl()WB(value)} 0 0 1 0 1 1 1 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -[{()1 Sl()WB(value is used)} 0 0 0 0 2 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -[{()1 Sl()WB(value is used provided it's the same as fixed - )} 0 0 0 0 2 1 0 (.) 2 0 4 4 2 6 0 0 0 0 Db 0 ] -0 -]] -]] -] D -0 1 1{TS}for RC ZF -/Ba f D /BO 0 D Bs -/UR (/home/boris/work/xsd/xsd/documentation/cxx/tree/manual/index.xhtml) D -/Ti (C++/Tree Mapping User Manual) D -/Au () D -/Df f D -/ME [(2.3.0)] D -Pt -/BO 0 D TC /Ba f D Bs /AU f D /UR () D RC ZF - tH WB -ND 1 gt{Ts 3 mul Np 0()0 C()BD(C++/Tree Mapping User Manual)ES()0 1 TN()EA()BN}if -1 NH le{94(1\240\240)1 C(Preface)WB 3 Sn()94 1 TN()EA()BN}if -2 NH le{95(1.1\240\240)2 C(About)WB 4 Sn( This Docu)HY(ment)YH()95 1 TN()EA()BN}if -2 NH le{96(1.2\240\240)2 C(More)WB 5 Sn( Infor)HY(ma)HY(tion)YH()96 1 TN()EA()BN}if -1 NH le{97(2\240\240)1 C(1)WB 6 Sn( Intro)HY(duc)HY(tion)YH()97 1 TN()EA()BN}if -1 NH le{98(3\240\240)1 C(2)WB 7 Sn( C++/Tree Mapping)98 1 TN()EA()BN}if -2 NH le{99(3.1\240\240)2 C(2.1)WB 8 Sn( Prelim)HY(i)HY(nary)YH( Infor)HY(ma)HY(tion)YH()99 1 TN()EA()BN}if -3 NH le{100(3.1.1\240\240)3 C(2.1.1)WB 9 Sn( Iden)HY(ti)HY(fiers)YH()100 1 TN()EA()BN}if -3 NH le{101(3.1.2\240\240)3 C(2.1.2)WB 10 Sn( Char)HY(ac)HY(ter)YH( Type and Encod)HY(ing)YH()101 1 TN()EA()BN}if -3 NH le{102(3.1.3\240\240)3 C(2.1.3)WB 11 Sn( XML Schema Names)HY(pace)YH()102 1 TN()EA()BN}if -3 NH le{103(3.1.4\240\240)3 C(2.1.4)WB 12 Sn( Anony)HY(mous)YH( Types)103 1 TN()EA()BN}if -2 NH le{104(3.2\240\240)2 C(2.2)WB 13 Sn( Error Handling)104 1 TN()EA()BN}if -3 NH le{105(3.2.1\240\240)3 C(2.2.1)WB 14 Sn( )SM(xml_schema::dupli)HY(cate)YH(_id)ES()105 1 TN()EA()BN}if -2 NH le{106(3.3\240\240)2 C(2.3)WB 15 Sn( Mapping for )SM(import)ES( and )SM(include)ES()106 1 TN()EA()BN}if -3 NH le{107(3.3.1\240\240)3 C(2.3.1)WB 16 Sn( Import)107 1 TN()EA()BN}if -3 NH le{108(3.3.2\240\240)3 C(2.3.2)WB 17 Sn( Inclu)HY(sion)YH( with Target Names)HY(pace)YH()108 1 TN()EA()BN}if -3 NH le{109(3.3.3\240\240)3 C(2.3.3)WB 18 Sn( Inclu)HY(sion)YH( without Target Names)HY(pace)YH()109 1 TN()EA()BN}if -2 NH le{110(3.4\240\240)2 C(2.4)WB 19 Sn( Mapping for Names)HY(paces)YH()110 1 TN()EA()BN}if -2 NH le{111(3.5\240\240)2 C(2.5)WB 20 Sn( Mapping for Built-in Data Types)111 1 TN()EA()BN}if -3 NH le{112(3.5.1\240\240)3 C(2.5.1)WB 22 Sn( Inher)HY(i)HY(tance)YH( from Built-in Data Types)112 1 TN()EA()BN}if -3 NH le{113(3.5.2\240\240)3 C(2.5.2)WB 23 Sn( Mapping for )SM(anyType)ES()113 1 TN()EA()BN}if -3 NH le{114(3.5.3\240\240)3 C(2.5.3)WB 24 Sn( Mapping for )SM(anySim)HY(ple)HY(Type)YH()ES()114 1 TN()EA()BN}if -3 NH le{115(3.5.4\240\240)3 C(2.5.4)WB 25 Sn( Mapping for )SM(QName)ES()115 1 TN()EA()BN}if -3 NH le{116(3.5.5\240\240)3 C(2.5.5)WB 26 Sn( Mapping for )SM(IDREF)ES()116 1 TN()EA()BN}if -3 NH le{117(3.5.6\240\240)3 C(2.5.6)WB 27 Sn( Mapping for )SM(base64Binary)ES( and - )SM(hexBi)HY(nary)YH()ES()117 1 TN()EA()BN}if -2 NH le{118(3.6\240\240)2 C(2.5.7)WB 28 Sn( Time Zone Repre)HY(sen)HY(ta)HY(tion)YH()118 1 TN()EA()BN}if -2 NH le{119(3.7\240\240)2 C(2.5.8)WB 29 Sn( Mapping for )SM(date)ES()119 1 TN()EA()BN}if -2 NH le{120(3.8\240\240)2 C(2.5.9)WB 30 Sn( Mapping for )SM(date)HY(Time)YH()ES()120 1 TN()EA()BN}if -2 NH le{121(3.9\240\240)2 C(2.5.10)WB 31 Sn( Mapping for )SM(dura)HY(tion)YH()ES()121 1 TN()EA()BN}if -2 NH le{122(3.10\240\240)2 C(2.5.11)WB 32 Sn( Mapping for )SM(gDay)ES()122 1 TN()EA()BN}if -2 NH le{123(3.11\240\240)2 C(2.5.12)WB 33 Sn( Mapping for )SM(gMonth)ES()123 1 TN()EA()BN}if -2 NH le{124(3.12\240\240)2 C(2.5.13)WB 34 Sn( Mapping for )SM(gMon)HY(th)HY(Day)YH()ES()124 1 TN()EA()BN}if -2 NH le{125(3.13\240\240)2 C(2.5.14)WB 35 Sn( Mapping for )SM(gYear)ES()125 1 TN()EA()BN}if -2 NH le{126(3.14\240\240)2 C(2.5.15)WB 36 Sn( Mapping for )SM(gYear)HY(Month)YH()ES()126 1 TN()EA()BN}if -2 NH le{127(3.15\240\240)2 C(2.5.16)WB 37 Sn( Mapping for )SM(time)ES()127 1 TN()EA()BN}if -2 NH le{128(3.16\240\240)2 C(2.6)WB 38 Sn( Mapping for Simple Types)128 1 TN()EA()BN}if -3 NH le{129(3.16.1\240\240)3 C(2.6.1)WB 39 Sn( Mapping for Deriva)HY(tion)YH( by Restric)HY(tion)YH()129 1 TN()EA()BN}if -3 NH le{130(3.16.2\240\240)3 C(2.6.2)WB 40 Sn( Mapping for Enumer)HY(a)HY(tions)YH()130 1 TN()EA()BN}if -3 NH le{131(3.16.3\240\240)3 C(2.6.3)WB 41 Sn( Mapping for Deriva)HY(tion)YH( by List)131 1 TN()EA()BN}if -3 NH le{132(3.16.4\240\240)3 C(2.6.4)WB 42 Sn( Mapping for Deriva)HY(tion)YH( by Union)132 1 TN()EA()BN}if -2 NH le{133(3.17\240\240)2 C(2.7)WB 43 Sn( Mapping for Complex Types)133 1 TN()EA()BN}if -3 NH le{134(3.17.1\240\240)3 C(2.7.1)WB 44 Sn( Mapping for Deriva)HY(tion)YH( by Exten)HY(sion)YH()134 1 TN()EA()BN}if -3 NH le{135(3.17.2\240\240)3 C(2.7.2)WB 45 Sn( Mapping for Deriva)HY(tion)YH( by Restric)HY(tion)YH()135 1 TN()EA()BN}if -2 NH le{136(3.18\240\240)2 C(2.8)WB 46 Sn( Mapping for Local Elements and Attributes)136 1 TN()EA()BN}if -3 NH le{137(3.18.1\240\240)3 C(2.8.1)WB 47 Sn( Mapping for Members with the One Cardi)HY(nal)HY(ity)YH( Class)137 1 TN()EA()BN}if -3 NH le{138(3.18.2\240\240)3 C(2.8.2)WB 48 Sn( Mapping for Members with the Optional Cardi)HY(nal)HY(ity)YH( Class)138 1 TN()EA()BN}if -3 NH le{139(3.18.3\240\240)3 C(2.8.3)WB 49 Sn( Mapping for Members with the Sequence Cardi)HY(nal)HY(ity)YH( Class)139 1 TN()EA()BN}if -2 NH le{140(3.19\240\240)2 C(2.9)WB 50 Sn( Mapping for Global Elements)140 1 TN()EA()BN}if -3 NH le{141(3.19.1\240\240)3 C(2.9.1)WB 51 Sn( Element Types)141 1 TN()EA()BN}if -3 NH le{142(3.19.2\240\240)3 C(2.9.2)WB 52 Sn( Element Map)142 1 TN()EA()BN}if -2 NH le{143(3.20\240\240)2 C(2.10)WB 53 Sn( Mapping for Global Attributes)143 1 TN()EA()BN}if -2 NH le{144(3.21\240\240)2 C(2.11)WB 54 Sn( Mapping for )SM(xsi:type)ES( and Substi)HY(tu)HY(tion)YH( - Groups)144 1 TN()EA()BN}if -2 NH le{145(3.22\240\240)2 C(2.12)WB 55 Sn( Mapping for )SM(any)ES( and )SM(anyAt)HY(tribute)YH()ES()145 1 TN()EA()BN}if -3 NH le{146(3.22.1\240\240)3 C(2.12.1)WB 56 Sn( Mapping for )SM(any)ES( with the One Cardi)HY(nal)HY(ity)YH( Class)146 1 TN()EA()BN}if -3 NH le{147(3.22.2\240\240)3 C(2.12.2)WB 57 Sn( Mapping for )SM(any)ES( with the Optional Cardi)HY(nal)HY(ity)YH( Class)147 1 TN()EA()BN}if -3 NH le{148(3.22.3\240\240)3 C(2.12.3)WB 58 Sn( Mapping for )SM(any)ES( with the Sequence Cardi)HY(nal)HY(ity)YH( Class)148 1 TN()EA()BN}if -3 NH le{149(3.22.4\240\240)3 C(2.12.4)WB 59 Sn( Mapping for )SM(anyAt)HY(tribute)YH()ES()149 1 TN()EA()BN}if -2 NH le{150(3.23\240\240)2 C(2.13)WB 60 Sn( Mapping for Mixed Content Models)150 1 TN()EA()BN}if -1 NH le{151(4\240\240)1 C(3)WB 61 Sn( Parsing)151 1 TN()EA()BN}if -2 NH le{152(4.1\240\240)2 C(3.1)WB 62 Sn( Initial)HY(iz)HY(ing)YH( the Xerces-C++ Runtime)152 1 TN()EA()BN}if -2 NH le{153(4.2\240\240)2 C(3.2)WB 63 Sn( Flags and Prop)HY(er)HY(ties)YH()153 1 TN()EA()BN}if -2 NH le{154(4.3\240\240)2 C(3.3)WB 64 Sn( Error Handling)154 1 TN()EA()BN}if -3 NH le{155(4.3.1\240\240)3 C(3.3.1)WB 65 Sn( )SM(xml_schema::parsing)ES()155 1 TN()EA()BN}if -3 NH le{156(4.3.2\240\240)3 C(3.3.2)WB 66 Sn( )SM(xml_schema::expected_element)ES()156 1 TN()EA()BN}if -3 NH le{157(4.3.3\240\240)3 C(3.3.3)WB 67 Sn( )SM(xml_schema::unex)HY(pected)YH(_element)ES()157 1 TN()EA()BN}if -3 NH le{158(4.3.4\240\240)3 C(3.3.4)WB 68 Sn( )SM(xml_schema::expected_attribute)ES()158 1 TN()EA()BN}if -3 NH le{159(4.3.5\240\240)3 C(3.3.5)WB 69 Sn( )SM(xml_schema::unex)HY(pected)YH(_enumer)HY(a)HY(tor)YH()ES()159 1 TN()EA()BN}if -3 NH le{160(4.3.6\240\240)3 C(3.3.6)WB 70 Sn( )SM(xml_schema::expected_text_content)ES()160 1 TN()EA()BN}if -3 NH le{161(4.3.7\240\240)3 C(3.3.7)WB 71 Sn( )SM(xml_schema::no_type_info)ES()161 1 TN()EA()BN}if -3 NH le{162(4.3.8\240\240)3 C(3.3.8)WB 72 Sn( )SM(xml_schema::not_derived)ES()162 1 TN()EA()BN}if -3 NH le{163(4.3.9\240\240)3 C(3.3.9)WB 73 Sn( )SM(xml_schema::no_prefix_mapping)ES()163 1 TN()EA()BN}if -2 NH le{164(4.4\240\240)2 C(3.4)WB 74 Sn( Reading from a Local File or URI)164 1 TN()EA()BN}if -2 NH le{165(4.5\240\240)2 C(3.5)WB 75 Sn( Reading from )SM(std::istream)ES()165 1 TN()EA()BN}if -2 NH le{166(4.6\240\240)2 C(3.6)WB 76 Sn( Reading from )SM(xercesc::Input)HY(Source)YH()ES()166 1 TN()EA()BN}if -2 NH le{167(4.7\240\240)2 C(3.7)WB 77 Sn( Reading from DOM)167 1 TN()EA()BN}if -1 NH le{168(5\240\240)1 C(4)WB 78 Sn( Seri)HY(al)HY(iza)HY(tion)YH()168 1 TN()EA()BN}if -2 NH le{169(5.1\240\240)2 C(4.1)WB 79 Sn( Initial)HY(iz)HY(ing)YH( the Xerces-C++ Runtime)169 1 TN()EA()BN}if -2 NH le{170(5.2\240\240)2 C(4.2)WB 80 Sn( Names)HY(pace)YH( Infomap and Char)HY(ac)HY(ter)YH( Encod)HY(ing)YH()170 1 TN()EA()BN}if -2 NH le{171(5.3\240\240)2 C(4.3)WB 81 Sn( Flags)171 1 TN()EA()BN}if -2 NH le{172(5.4\240\240)2 C(4.4)WB 82 Sn( Error Handling)172 1 TN()EA()BN}if -3 NH le{173(5.4.1\240\240)3 C(4.4.1)WB 83 Sn( )SM(xml_schema::seri)HY(al)HY(iza)HY(tion)YH()ES()173 1 TN()EA()BN}if -3 NH le{174(5.4.2\240\240)3 C(4.4.2)WB 84 Sn( )SM(xml_schema::unex)HY(pected)YH(_element)ES()174 1 TN()EA()BN}if -3 NH le{175(5.4.3\240\240)3 C(4.4.3)WB 85 Sn( )SM(xml_schema::no_type_info)ES()175 1 TN()EA()BN}if -2 NH le{176(5.5\240\240)2 C(4.5)WB 86 Sn( Seri)HY(al)HY(iz)HY(ing)YH( to )SM(std::ostream)ES()176 1 TN()EA()BN}if -2 NH le{177(5.6\240\240)2 C(4.6)WB 87 Sn( Seri)HY(al)HY(iz)HY(ing)YH( to )SM(xercesc::XMLFor)HY(mat)HY(Tar)HY(get)YH()ES()177 1 TN()EA()BN}if -2 NH le{178(5.7\240\240)2 C(4.7)WB 88 Sn( Seri)HY(al)HY(iz)HY(ing)YH( to DOM)178 1 TN()EA()BN}if -1 NH le{179(6\240\240)1 C(5)WB 89 Sn( Addi)HY(tional)YH( Func)HY(tion)HY(al)HY(ity)YH()179 1 TN()EA()BN}if -2 NH le{180(6.1\240\240)2 C(5.1)WB 90 Sn( DOM Asso)HY(ci)HY(a)HY(tion)YH()180 1 TN()EA()BN}if -2 NH le{181(6.2\240\240)2 C(5.2)WB 91 Sn( Binary Seri)HY(al)HY(iza)HY(tion)YH()181 1 TN()EA()BN}if -1 NH le{182(7\240\240)1 C(Appendix)WB 92 Sn( A \236 Default and Fixed Values)182 1 TN()EA()BN}if -/OU t D /Cb Db D NP Ep ET -/Cb Db D /Ct [16#00 16#00 16#00] D /Cl [16#00 16#00 16#00] D /CL -1 D Ct Sc - -/Ba f D /BO 0 D Bs -/UR (/home/boris/work/xsd/xsd/documentation/cxx/tree/manual/index.xhtml) D -/Ti (C++/Tree Mapping User Manual) D -/Au () D -/Df f D -/ME [(2.3.0)] D - -NP RC ZF -()1 Sl()WB 0 Sn( - -)BR()WB 1 Sn( )BR()WB 2 Sn( - - - )0 1 0 H(Preface)WB 94 Sn()WB 3 Sn()EA()EH( - - )0 2 1 H(About)WB 95 Sn()WB 4 Sn( This Docu)HY(ment)YH()EA()EH( - - )0 P(This docu)HY(ment)YH( describes the mapping of W3C XML Schema - to the C++ program)HY(ming)YH( language as imple)HY(mented)YH( by - )R1 2 A(CodeSyn)HY(the)HY(sis)YH( - XSD)EA( - an XML Schema to C++ data binding compiler. The mapping - repre)HY(sents)YH( infor)HY(ma)HY(tion)YH( stored in XML instance docu)HY(ments)YH( as a - stat)HY(i)HY(cally)YH(-typed, tree-like in-memory data struc)HY(ture)YH( and is - called C++/Tree. - )EP( - - )0 P(Revi)HY(sion)YH( 2.3.0)BR( - This revi)HY(sion)YH( of the manual describes the C++/Tree - mapping as imple)HY(mented)YH( by CodeSyn)HY(the)HY(sis)YH( XSD version 3.3.0. - )EP( - - )0 P(This docu)HY(ment)YH( is avail)HY(able)YH( in the follow)HY(ing)YH( formats: - )R2 2 A(XHTML)EA(, - )R3 2 A(PDF)EA(, and - )R4 2 A(PostScript)EA(.)EP( - - )0 2 2 H(More)WB 96 Sn()WB 5 Sn( Infor)HY(ma)HY(tion)YH()EA()EH( - - )0 P(Beyond this manual, you may also find the follow)HY(ing)YH( sources of - infor)HY(ma)HY(tion)YH( useful:)EP( - - )UL( )-1 LI()R5 2 A(C++/Tree - Mapping Getting Started Guide)EA( - - )-1 LI()R6 2 A(C++/Tree - Mapping Customiza)HY(tion)YH( Guide)EA( - - )-1 LI()R7 2 A(C++/Tree - Mapping and Berke)HY(ley)YH( DB XML Inte)HY(gra)HY(tion)YH( Guide)EA( - - )-1 LI()R8 2 A(C++/Tree - Mapping Frequently Asked Ques)HY(tions)YH( \201FAQ\202)EA( - - )-1 LI()R9 2 A(XSD - Compiler Command Line Manual)EA( - - )-1 LI(The )SM(exam)HY(ples)YH(/cxx/tree/)ES( direc)HY(tory)YH( in the XSD - distri)HY(bu)HY(tion)YH( contains a collec)HY(tion)YH( of exam)HY(ples)YH( and a README - file with an overview of each example. - - )-1 LI(The )SM(README)ES( file in the XSD distri)HY(bu)HY(tion)YH( explains - how to compile the exam)HY(ples)YH( on various plat)HY(forms)YH(. - - )-1 LI(The )R10 2 A(xsd-users)EA( - mailing list is a place to ask ques)HY(tions)YH(. Further)HY(more)YH( the - )R11 2 A(archives)EA( - may already have answers to some of your ques)HY(tions)YH(. - - )LU( - - - )0 1 3 H(1)WB 97 Sn()WB 6 Sn( Intro)HY(duc)HY(tion)YH()EA()EH( - - )0 P(C++/Tree is a W3C XML Schema to C++ mapping that repre)HY(sents)YH( the - data stored in XML as a stat)HY(i)HY(cally)YH(-typed, vocab)HY(u)HY(lary)YH(-specific - object model. Based on a formal descrip)HY(tion)YH( of an XML vocab)HY(u)HY(lary)YH( - \201schema\202, the C++/Tree mapping produces a tree-like data struc)HY(ture)YH( - suit)HY(able)YH( for in-memory process)HY(ing)YH( as well as XML parsing and - seri)HY(al)HY(iza)HY(tion)YH( code.)EP( - - )0 P(A typical appli)HY(ca)HY(tion)YH( that processes XML docu)HY(ments)YH( usually - performs the follow)HY(ing)YH( three steps: it first reads \201parses\202 an XML - instance docu)HY(ment)YH( to an object model, it then performs - some useful compu)HY(ta)HY(tions)YH( on that model which may involve - modi)HY(fi)HY(ca)HY(tion)YH( of the model, and finally it may write \201seri)HY(al)HY(ize)YH(\202 - the modi)HY(fied)YH( object model back to XML. - )EP( - - )0 P(The C++/Tree mapping consists of C++ types that repre)HY(sent)YH( the - given vocab)HY(u)HY(lary)YH( \201)0 7 1 A(Chapter 2, "C++/Tree Mapping")7 0 TN TL()Ec /AF f D(\202, - a set of parsing func)HY(tions)YH( that convert XML docu)HY(ments)YH( to - a tree-like in-memory data struc)HY(ture)YH( \201)0 61 1 A(Chapter 3, - "Parsing")61 0 TN TL()Ec /AF f D(\202, and a set of seri)HY(al)HY(iza)HY(tion)YH( func)HY(tions)YH( that convert - the object model back to XML \201)0 78 1 A(Chapter 4, - "Seri)HY(al)HY(iza)HY(tion)YH(")78 0 TN TL()Ec /AF f D(\202. Further)HY(more)YH(, the mapping provides a number - of addi)HY(tional)YH( features, such as DOM asso)HY(ci)HY(a)HY(tion)YH( and binary - seri)HY(al)HY(iza)HY(tion)YH(, that can be useful in some appli)HY(ca)HY(tions)YH( - \201)0 89 1 A(Chapter 5, "Addi)HY(tional)YH( Func)HY(tion)HY(al)HY(ity)YH(")89 0 TN TL()Ec /AF f D(\202. - )EP( - - - - - - )0 1 4 H(2)WB 98 Sn()WB 7 Sn( C++/Tree Mapping)EA()EH( - - )0 2 5 H(2.1)WB 99 Sn()WB 8 Sn( Prelim)HY(i)HY(nary)YH( Infor)HY(ma)HY(tion)YH()EA()EH( - - )0 3 6 H(2.1.1)WB 100 Sn()WB 9 Sn( Iden)HY(ti)HY(fiers)YH()EA()EH( - - )0 P(XML Schema names may happen to be reserved C++ keywords or contain - char)HY(ac)HY(ters)YH( that are illegal in C++ iden)HY(ti)HY(fiers)YH(. To avoid C++ compi)HY(la)HY(tion)YH( - prob)HY(lems)YH(, such names are changed \201escaped\202 when mapped to C++. If an - XML Schema name is a C++ keyword, the "_" suffix is added to it. All - char)HY(ac)HY(ter)YH( of an XML Schema name that are not allowed in C++ iden)HY(ti)HY(fiers)YH( - are replaced with "_". - )EP( - - )0 P(For example, XML Schema name )SM(try)ES( will be mapped to - C++ iden)HY(ti)HY(fier)YH( )SM(try_)ES(. Simi)HY(larly)YH(, XML Schema name - )SM(strange.na-me)ES( will be mapped to C++ iden)HY(ti)HY(fier)YH( - )SM(strange_na_me)ES(. - )EP( - - )0 P(Further)HY(more)YH(, conflicts between type names and func)HY(tion)YH( names in the - same scope are resolved using name escap)HY(ing)YH(. Such conflicts include - both a global element \201which is mapped to a set of parsing and/or - seri)HY(al)HY(iza)HY(tion)YH( func)HY(tions)YH( or element types, see )0 50 1 A(Section - 2.9, "Mapping for Global Elements")50 0 TN TL()Ec /AF f D(\202 and a global type sharing the - same name as well as a local element or attribute inside a type having - the same name as the type itself.)EP( - - )0 P(For example, if we had a global type )SM(catalog)ES( - and a global element with the same name then the type would be - mapped to a C++ class with name )SM(catalog)ES( while the - parsing func)HY(tions)YH( corre)HY(spond)HY(ing)YH( to the global element would have - their names escaped as )SM(catalog_)ES(. - )EP( - - )0 P(By default the mapping uses the so-called K&R \201Kernighan and - Ritchie\202 iden)HY(ti)HY(fier)YH( naming conven)HY(tion)YH( which is also used through)HY(out)YH( - this manual. In this conven)HY(tion)YH( both type and func)HY(tion)YH( names are in - lower case and words are sepa)HY(rated)YH( by under)HY(scores)YH(. If your appli)HY(ca)HY(tion)YH( - code or schemas use a differ)HY(ent)YH( nota)HY(tion)YH(, you may want to change the - naming conven)HY(tion)YH( used by the mapping for consis)HY(tency)YH(. - The compiler supports a set of widely-used naming conven)HY(tions)YH( - that you can select with the )SM(--type-naming)ES( and - )SM(--func)HY(tion)YH(-naming)ES( options. You can also further - refine one of the prede)HY(fined)YH( conven)HY(tions)YH( or create a completely - custom naming scheme by using the )SM(--*-regex)ES( options. - For more detailed infor)HY(ma)HY(tion)YH( on these options refer to the NAMING - CONVEN)HY(TION)YH( section in the )R9 2 A(XSD - Compiler Command Line Manual)EA(.)EP( - - )0 3 7 H(2.1.2)WB 101 Sn()WB 10 Sn( Char)HY(ac)HY(ter)YH( Type and Encod)HY(ing)YH()EA()EH( - - )0 P(The code that imple)HY(ments)YH( the mapping, depend)HY(ing)YH( on the - )SM(--char-type)ES( option, is gener)HY(ated)YH( using either - )SM(char)ES( or )SM(wchar_t)ES( as the char)HY(ac)HY(ter)YH( - type. In this docu)HY(ment)YH( code samples use symbol )SM(C)ES( - to refer to the char)HY(ac)HY(ter)YH( type you have selected when trans)HY(lat)HY(ing)YH( - your schemas, for example )SM(std::basic_string)ES(. - )EP( - - )0 P(Another aspect of the mapping that depends on the char)HY(ac)HY(ter)YH( type - is char)HY(ac)HY(ter)YH( encod)HY(ing)YH(. For the )SM(char)ES( char)HY(ac)HY(ter)YH( type - the default encod)HY(ing)YH( is UTF-8. Other supported encod)HY(ings)YH( are - ISO-8859-1, Xerces-C++ Local Code Page \201LPC\202, as well as - custom encod)HY(ings)YH( and can be selected with the - )SM(--char-encod)HY(ing)YH()ES( command line option.)EP( - - )0 P(For the )SM(wchar_t)ES( char)HY(ac)HY(ter)YH( type the encod)HY(ing)YH( is - auto)HY(mat)HY(i)HY(cally)YH( selected between UTF-16 and UTF-32/UCS-4 depend)HY(ing)YH( - on the size of the )SM(wchar_t)ES( type. On some plat)HY(forms)YH( - \201for example, Windows with Visual C++ and AIX with IBM XL C++\202 - )SM(wchar_t)ES( is 2 bytes long. For these plat)HY(forms)YH( the - encod)HY(ing)YH( is UTF-16. On other plat)HY(forms)YH( )SM(wchar_t)ES( is 4 bytes - long and UTF-32/UCS-4 is used.)EP( - - )0 3 8 H(2.1.3)WB 102 Sn()WB 11 Sn( XML Schema Names)HY(pace)YH()EA()EH( - - )0 P(The mapping relies on some prede)HY(fined)YH( types, classes, and func)HY(tions)YH( - that are logi)HY(cally)YH( defined in the XML Schema names)HY(pace)YH( reserved for - the XML Schema language \201)SM(http://www.w3.org/2001/XMLSchema)ES(\202. - By default, this names)HY(pace)YH( is mapped to C++ names)HY(pace)YH( - )SM(xml_schema)ES(. It is auto)HY(mat)HY(i)HY(cally)YH( acces)HY(si)HY(ble)YH( - from a C++ compi)HY(la)HY(tion)YH( unit that includes a header file gener)HY(ated)YH( - from an XML Schema defi)HY(ni)HY(tion)YH(. - )EP( - - )0 P(Note that, if desired, the default mapping of this names)HY(pace)YH( can be - changed as described in )0 19 1 A(Section 2.4, "Mapping for - Names)HY(paces)YH(")19 0 TN TL()Ec /AF f D(. - )EP( - - - )0 3 9 H(2.1.4)WB 103 Sn()WB 12 Sn( Anony)HY(mous)YH( Types)EA()EH( - - )0 P(For the purpose of code gener)HY(a)HY(tion)YH(, anony)HY(mous)YH( types defined in - XML Schema are auto)HY(mat)HY(i)HY(cally)YH( assigned names that are derived - from enclos)HY(ing)YH( attributes and elements. Other)HY(wise)YH(, such types - follows stan)HY(dard)YH( mapping rules for simple and complex type - defi)HY(ni)HY(tions)YH( \201see )0 38 1 A(Section 2.6, "Mapping for Simple Types")38 0 TN TL()Ec /AF f D( - and )0 43 1 A(Section 2.7, "Mapping for Complex Types")43 0 TN TL()Ec /AF f D(\202. - For example, in the follow)HY(ing)YH( schema frag)HY(ment)YH(: - )EP( - - ) 5 23 PR( - - ... - -)RP( - - )0 P(The anony)HY(mous)YH( type defined inside element )SM(object)ES( will - be given name )SM(object)ES(. The compiler has a number of - options that control the process of anony)HY(mous)YH( type naming. For more - infor)HY(ma)HY(tion)YH( refer to the )R9 2 A(XSD - Compiler Command Line Manual)EA(.)EP( - - - )0 2 10 H(2.2)WB 104 Sn()WB 13 Sn( Error Handling)EA()EH( - - )0 P(The mapping uses the C++ excep)HY(tion)YH( handling mech)HY(a)HY(nism)YH( as a primary way - of report)HY(ing)YH( error condi)HY(tions)YH(. All excep)HY(tions)YH( that are spec)HY(i)HY(fied)YH( in - this mapping derive from )SM(xml_schema::excep)HY(tion)YH()ES( which - itself is derived from )SM(std::excep)HY(tion)YH()ES(: - )EP( - - ) 14 60 PR(struct exception: virtual std::exception -{ - friend - std::basic_ostream& - operator<< \201std::basic_ostream& os, const exception& e\202 - { - e.print \201os\202; - return os; - } - -protected: - virtual void - print \201std::basic_ostream&\202 const = 0; -};)RP( - - )0 P(The excep)HY(tion)YH( hier)HY(ar)HY(chy)YH( supports "virtual" )SM(oper)HY(a)HY(tor)YH(<<)ES( - which allows you to obtain diag)HY(nos)HY(tics)YH( corre)HY(spond)HY(ing)YH( to the thrown - excep)HY(tion)YH( using the base excep)HY(tion)YH( inter)HY(face)YH(. For example:)EP( - - ) 8 38 PR(try -{ - ... -} -catch \201const xml_schema::exception& e\202 -{ - cerr << e << endl; -})RP( - - )0 P(The follow)HY(ing)YH( sub-sections describe excep)HY(tions)YH( thrown by the - types that consti)HY(tute)YH( the object model. - )0 64 1 A(Section 3.3, "Error Handling")64 0 TN TL()Ec /AF f D( of - )0 61 1 A(Chapter 3, "Parsing")61 0 TN TL()Ec /AF f D( describes excep)HY(tions)YH( - and error handling mech)HY(a)HY(nisms)YH( specific to the parsing func)HY(tions)YH(. - )0 82 1 A(Section 4.4, "Error Handling")82 0 TN TL()Ec /AF f D( of - )0 78 1 A(Chapter 4, "Seri)HY(al)HY(iza)HY(tion)YH(")78 0 TN TL()Ec /AF f D( describes excep)HY(tions)YH( - and error handling mech)HY(a)HY(nisms)YH( specific to the seri)HY(al)HY(iza)HY(tion)YH( func)HY(tions)YH(. - )EP( - - - )0 3 11 H(2.2.1)WB 105 Sn()WB 14 Sn( )SM(xml_schema::dupli)HY(cate)YH(_id)ES()EA()EH( - - ) 10 48 PR(struct duplicate_id: virtual exception -{ - duplicate_id \201const std::basic_string& id\202; - - const std::basic_string& - id \201\202 const; - - virtual const char* - what \201\202 const throw \201\202; -};)RP( - - )0 P(The )SM(xml_schema::dupli)HY(cate)YH(_id)ES( is thrown when - a conflict)HY(ing)YH( instance of )SM(xml_schema::id)ES( \201see - )0 20 1 A(Section 2.5, "Mapping for Built-in Data Types")20 0 TN TL()Ec /AF f D(\202 - is added to a tree. The offend)HY(ing)YH( ID value can be obtained using - the )SM(id)ES( func)HY(tion)YH(. - )EP( - - )0 2 12 H(2.3)WB 106 Sn()WB 15 Sn( Mapping for )SM(import)ES( and )SM(include)ES()EA()EH( - - )0 3 13 H(2.3.1)WB 107 Sn()WB 16 Sn( Import)EA()EH( - - )0 P(The XML Schema )SM(import)ES( element is mapped to the C++ - Prepro)HY(ces)HY(sor)YH( )SM(#include)ES( direc)HY(tive)YH(. The value of - the )SM(schemaLo)HY(ca)HY(tion)YH()ES( attribute is used to derive - the name of the header file that appears in the )SM(#include)ES( - direc)HY(tive)YH(. For instance: - )EP( - - ) 2 53 PR()RP( - - )0 P(is mapped to:)EP( - - ) 1 19 PR(#include "test.hxx")RP( - - )0 P(Note that you will need to compile imported schemas sepa)HY(rately)YH( - in order to produce corre)HY(spond)HY(ing)YH( header files.)EP( - - )0 3 14 H(2.3.2)WB 108 Sn()WB 17 Sn( Inclu)HY(sion)YH( with Target Names)HY(pace)YH()EA()EH( - - )0 P(The XML Schema )SM(include)ES( element which refers to a schema - with a target names)HY(pace)YH( or appears in a schema without a target names)HY(pace)YH( - follows the same mapping rules as the )SM(import)ES( element, - see )0 16 1 A(Section 2.3.1, "Import")16 0 TN TL()Ec /AF f D(. - )EP( - - )0 3 15 H(2.3.3)WB 109 Sn()WB 18 Sn( Inclu)HY(sion)YH( without Target Names)HY(pace)YH()EA()EH( - - )0 P(For the XML Schema )SM(include)ES( element which refers to a schema - without a target names)HY(pace)YH( and appears in a schema with a target - names)HY(pace)YH( \201such inclu)HY(sion)YH( some)HY(times)YH( called "chameleon inclu)HY(sion)YH("\202, - decla)HY(ra)HY(tions)YH( and defi)HY(ni)HY(tions)YH( from the included schema are gener)HY(ated)YH( - in-line in the names)HY(pace)YH( of the includ)HY(ing)YH( schema as if they were - declared and defined there verba)HY(tim)YH(. For example, consider the - follow)HY(ing)YH( two schemas: - )EP( - - ) 11 60 PR(<-- common.xsd --> - - - ... - - - -<-- test.xsd --> - - -)RP( - - )0 P(The frag)HY(ment)YH( of inter)HY(est)YH( from the gener)HY(ated)YH( header file for - )SM(text.xsd)ES( would look like this:)EP( - - ) 8 14 PR(// test.hxx -namespace test -{ - class type - { - ... - }; -})RP( - - )0 2 16 H(2.4)WB 110 Sn()WB 19 Sn( Mapping for Names)HY(paces)YH()EA()EH( - - )0 P(An XML Schema names)HY(pace)YH( is mapped to one or more nested C++ - names)HY(paces)YH(. XML Schema names)HY(paces)YH( are iden)HY(ti)HY(fied)YH( by URIs. - By default, a names)HY(pace)YH( URI is mapped to a sequence of - C++ names)HY(pace)YH( names by remov)HY(ing)YH( the proto)HY(col)YH( and host parts - and split)HY(ting)YH( the rest into a sequence of names with ')SM(/)ES(' - as the name sepa)HY(ra)HY(tor)YH(. For instance: - )EP( - - ) 3 67 PR( - ... -)RP( - - )0 P(is mapped to:)EP( - - ) 7 16 PR(namespace system -{ - namespace test - { - ... - } -})RP( - - )0 P(The default mapping of names)HY(pace)YH( URIs to C++ names)HY(pace)YH( names can be - altered using the )SM(--names)HY(pace)YH(-map)ES( and - )SM(--names)HY(pace)YH(-regex)ES( options. See the - )R9 2 A(XSD - Compiler Command Line Manual)EA( for more infor)HY(ma)HY(tion)YH(. - )EP( - - )0 2 17 H(2.5)WB 111 Sn()WB 20 Sn( Mapping for Built-in Data Types)EA()EH( - - )0 P(The mapping of XML Schema built-in data types to C++ types is - summa)HY(rized)YH( in the table below.)EP( - - - )0 PT( - - )0 P(All XML Schema built-in types are mapped to C++ classes that are - derived from the )SM(xml_schema::simple_type)ES( class except - where the mapping is to a funda)HY(men)HY(tal)YH( C++ type.)EP( - - )0 P(The )SM(sequence)ES( class template is defined in an - imple)HY(men)HY(ta)HY(tion)YH(-specific names)HY(pace)YH(. It conforms to the - sequence inter)HY(face)YH( as defined by the ISO/ANSI Stan)HY(dard)YH( for - C++ \201ISO/IEC 14882:1998, Section 23.1.1, "Sequences"\202. - Prac)HY(ti)HY(cally)YH(, this means that you can treat such a sequence - as if it was )SM(std::vector)ES(. One notable exten)HY(sion)YH( - to the stan)HY(dard)YH( inter)HY(face)YH( that is avail)HY(able)YH( only for - sequences of non-funda)HY(men)HY(tal)YH( C++ types is the addi)HY(tion)YH( of - the over)HY(loaded)YH( )SM(push_back)ES( and )SM(insert)ES( - member func)HY(tions)YH( which instead of the constant refer)HY(ence)YH( - to the element type accept auto)HY(matic)YH( pointer to the element - type. These func)HY(tions)YH( assume owner)HY(ship)YH( of the pointed to - object and resets the passed auto)HY(matic)YH( pointer. - )EP( - - )0 3 18 H(2.5.1)WB 112 Sn()WB 22 Sn( Inher)HY(i)HY(tance)YH( from Built-in Data Types)EA()EH( - - )0 P(In cases where the mapping calls for an inher)HY(i)HY(tance)YH( from a built-in - type which is mapped to a funda)HY(men)HY(tal)YH( C++ type, a proxy type is - used instead of the funda)HY(men)HY(tal)YH( C++ type \201C++ does not allow - inher)HY(i)HY(tance)YH( from funda)HY(men)HY(tal)YH( types\202. For instance:)EP( - - ) 3 27 PR( - -)RP( - - )0 P(is mapped to:)EP( - - ) 4 42 PR(class my_int: public fundamental_base -{ - ... -};)RP( - - )0 P(The )SM(funda)HY(men)HY(tal)YH(_base)ES( class template provides a close - emula)HY(tion)YH( \201though not exact\202 of a funda)HY(men)HY(tal)YH( C++ type. - It is defined in an imple)HY(men)HY(ta)HY(tion)YH(-specific names)HY(pace)YH( and has the - follow)HY(ing)YH( inter)HY(face)YH(:)EP( - - ) 22 44 PR(template -class fundamental_base: public simple_type -{ -public: - fundamental_base \201\202; - fundamental_base \201X\202 - fundamental_base \201const fundamental_base&\202 - -public: - fundamental_base& - operator= \201const X&\202; - -public: - operator const X & \201\202 const; - operator X& \201\202; - - template - operator Y \201\202 const; - - template - operator Y \201\202; -};)RP( - - )0 3 19 H(2.5.2)WB 113 Sn()WB 23 Sn( Mapping for )SM(anyType)ES()EA()EH( - - )0 P(The XML Schema )SM(anyType)ES( built-in data type is mapped to the - )SM(xml_schema::type)ES( C++ class:)EP( - - ) 27 26 PR(class type -{ -public: - virtual - ~type \201\202; - -public: - type \201\202; - type \201const type&\202; - -public: - type& - operator= \201const type&\202; - -public: - virtual type* - _clone \201\202 const; - - // DOM association. - // -public: - const xercesc::DOMNode* - _node \201\202 const; - - xercesc::DOMNode* - _node \201\202; -};)RP( - - )0 P(For more infor)HY(ma)HY(tion)YH( about DOM asso)HY(ci)HY(a)HY(tion)YH( refer to - )0 90 1 A(Section 5.1, "DOM Asso)HY(ci)HY(a)HY(tion)YH(")90 0 TN TL()Ec /AF f D(.)EP( - - )0 3 20 H(2.5.3)WB 114 Sn()WB 24 Sn( Mapping for )SM(anySim)HY(ple)HY(Type)YH()ES()EA()EH( - - )0 P(The XML Schema )SM(anySim)HY(ple)HY(Type)YH()ES( built-in data type is mapped - to the )SM(xml_schema::simple_type)ES( C++ class:)EP( - - ) 14 35 PR(class simple_type: public type -{ -public: - simple_type \201\202; - simple_type \201const simple_type&\202; - -public: - simple_type& - operator= \201const simple_type&\202; - -public: - virtual simple_type* - _clone \201\202 const; -};)RP( - - - )0 3 21 H(2.5.4)WB 115 Sn()WB 25 Sn( Mapping for )SM(QName)ES()EA()EH( - - )0 P(The XML Schema )SM(QName)ES( built-in data type is mapped to the - )SM(xml_schema::qname)ES( C++ class:)EP( - - ) 25 36 PR(class qname: public simple_type -{ -public: - qname \201const ncname&\202; - qname \201const uri&, const ncname&\202; - qname \201const qname&\202; - -public: - qname& - operator= \201const qname&\202; - -public: - virtual qname* - _clone \201\202 const; - -public: - bool - qualified \201\202 const; - - const uri& - namespace_ \201\202 const; - - const ncname& - name \201\202 const; -};)RP( - - )0 P(The )SM(qual)HY(i)HY(fied)YH()ES( acces)HY(sor)YH( func)HY(tion)YH( can be used to deter)HY(mine)YH( - if the name is qual)HY(i)HY(fied)YH(.)EP( - - )0 3 22 H(2.5.5)WB 116 Sn()WB 26 Sn( Mapping for )SM(IDREF)ES()EA()EH( - - )0 P(The XML Schema )SM(IDREF)ES( built-in data type is mapped to the - )SM(xml_schema::idref)ES( C++ class. This class imple)HY(ments)YH( the - smart pointer C++ idiom:)EP( - - ) 56 44 PR(class idref: public ncname -{ -public: - idref \201const C* s\202; - idref \201const C* s, std::size_t n\202; - idref \201std::size_t n, C c\202; - idref \201const std::basic_string&\202; - idref \201const std::basic_string&, - std::size_t pos, - std::size_t n = npos\202; - -public: - idref \201const idref&\202; - -public: - virtual idref* - _clone \201\202 const; - -public: - idref& - operator= \201C c\202; - - idref& - operator= \201const C* s\202; - - idref& - operator= \201const std::basic_string&\202 - - idref& - operator= \201const idref&\202; -)WR( -public: - const type* - operator-> \201\202 const; - - type* - operator-> \201\202; - - const type& - operator* \201\202 const; - - type& - operator* \201\202; - - const type* - get \201\202 const; - - type* - get \201\202; - - // Conversion to bool. - // -public: - typedef void \201idref::*bool_convertible\202\201\202; - operator bool_convertible \201\202 const; -};)RP( - - )0 P(The object, )SM(idref)ES( instance refers to, is the imme)HY(di)HY(ate)YH( - container of the match)HY(ing)YH( )SM(id)ES( instance. For example, - with the follow)HY(ing)YH( instance docu)HY(ment)YH( and schema: - )EP( - - - ) 22 49 PR( - - - obj-1 - - - - - - - - - - - - - - - - - -)RP( - - )0 P(The )SM(ref)ES( instance in the code below will refer to - an object of type )SM(object_type)ES(:)EP( - - ) 4 53 PR(root_type& root = ...; -xml_schema::idref& ref \201root.reference \201\202\202; -object_type& obj \201dynamic_cast \201*ref\202\202; -cout << obj.text \201\202 << endl;)RP( - - )0 P(The smart pointer inter)HY(face)YH( of the )SM(idref)ES( class always - returns a pointer or refer)HY(ence)YH( to )SM(xml_schema::type)ES(. - This means that you will need to manu)HY(ally)YH( cast such pointer or - refer)HY(ence)YH( to its real \201dynamic\202 type before you can use it \201unless - all you need is the base inter)HY(face)YH( provided by - )SM(xml_schema::type)ES(\202. As a special exten)HY(sion)YH( to the XML - Schema language, the mapping supports static typing of )SM(idref)ES( - refer)HY(ences)YH( by employ)HY(ing)YH( the )SM(refType)ES( exten)HY(sion)YH( attribute. - The follow)HY(ing)YH( example illus)HY(trates)YH( this mech)HY(a)HY(nism)YH(: - )EP( - - ) 11 72 PR( - - - ... - - - - ... - -)RP( - - )0 P(With this modi)HY(fi)HY(ca)HY(tion)YH( we do not need to do manual casting anymore: - )EP( - - ) 4 51 PR(root_type& root = ...; -root_type::reference_type& ref \201root.reference \201\202\202; -object_type& obj \201*ref\202; -cout << ref->text \201\202 << endl;)RP( - - - )0 3 23 H(2.5.6)WB 117 Sn()WB 27 Sn( Mapping for )SM(base64Binary)ES( and - )SM(hexBi)HY(nary)YH()ES()EA()EH( - - )0 P(The XML Schema )SM(base64Binary)ES( and )SM(hexBi)HY(nary)YH()ES( - built-in data types are mapped to the - )SM(xml_schema::base64_binary)ES( and - )SM(xml_schema::hex_binary)ES( C++ classes, respec)HY(tively)YH(. The - )SM(base64_binary)ES( and )SM(hex_binary)ES( classes - support a simple buffer abstrac)HY(tion)YH( by inher)HY(it)HY(ing)YH( from the - )SM(xml_schema::buffer)ES( class: - )EP( - - ) 64 58 PR(class bounds: public virtual exception -{ -public: - virtual const char* - what \201\202 const throw \201\202; -}; - -class buffer -{ -public: - typedef std::size_t size_t; - -public: - buffer \201size_t size = 0\202; - buffer \201size_t size, size_t capacity\202; - buffer \201const void* data, size_t size\202; - buffer \201const void* data, size_t size, size_t capacity\202; - buffer \201void* data, - size_t size, - size_t capacity, - bool assume_ownership\202; - -public: - buffer \201const buffer&\202; - - buffer& - operator= \201const buffer&\202; - - void - swap \201buffer&\202; -)WR( -public: - size_t - capacity \201\202 const; - - bool - capacity \201size_t\202; - -public: - size_t - size \201\202 const; - - bool - size \201size_t\202; - -public: - const char* - data \201\202 const; - - char* - data \201\202; - - const char* - begin \201\202 const; - - char* - begin \201\202; - - const char* - end \201\202 const; -)WR( - char* - end \201\202; -};)RP( - - )0 P(The last over)HY(loaded)YH( construc)HY(tor)YH( reuses an exist)HY(ing)YH( data buffer instead - of making a copy. If the )SM(assume_owner)HY(ship)YH()ES( argu)HY(ment)YH( is - )SM(true)ES(, the instance assumes owner)HY(ship)YH( of the - memory block pointed to by the )SM(data)ES( argu)HY(ment)YH( and will - even)HY(tu)HY(ally)YH( release it by calling )SM(oper)HY(a)HY(tor)YH( delete)ES(. The - )SM(capac)HY(ity)YH()ES( and )SM(size)ES( modi)HY(fier)YH( func)HY(tions)YH( return - )SM(true)ES( if the under)HY(ly)HY(ing)YH( buffer has moved. - )EP( - - )0 P(The )SM(bounds)ES( excep)HY(tion)YH( is thrown if the construc)HY(tor)YH( - argu)HY(ments)YH( violate the )SM(\201size\240<=\240capac)HY(ity)YH(\202)ES( - constraint.)EP( - - )0 P(The )SM(base64_binary)ES( and )SM(hex_binary)ES( classes - support the )SM(buffer)ES( inter)HY(face)YH( and perform auto)HY(matic)YH( - decod)HY(ing)YH(/encod)HY(ing)YH( from/to the Base64 and Hex formats, respec)HY(tively)YH(: - )EP( - - ) 25 65 PR(class base64_binary: public simple_type, public buffer -{ -public: - base64_binary \201size_t size = 0\202; - base64_binary \201size_t size, size_t capacity\202; - base64_binary \201const void* data, size_t size\202; - base64_binary \201const void* data, size_t size, size_t capacity\202; - base64_binary \201void* data, - size_t size, - size_t capacity, - bool assume_ownership\202; - -public: - base64_binary \201const base64_binary&\202; - - base64_binary& - operator= \201const base64_binary&\202; - - virtual base64_binary* - _clone \201\202 const; - -public: - std::basic_string - encode \201\202 const; -};)RP( - - ) 25 62 PR(class hex_binary: public simple_type, public buffer -{ -public: - hex_binary \201size_t size = 0\202; - hex_binary \201size_t size, size_t capacity\202; - hex_binary \201const void* data, size_t size\202; - hex_binary \201const void* data, size_t size, size_t capacity\202; - hex_binary \201void* data, - size_t size, - size_t capacity, - bool assume_ownership\202; - -public: - hex_binary \201const hex_binary&\202; - - hex_binary& - operator= \201const hex_binary&\202; - - virtual hex_binary* - _clone \201\202 const; - -public: - std::basic_string - encode \201\202 const; -};)RP( - - - )0 2 24 H(2.5.7)WB 118 Sn()WB 28 Sn( Time Zone Repre)HY(sen)HY(ta)HY(tion)YH()EA()EH( - - )0 P(The )SM(date)ES(, )SM(date)HY(Time)YH()ES(, )SM(gDay)ES(, - )SM(gMonth)ES(, )SM(gMon)HY(th)HY(Day)YH()ES(, )SM(gYear)ES(, - )SM(gYear)HY(Month)YH()ES(, and )SM(time)ES( XML Schema built-in - types all include an optional time zone compo)HY(nent)YH(. The follow)HY(ing)YH( - )SM(xml_schema::time_zone)ES( base class is used to repre)HY(sent)YH( - this infor)HY(ma)HY(tion)YH(:)EP( - - ) 30 48 PR(class time_zone -{ -public: - time_zone \201\202; - time_zone \201short hours, short minutes\202; - - bool - zone_present \201\202 const; - - void - zone_reset \201\202; - - short - zone_hours \201\202 const; - - void - zone_hours \201short\202; - - short - zone_minutes \201\202 const; - - void - zone_minutes \201short\202; -}; - -bool -operator== \201const time_zone&, const time_zone&\202; - -bool -operator!= \201const time_zone&, const time_zone&\202;)RP( - - )0 P(The )SM(zone_present\201\202)ES( acces)HY(sor)YH( func)HY(tion)YH( returns )SM(true)ES( - if the time zone is spec)HY(i)HY(fied)YH(. The )SM(zone_reset\201\202)ES( modi)HY(fier)YH( - func)HY(tion)YH( resets the time zone object to the )EM(not spec)HY(i)HY(fied)YH()ES( - state. If the time zone offset is nega)HY(tive)YH( then both hours and - minutes compo)HY(nents)YH( are repre)HY(sented)YH( as nega)HY(tive)YH( inte)HY(gers)YH(.)EP( - - - )0 2 25 H(2.5.8)WB 119 Sn()WB 29 Sn( Mapping for )SM(date)ES()EA()EH( - - )0 P(The XML Schema )SM(date)ES( built-in data type is mapped to the - )SM(xml_schema::date)ES( C++ class which repre)HY(sents)YH( a year, a day, - and a month with an optional time zone. Its inter)HY(face)YH( is presented - below. For more infor)HY(ma)HY(tion)YH( on the base )SM(xml_schema::time_zone)ES( - class refer to )0 28 1 A(Section 2.5.7, "Time Zone - Repre)HY(sen)HY(ta)HY(tion)YH(")28 0 TN TL()Ec /AF f D(.)EP( - - ) 41 60 PR(class date: public simple_type, public time_zone -{ -public: - date \201int year, unsigned short month, unsigned short day\202; - date \201int year, unsigned short month, unsigned short day, - short zone_hours, short zone_minutes\202; - -public: - date \201const date&\202; - - date& - operator= \201const date&\202; - - virtual date* - _clone \201\202 const; - -public: - int - year \201\202 const; - - void - year \201int\202; - - unsigned short - month \201\202 const; - - void - month \201unsigned short\202; - - unsigned short - day \201\202 const;)WR( - - void - day \201unsigned short\202; -}; - -bool -operator== \201const date&, const date&\202; - -bool -operator!= \201const date&, const date&\202;)RP( - - )0 2 26 H(2.5.9)WB 120 Sn()WB 30 Sn( Mapping for )SM(date)HY(Time)YH()ES()EA()EH( - - )0 P(The XML Schema )SM(date)HY(Time)YH()ES( built-in data type is mapped to the - )SM(xml_schema::date_time)ES( C++ class which repre)HY(sents)YH( a year, a month, - a day, hours, minutes, and seconds with an optional time zone. Its inter)HY(face)YH( - is presented below. For more infor)HY(ma)HY(tion)YH( on the base - )SM(xml_schema::time_zone)ES( class refer to )0 28 1 A(Section - 2.5.7, "Time Zone Repre)HY(sen)HY(ta)HY(tion)YH(")28 0 TN TL()Ec /AF f D(.)EP( - - ) 62 67 PR(class date_time: public simple_type, public time_zone -{ -public: - date_time \201int year, unsigned short month, unsigned short day, - unsigned short hours, unsigned short minutes, - double seconds\202; - - date_time \201int year, unsigned short month, unsigned short day, - unsigned short hours, unsigned short minutes, - double seconds, short zone_hours, short zone_minutes\202; -public: - date_time \201const date_time&\202; - - date_time& - operator= \201const date_time&\202; - - virtual date_time* - _clone \201\202 const; - -public: - int - year \201\202 const; - - void - year \201int\202; - - unsigned short - month \201\202 const; - - void - month \201unsigned short\202;)WR( - - unsigned short - day \201\202 const; - - void - day \201unsigned short\202; - - unsigned short - hours \201\202 const; - - void - hours \201unsigned short\202; - - unsigned short - minutes \201\202 const; - - void - minutes \201unsigned short\202; - - double - seconds \201\202 const; - - void - seconds \201double\202; -}; - -bool -operator== \201const date_time&, const date_time&\202; - -bool)WR( -operator!= \201const date_time&, const date_time&\202;)RP( - - - )0 2 27 H(2.5.10)WB 121 Sn()WB 31 Sn( Mapping for )SM(dura)HY(tion)YH()ES()EA()EH( - - )0 P(The XML Schema )SM(dura)HY(tion)YH()ES( built-in data type is mapped to the - )SM(xml_schema::dura)HY(tion)YH()ES( C++ class which repre)HY(sents)YH( a poten)HY(tially)YH( - nega)HY(tive)YH( dura)HY(tion)YH( in the form of years, months, days, hours, minutes, - and seconds. Its inter)HY(face)YH( is presented below.)EP( - - ) 64 71 PR(class duration: public simple_type -{ -public: - duration \201bool negative, - unsigned int years, unsigned int months, unsigned int days, - unsigned int hours, unsigned int minutes, double seconds\202; -public: - duration \201const duration&\202; - - duration& - operator= \201const duration&\202; - - virtual duration* - _clone \201\202 const; - -public: - bool - negative \201\202 const; - - void - negative \201bool\202; - - unsigned int - years \201\202 const; - - void - years \201unsigned int\202; - - unsigned int - months \201\202 const; -)WR( - void - months \201unsigned int\202; - - unsigned int - days \201\202 const; - - void - days \201unsigned int\202; - - unsigned int - hours \201\202 const; - - void - hours \201unsigned int\202; - - unsigned int - minutes \201\202 const; - - void - minutes \201unsigned int\202; - - double - seconds \201\202 const; - - void - seconds \201double\202; -}; - -bool -operator== \201const duration&, const duration&\202;)WR( - -bool -operator!= \201const duration&, const duration&\202;)RP( - - - )0 2 28 H(2.5.11)WB 122 Sn()WB 32 Sn( Mapping for )SM(gDay)ES()EA()EH( - - )0 P(The XML Schema )SM(gDay)ES( built-in data type is mapped to the - )SM(xml_schema::gday)ES( C++ class which repre)HY(sents)YH( a day of the - month with an optional time zone. Its inter)HY(face)YH( is presented below. - For more infor)HY(ma)HY(tion)YH( on the base )SM(xml_schema::time_zone)ES( - class refer to )0 28 1 A(Section 2.5.7, "Time Zone - Repre)HY(sen)HY(ta)HY(tion)YH(")28 0 TN TL()Ec /AF f D(.)EP( - - ) 29 66 PR(class gday: public simple_type, public time_zone -{ -public: - explicit - gday \201unsigned short day\202; - gday \201unsigned short day, short zone_hours, short zone_minutes\202; - -public: - gday \201const gday&\202; - - gday& - operator= \201const gday&\202; - - virtual gday* - _clone \201\202 const; - -public: - unsigned short - day \201\202 const; - - void - day \201unsigned short\202; -}; - -bool -operator== \201const gday&, const gday&\202; - -bool -operator!= \201const gday&, const gday&\202;)RP( - - - )0 2 29 H(2.5.12)WB 123 Sn()WB 33 Sn( Mapping for )SM(gMonth)ES()EA()EH( - - )0 P(The XML Schema )SM(gMonth)ES( built-in data type is mapped to the - )SM(xml_schema::gmonth)ES( C++ class which repre)HY(sents)YH( a month of the - year with an optional time zone. Its inter)HY(face)YH( is presented below. - For more infor)HY(ma)HY(tion)YH( on the base )SM(xml_schema::time_zone)ES( - class refer to )0 28 1 A(Section 2.5.7, "Time Zone - Repre)HY(sen)HY(ta)HY(tion)YH(")28 0 TN TL()Ec /AF f D(.)EP( - - ) 30 50 PR(class gmonth: public simple_type, public time_zone -{ -public: - explicit - gmonth \201unsigned short month\202; - gmonth \201unsigned short month, - short zone_hours, short zone_minutes\202; - -public: - gmonth \201const gmonth&\202; - - gmonth& - operator= \201const gmonth&\202; - - virtual gmonth* - _clone \201\202 const; - -public: - unsigned short - month \201\202 const; - - void - month \201unsigned short\202; -}; - -bool -operator== \201const gmonth&, const gmonth&\202; - -bool -operator!= \201const gmonth&, const gmonth&\202;)RP( - - - )0 2 30 H(2.5.13)WB 124 Sn()WB 34 Sn( Mapping for )SM(gMon)HY(th)HY(Day)YH()ES()EA()EH( - - )0 P(The XML Schema )SM(gMon)HY(th)HY(Day)YH()ES( built-in data type is mapped to the - )SM(xml_schema::gmonth_day)ES( C++ class which repre)HY(sents)YH( a day and - a month of the year with an optional time zone. Its inter)HY(face)YH( is presented - below. For more infor)HY(ma)HY(tion)YH( on the base )SM(xml_schema::time_zone)ES( - class refer to )0 28 1 A(Section 2.5.7, "Time Zone - Repre)HY(sen)HY(ta)HY(tion)YH(")28 0 TN TL()Ec /AF f D(.)EP( - - ) 35 56 PR(class gmonth_day: public simple_type, public time_zone -{ -public: - gmonth_day \201unsigned short month, unsigned short day\202; - gmonth_day \201unsigned short month, unsigned short day, - short zone_hours, short zone_minutes\202; - -public: - gmonth_day \201const gmonth_day&\202; - - gmonth_day& - operator= \201const gmonth_day&\202; - - virtual gmonth_day* - _clone \201\202 const; - -public: - unsigned short - month \201\202 const; - - void - month \201unsigned short\202; - - unsigned short - day \201\202 const; - - void - day \201unsigned short\202; -}; - -bool)WR( -operator== \201const gmonth_day&, const gmonth_day&\202; - -bool -operator!= \201const gmonth_day&, const gmonth_day&\202;)RP( - - - )0 2 31 H(2.5.14)WB 125 Sn()WB 35 Sn( Mapping for )SM(gYear)ES()EA()EH( - - )0 P(The XML Schema )SM(gYear)ES( built-in data type is mapped to the - )SM(xml_schema::gyear)ES( C++ class which repre)HY(sents)YH( a year with - an optional time zone. Its inter)HY(face)YH( is presented below. For more - infor)HY(ma)HY(tion)YH( on the base )SM(xml_schema::time_zone)ES( class refer - to )0 28 1 A(Section 2.5.7, "Time Zone Repre)HY(sen)HY(ta)HY(tion)YH(")28 0 TN TL()Ec /AF f D(.)EP( - - ) 29 57 PR(class gyear: public simple_type, public time_zone -{ -public: - explicit - gyear \201int year\202; - gyear \201int year, short zone_hours, short zone_minutes\202; - -public: - gyear \201const gyear&\202; - - gyear& - operator= \201const gyear&\202; - - virtual gyear* - _clone \201\202 const; - -public: - int - year \201\202 const; - - void - year \201int\202; -}; - -bool -operator== \201const gyear&, const gyear&\202; - -bool -operator!= \201const gyear&, const gyear&\202;)RP( - - - )0 2 32 H(2.5.15)WB 126 Sn()WB 36 Sn( Mapping for )SM(gYear)HY(Month)YH()ES()EA()EH( - - )0 P(The XML Schema )SM(gYear)HY(Month)YH()ES( built-in data type is mapped to - the )SM(xml_schema::gyear_month)ES( C++ class which repre)HY(sents)YH( - a year and a month with an optional time zone. Its inter)HY(face)YH( is presented - below. For more infor)HY(ma)HY(tion)YH( on the base )SM(xml_schema::time_zone)ES( - class refer to )0 28 1 A(Section 2.5.7, "Time Zone - Repre)HY(sen)HY(ta)HY(tion)YH(")28 0 TN TL()Ec /AF f D(.)EP( - - ) 34 55 PR(class gyear_month: public simple_type, public time_zone -{ -public: - gyear_month \201int year, unsigned short month\202; - gyear_month \201int year, unsigned short month, - short zone_hours, short zone_minutes\202; -public: - gyear_month \201const gyear_month&\202; - - gyear_month& - operator= \201const gyear_month&\202; - - virtual gyear_month* - _clone \201\202 const; - -public: - int - year \201\202 const; - - void - year \201int\202; - - unsigned short - month \201\202 const; - - void - month \201unsigned short\202; -}; - -bool -operator== \201const gyear_month&, const gyear_month&\202;)WR( - -bool -operator!= \201const gyear_month&, const gyear_month&\202;)RP( - - - )0 2 33 H(2.5.16)WB 127 Sn()WB 37 Sn( Mapping for )SM(time)ES()EA()EH( - - )0 P(The XML Schema )SM(time)ES( built-in data type is mapped to - the )SM(xml_schema::time)ES( C++ class which repre)HY(sents)YH( hours, - minutes, and seconds with an optional time zone. Its inter)HY(face)YH( is - presented below. For more infor)HY(ma)HY(tion)YH( on the base - )SM(xml_schema::time_zone)ES( class refer to - )0 28 1 A(Section 2.5.7, "Time Zone Repre)HY(sen)HY(ta)HY(tion)YH(")28 0 TN TL()Ec /AF f D(.)EP( - - ) 41 70 PR(class time: public simple_type, public time_zone -{ -public: - time \201unsigned short hours, unsigned short minutes, double seconds\202; - time \201unsigned short hours, unsigned short minutes, double seconds, - short zone_hours, short zone_minutes\202; - -public: - time \201const time&\202; - - time& - operator= \201const time&\202; - - virtual time* - _clone \201\202 const; - -public: - unsigned short - hours \201\202 const; - - void - hours \201unsigned short\202; - - unsigned short - minutes \201\202 const; - - void - minutes \201unsigned short\202; - - double - seconds \201\202 const;)WR( - - void - seconds \201double\202; -}; - -bool -operator== \201const time&, const time&\202; - -bool -operator!= \201const time&, const time&\202;)RP( - - - - - )0 2 34 H(2.6)WB 128 Sn()WB 38 Sn( Mapping for Simple Types)EA()EH( - - )0 P(An XML Schema simple type is mapped to a C++ class with the same - name as the simple type. The class defines a public copy construc)HY(tor)YH(, - a public copy assign)HY(ment)YH( oper)HY(a)HY(tor)YH(, and a public virtual - )SM(_clone)ES( func)HY(tion)YH(. The )SM(_clone)ES( func)HY(tion)YH( is - declared )SM(const)ES(, does not take any argu)HY(ments)YH(, and returns - a pointer to a complete copy of the instance allo)HY(cated)YH( in the free - store. The )SM(_clone)ES( func)HY(tion)YH( shall be used to make copies - when static type and dynamic type of the instance may differ \201see - )0 54 1 A(Section 2.11, "Mapping for )SM(xsi:type)ES( - and Substi)HY(tu)HY(tion)YH( Groups")54 0 TN TL()Ec /AF f D(\202. For instance:)EP( - - ) 3 26 PR( - ... -)RP( - - )0 P(is mapped to:)EP( - - ) 16 28 PR(class object: ... -{ -public: - object \201const object&\202; - -public: - object& - operator= \201const object&\202; - -public: - virtual object* - _clone \201\202 const; - - ... - -};)RP( - - )0 P(The base class spec)HY(i)HY(fi)HY(ca)HY(tion)YH( and the rest of the class defi)HY(ni)HY(tion)YH( - depend on the type of deriva)HY(tion)YH( used to define the simple type. )EP( - - - )0 3 35 H(2.6.1)WB 129 Sn()WB 39 Sn( Mapping for Deriva)HY(tion)YH( by Restric)HY(tion)YH()EA()EH( - - )0 P(XML Schema deriva)HY(tion)YH( by restric)HY(tion)YH( is mapped to C++ public - inher)HY(i)HY(tance)YH(. The base type of the restric)HY(tion)YH( becomes the base - type for the result)HY(ing)YH( C++ class. In addi)HY(tion)YH( to the members described - in )0 38 1 A(Section 2.6, "Mapping for Simple Types")38 0 TN TL()Ec /AF f D(, the - result)HY(ing)YH( C++ class defines a public construc)HY(tor)YH( with the base type - as its single argu)HY(ment)YH(. For instance:)EP( - - ) 5 27 PR( - - ... - -)RP( - - )0 P(is mapped to:)EP( - - ) 14 28 PR(class object: public base -{ -public: - object \201const base&\202; - object \201const object&\202; - -public: - object& - operator= \201const object&\202; - -public: - virtual object* - _clone \201\202 const; -};)RP( - - - )0 3 36 H(2.6.2)WB 130 Sn()WB 40 Sn( Mapping for Enumer)HY(a)HY(tions)YH()EA()EH( - -)0 P(XML Schema restric)HY(tion)YH( by enumer)HY(a)HY(tion)YH( is mapped to a C++ class - with seman)HY(tics)YH( similar to C++ )SM(enum)ES(. Each XML Schema - enumer)HY(a)HY(tion)YH( element is mapped to a C++ enumer)HY(a)HY(tor)YH( with the - name derived from the )SM(value)ES( attribute and defined - in the class scope. In addi)HY(tion)YH( to the members - described in )0 38 1 A(Section 2.6, "Mapping for Simple Types")38 0 TN TL()Ec /AF f D(, - the result)HY(ing)YH( C++ class defines a public construc)HY(tor)YH( that can be called - with one of the enumer)HY(a)HY(tors)YH( as its single argu)HY(ment)YH(, a public construc)HY(tor)YH( - that can be called with enumer)HY(a)HY(tion)YH('s base value as its single - argu)HY(ment)YH(, a public assign)HY(ment)YH( oper)HY(a)HY(tor)YH( that can be used to assign the - value of one of the enumer)HY(a)HY(tors)YH(, and a public implicit conver)HY(sion)YH( - oper)HY(a)HY(tor)YH( to the under)HY(ly)HY(ing)YH( C++ enum type.)EP( - -)0 P(Further)HY(more)YH(, for string-based enumer)HY(a)HY(tion)YH( types, the result)HY(ing)YH( C++ - class defines a public construc)HY(tor)YH( with a single argu)HY(ment)YH( of type - )SM(const C*)ES( and a public construc)HY(tor)YH( with a single - argu)HY(ment)YH( of type )SM(const std::basic_string&)ES(. - For instance:)EP( - - ) 7 32 PR( - - - - - -)RP( - - )0 P(is mapped to:)EP( - - ) 31 38 PR(class color: xml_schema::string -{ -public: - enum value - { - red, - green, - blue - }; - -public: - color \201value\202; - color \201const C*\202; - color \201const std::basic_string&\202; - color \201const xml_schema::string&\202; - color \201const color&\202; - -public: - color& - operator= \201value\202; - - color& - operator= \201const color&\202; - -public: - virtual color* - _clone \201\202 const; - -public: - operator value \201\202 const; -};)WR()RP( - - )0 3 37 H(2.6.3)WB 131 Sn()WB 41 Sn( Mapping for Deriva)HY(tion)YH( by List)EA()EH( - - )0 P(XML Schema deriva)HY(tion)YH( by list is mapped to C++ public - inher)HY(i)HY(tance)YH( from )SM(xml_schema::simple_type)ES( - \201)0 24 1 A(Section 2.5.3, "Mapping for - )SM(anySim)HY(ple)HY(Type)YH()ES(")24 0 TN TL()Ec /AF f D(\202 and a suit)HY(able)YH( sequence type. - The list item type becomes the element type of the sequence. - In addi)HY(tion)YH( to the members described in )0 38 1 A(Section 2.6, - "Mapping for Simple Types")38 0 TN TL()Ec /AF f D(, the result)HY(ing)YH( C++ class defines - a public default construc)HY(tor)YH(, a public construc)HY(tor)YH( - with the first argu)HY(ment)YH( of type )SM(size_type)ES( and - the second argu)HY(ment)YH( of list item type that creates - a list object with the spec)HY(i)HY(fied)YH( number of copies of the spec)HY(i)HY(fied)YH( - element value, and a public construc)HY(tor)YH( with the two argu)HY(ments)YH( - of an input iter)HY(a)HY(tor)YH( type that creates a list object from an - iter)HY(a)HY(tor)YH( range. For instance: - )EP( - - ) 3 28 PR( - -)RP( - - )0 P(is mapped to:)EP( - - ) 19 42 PR(class int_list: public simple_type, - public sequence -{ -public: - int_list \201\202; - int_list \201size_type n, int x\202; - - template - int_list \201const I& begin, const I& end\202; - int_list \201const int_list&\202; - -public: - int_list& - operator= \201const int_list&\202; - -public: - virtual int_list* - _clone \201\202 const; -};)RP( - - )0 P(The )SM(sequence)ES( class template is defined in an - imple)HY(men)HY(ta)HY(tion)YH(-specific names)HY(pace)YH(. It conforms to the - sequence inter)HY(face)YH( as defined by the ISO/ANSI Stan)HY(dard)YH( for - C++ \201ISO/IEC 14882:1998, Section 23.1.1, "Sequences"\202. - Prac)HY(ti)HY(cally)YH(, this means that you can treat such a sequence - as if it was )SM(std::vector)ES(. One notable exten)HY(sion)YH( - to the stan)HY(dard)YH( inter)HY(face)YH( that is avail)HY(able)YH( only for - sequences of non-funda)HY(men)HY(tal)YH( C++ types is the addi)HY(tion)YH( of - the over)HY(loaded)YH( )SM(push_back)ES( and )SM(insert)ES( - member func)HY(tions)YH( which instead of the constant refer)HY(ence)YH( - to the element type accept auto)HY(matic)YH( pointer to the element - type. These func)HY(tions)YH( assume owner)HY(ship)YH( of the pointed to - object and resets the passed auto)HY(matic)YH( pointer. - )EP( - - )0 3 38 H(2.6.4)WB 132 Sn()WB 42 Sn( Mapping for Deriva)HY(tion)YH( by Union)EA()EH( - - )0 P(XML Schema deriva)HY(tion)YH( by union is mapped to C++ public - inher)HY(i)HY(tance)YH( from )SM(xml_schema::simple_type)ES( - \201)0 24 1 A(Section 2.5.3, "Mapping for - )SM(anySim)HY(ple)HY(Type)YH()ES(")24 0 TN TL()Ec /AF f D(\202 and )SM(std::basic_string)ES(. - In addi)HY(tion)YH( to the members described in )0 38 1 A(Section 2.6, - "Mapping for Simple Types")38 0 TN TL()Ec /AF f D(, the result)HY(ing)YH( C++ class defines a - public construc)HY(tor)YH( with a single argu)HY(ment)YH( of type )SM(const C*)ES( - and a public construc)HY(tor)YH( with a single argu)HY(ment)YH( of type - )SM(const std::basic_string&)ES(. For instance: - )EP( - - ) 3 47 PR( - -)RP( - - )0 P(is mapped to:)EP( - - ) 16 51 PR(class int_string_union: public simple_type, - public std::basic_string -{ -public: - int_string_union \201const C*\202; - int_string_union \201const std::basic_string&\202; - int_string_union \201const int_string_union&\202; - -public: - int_string_union& - operator= \201const int_string_union&\202; - -public: - virtual int_string_union* - _clone \201\202 const; -};)RP( - - )0 2 39 H(2.7)WB 133 Sn()WB 43 Sn( Mapping for Complex Types)EA()EH( - - )0 P(An XML Schema complex type is mapped to a C++ class with the same - name as the complex type. The class defines a public copy construc)HY(tor)YH(, - a public copy assign)HY(ment)YH( oper)HY(a)HY(tor)YH(, and a public virtual - )SM(_clone)ES( func)HY(tion)YH(. The )SM(_clone)ES( func)HY(tion)YH( is - declared )SM(const)ES(, does not take any argu)HY(ments)YH(, and returns - a pointer to a complete copy of the instance allo)HY(cated)YH( in the free - store. The )SM(_clone)ES( func)HY(tion)YH( shall be used to make copies - when static type and dynamic type of the instance may differ \201see - )0 54 1 A(Section 2.11, "Mapping for )SM(xsi:type)ES( - and Substi)HY(tu)HY(tion)YH( Groups")54 0 TN TL()Ec /AF f D(\202.)EP( - - )0 P(Addi)HY(tion)HY(ally)YH(, the result)HY(ing)YH( C++ class - defines two public construc)HY(tors)YH( that take an initial)HY(izer)YH( for each - member of the complex type and all its base types that belongs to - the One cardi)HY(nal)HY(ity)YH( class \201see )0 46 1 A(Section 2.8, "Mapping - for Local Elements and Attributes")46 0 TN TL()Ec /AF f D(\202. In the first construc)HY(tor)YH(, - the argu)HY(ments)YH( are passed as constant refer)HY(ences)YH( and the newly created - instance is initial)HY(ized)YH( with copies of the passed objects. In the - second construc)HY(tor)YH(, argu)HY(ments)YH( that are complex types \201that is, - they them)HY(selves)YH( contain elements or attributes\202 are passed as - refer)HY(ences)YH( to )SM(std::auto_ptr)ES(. In this case the newly - created instance is directly initial)HY(ized)YH( with and assumes owner)HY(ship)YH( - of the pointed to objects and the )SM(std::auto_ptr)ES( argu)HY(ments)YH( - are reset to )SM(0)ES(. For instance:)EP( - - ) 15 66 PR( - - - - - - - - - - - - - -)RP( - - )0 P(is mapped to:)EP( - - ) 36 60 PR(class complex: xml_schema::type -{ -public: - object \201const int& a, const xml_schema::string& b\202; - object \201const complex&\202; - -public: - object& - operator= \201const complex&\202; - -public: - virtual complex* - _clone \201\202 const; - - ... - -}; - -class object: xml_schema::type -{ -public: - object \201const bool& s_one, const complex& c_one\202; - object \201const bool& s_one, std::auto_ptr& c_one\202; - object \201const object&\202; - -public: - object& - operator= \201const object&\202; - -public: - virtual object*)WR( - _clone \201\202 const; - - ... - -};)RP( - - )0 P(Notice that the gener)HY(ated)YH( )SM(complex)ES( class does not - have the second \201)SM(std::auto_ptr)ES(\202 version of the - construc)HY(tor)YH( since all its required members are of simple types.)EP( - - )0 P(If an XML Schema complex type has an ulti)HY(mate)YH( base which is an XML - Schema simple type then the result)HY(ing)YH( C++ class also defines a public - construc)HY(tor)YH( that takes an initial)HY(izer)YH( for the base type as well as - for each member of the complex type and all its base types that - belongs to the One cardi)HY(nal)HY(ity)YH( class. For instance:)EP( - - ) 7 61 PR( - - - - - -)RP( - - )0 P(is mapped to:)EP( - - ) 11 44 PR(class object: xml_schema::string -{ -public: - object \201const xml_schema::language& lang\202; - - object \201const xml_schema::date& base, - const xml_schema::language& lang\202; - - ... - -};)RP( - - )0 P(Further)HY(more)YH(, for string-based XML Schema complex types, the result)HY(ing)YH( C++ - class also defines two public construc)HY(tors)YH( with the first argu)HY(ments)YH( - of type )SM(const C*)ES( and )SM(std::basic_string&)ES(, - respec)HY(tively)YH(, followed by argu)HY(ments)YH( for each member of the complex - type and all its base types that belongs to the One cardi)HY(nal)HY(ity)YH( - class. For enumer)HY(a)HY(tion)YH(-based complex types the result)HY(ing)YH( C++ - class also defines a public construc)HY(tor)YH( with the first argu)HY(ments)YH( - of the under)HY(ly)HY(ing)YH( enum type followed by argu)HY(ments)YH( for each member - of the complex type and all its base types that belongs to the One - cardi)HY(nal)HY(ity)YH( class. For instance:)EP( - - ) 15 61 PR( - - - - - - - - - - - - - -)RP( - - )0 P(is mapped to:)EP( - - ) 37 44 PR(class color: xml_schema::string -{ -public: - enum value - { - red, - green, - blue - }; - -public: - color \201value\202; - color \201const C*\202; - color \201const std::basic_string&\202; - - ... - -}; - -class object: color -{ -public: - object \201const color& base, - const xml_schema::language& lang\202; - - object \201const color::value& base, - const xml_schema::language& lang\202; - - object \201const C* base, - const xml_schema::language& lang\202; -)WR( - object \201const std::basic_string& base, - const xml_schema::language& lang\202; - - ... - -};)RP( - - )0 P(Addi)HY(tional)YH( construc)HY(tors)YH( can be requested with the - )SM(--gener)HY(ate)YH(-default-ctor)ES( and - )SM(--gener)HY(ate)YH(-from-base-ctor)ES( options. See the - )R9 2 A(XSD - Compiler Command Line Manual)EA( for details.)EP( - - )0 P(If an XML Schema complex type is not explic)HY(itly)YH( derived from any type, - the result)HY(ing)YH( C++ class is derived from )SM(xml_schema::type)ES(. - In cases where an XML Schema complex type is defined using deriva)HY(tion)YH( - by exten)HY(sion)YH( or restric)HY(tion)YH(, the result)HY(ing)YH( C++ base class spec)HY(i)HY(fi)HY(ca)HY(tion)YH( - depends on the type of deriva)HY(tion)YH( and is described in the subse)HY(quent)YH( - sections. - )EP( - - )0 P(The mapping for elements and attributes that are defined in a complex - type is described in )0 46 1 A(Section 2.8, "Mapping for Local - Elements and Attributes")46 0 TN TL()Ec /AF f D(. - )EP( - - )0 3 40 H(2.7.1)WB 134 Sn()WB 44 Sn( Mapping for Deriva)HY(tion)YH( by Exten)HY(sion)YH()EA()EH( - - )0 P(XML Schema deriva)HY(tion)YH( by exten)HY(sion)YH( is mapped to C++ public - inher)HY(i)HY(tance)YH(. The base type of the exten)HY(sion)YH( becomes the base - type for the result)HY(ing)YH( C++ class. - )EP( - - )0 3 41 H(2.7.2)WB 135 Sn()WB 45 Sn( Mapping for Deriva)HY(tion)YH( by Restric)HY(tion)YH()EA()EH( - - )0 P(XML Schema deriva)HY(tion)YH( by restric)HY(tion)YH( is mapped to C++ public - inher)HY(i)HY(tance)YH(. The base type of the restric)HY(tion)YH( becomes the base - type for the result)HY(ing)YH( C++ class. XML Schema elements and - attributes defined within restric)HY(tion)YH( do not result in any - defi)HY(ni)HY(tions)YH( in the result)HY(ing)YH( C++ class. Instead, corre)HY(spond)HY(ing)YH( - \201unre)HY(stricted)YH(\202 defi)HY(ni)HY(tions)YH( are inher)HY(ited)YH( from the base class. - In the future versions of this mapping, such elements and - attributes may result in redef)HY(i)HY(ni)HY(tions)YH( of acces)HY(sors)YH( and - modi)HY(fiers)YH( to reflect their restricted seman)HY(tics)YH(. - )EP( - - - - )0 2 42 H(2.8)WB 136 Sn()WB 46 Sn( Mapping for Local Elements and Attributes)EA()EH( - - )0 P(XML Schema element and attribute defi)HY(ni)HY(tions)YH( are called local - if they appear within a complex type defi)HY(ni)HY(tion)YH(, an element group - defi)HY(ni)HY(tion)YH(, or an attribute group defi)HY(ni)HY(tions)YH(. - )EP( - - )0 P(Local XML Schema element and attribute defi)HY(ni)HY(tions)YH( have the same - C++ mapping. There)HY(fore)YH(, in this section, local elements and - attributes are collec)HY(tively)YH( called members. - )EP( - - )0 P(While there are many differ)HY(ent)YH( member cardi)HY(nal)HY(ity)YH( combi)HY(na)HY(tions)YH( - \201deter)HY(mined)YH( by the )SM(use)ES( attribute for attributes and - the )SM(minOc)HY(curs)YH()ES( and )SM(maxOc)HY(curs)YH()ES( attributes - for elements\202, the mapping divides all possi)HY(ble)YH( cardi)HY(nal)HY(ity)YH( - combi)HY(na)HY(tions)YH( into three cardi)HY(nal)HY(ity)YH( classes: - )EP( - - )0 DL( )0 DT()I(one)ES( - )DD(attributes: )SM(use == "required")ES( - )DD(attributes: )SM(use == "optional")ES( and has default or fixed value - )DD(elements: )SM(minOc)HY(curs)YH( == "1")ES( and )SM(maxOc)HY(curs)YH( == "1")ES( - - )0 DT()I(optional)ES( - )DD(attributes: )SM(use == "optional")ES( and doesn't have default or fixed value - )DD(elements: )SM(minOc)HY(curs)YH( == "0")ES( and )SM(maxOc)HY(curs)YH( == "1")ES( - - )0 DT()I(sequence)ES( - )DD(elements: )SM(maxOc)HY(curs)YH( > "1")ES( - )LD( - - )0 P(An optional attribute with a default or fixed value acquires this value - if the attribute hasn't been spec)HY(i)HY(fied)YH( in an instance docu)HY(ment)YH( \201see - )0 92 1 A(Appendix A, "Default and Fixed Values")92 0 TN TL()Ec /AF f D(\202. This - mapping places such optional attributes to the One cardi)HY(nal)HY(ity)YH( - class.)EP( - - )0 P(A member is mapped to a set of public type defi)HY(ni)HY(tions)YH( - \201)SM(typedef)ES(s\202 and a set of public acces)HY(sor)YH( and modi)HY(fier)YH( - func)HY(tions)YH(. Type defi)HY(ni)HY(tions)YH( have names derived from the member's - name. The acces)HY(sor)YH( and modi)HY(fier)YH( func)HY(tions)YH( have the same name as the - member. For example: - )EP( - - ) 5 42 PR( - - - -)RP( - - )0 P(is mapped to:)EP( - - ) 11 41 PR(class object: xml_schema::type -{ -public: - typedef xml_schema::string member_type; - - const member_type& - member \201\202 const; - - ... - -};)RP( - - )0 P(In addi)HY(tion)YH(, if a member has a default or fixed value, a static - acces)HY(sor)YH( func)HY(tion)YH( is gener)HY(ated)YH( that returns this value. For - example:)EP( - -) 3 55 PR( - -)RP( - - )0 P(is mapped to:)EP( - - ) 14 39 PR(class object: xml_schema::type -{ -public: - typedef xml_schema::string data_type; - - const data_type& - data \201\202 const; - - static const data_type& - data_default_value \201\202; - - ... - -};)RP( - - )0 P(Names and seman)HY(tics)YH( of type defi)HY(ni)HY(tions)YH( for the member as well - as signa)HY(tures)YH( of the acces)HY(sor)YH( and modi)HY(fier)YH( func)HY(tions)YH( depend on - the member's cardi)HY(nal)HY(ity)YH( class and are described in the follow)HY(ing)YH( - sub-sections. - )EP( - - - )0 3 43 H(2.8.1)WB 137 Sn()WB 47 Sn( Mapping for Members with the One Cardi)HY(nal)HY(ity)YH( Class)EA()EH( - - )0 P(For the One cardi)HY(nal)HY(ity)YH( class, the type defi)HY(ni)HY(tions)YH( consist of - an alias for the member's type with the name created by append)HY(ing)YH( - the )SM(_type)ES( suffix to the member's name. - )EP( - - )0 P(The acces)HY(sor)YH( func)HY(tions)YH( come in constant and non-constant versions. - The constant acces)HY(sor)YH( func)HY(tion)YH( returns a constant refer)HY(ence)YH( to the - member and can be used for read-only access. The non-constant - version returns an unre)HY(stricted)YH( refer)HY(ence)YH( to the member and can - be used for read-write access. - )EP( - - )0 P(The first modi)HY(fier)YH( func)HY(tion)YH( expects an argu)HY(ment)YH( of type refer)HY(ence)YH( to - constant of the member's type. It makes a deep copy of its argu)HY(ment)YH(. - Except for member's types that are mapped to funda)HY(men)HY(tal)YH( C++ types, - the second modi)HY(fier)YH( func)HY(tion)YH( is provided that expects an argu)HY(ment)YH( - of type auto)HY(matic)YH( pointer to the member's type. It assumes owner)HY(ship)YH( - of the pointed to object and resets the passed auto)HY(matic)YH( pointer. - For instance:)EP( - - ) 5 42 PR( - - - -)RP( - - )0 P(is mapped to:)EP( - - ) 25 41 PR(class object: xml_schema::type -{ -public: - // Type definitions. - // - typedef xml_schema::string member_type; - - // Accessors. - // - const member_type& - member \201\202 const; - - member_type& - member \201\202; - - // Modifiers. - // - void - member \201const member_type&\202; - - void - member \201std::auto_ptr\202; - ... - -};)RP( - - )0 P(In addi)HY(tion)YH(, if requested by spec)HY(i)HY(fy)HY(ing)YH( the )SM(--gener)HY(ate)YH(-detach)ES( - option and only for members of non-funda)HY(men)HY(tal)YH( C++ types, the mapping - provides a detach func)HY(tion)YH( that returns an auto)HY(matic)YH( pointer to the - member's type, for example:)EP( - - ) 10 30 PR(class object: xml_schema::type -{ -public: - ... - - std::auto_ptr - detach_member \201\202; - ... - -};)RP( - - )0 P(This func)HY(tion)YH( detaches the value from the tree leaving the member - value unini)HY(tial)HY(ized)YH(. Access)HY(ing)YH( such an unini)HY(tial)HY(ized)YH( value prior to - re-initial)HY(iz)HY(ing)YH( it results in unde)HY(fined)YH( behav)HY(ior)YH(.)EP( - - )0 P(The follow)HY(ing)YH( code shows how one could use this mapping:)EP( - - ) 16 66 PR(void -f \201object& o\202 -{ - using xml_schema::string; - - string s \201o.member \201\202\202; // get - object::member_type& sr \201o.member \201\202\202; // get - - o.member \201"hello"\202; // set, deep copy - o.member \201\202 = "hello"; // set, deep copy - - std::auto_ptr p \201new string \201"hello"\202\202; - o.member \201p\202; // set, assumes ownership - p = o.detach_member \201\202; // detach, member is uninitialized - o.member \201p\202; // re-attach -})RP( - - -)0 3 44 H(2.8.2)WB 138 Sn()WB 48 Sn( Mapping for Members with the Optional Cardi)HY(nal)HY(ity)YH( Class)EA()EH( - - )0 P(For the Optional cardi)HY(nal)HY(ity)YH( class, the type defi)HY(ni)HY(tions)YH( consist of - an alias for the member's type with the name created by append)HY(ing)YH( - the )SM(_type)ES( suffix to the member's name and an alias for - the container type with the name created by append)HY(ing)YH( the - )SM(_optional)ES( suffix to the member's name. - )EP( - - )0 P(Unlike acces)HY(sor)YH( func)HY(tions)YH( for the One cardi)HY(nal)HY(ity)YH( class, acces)HY(sor)YH( - func)HY(tions)YH( for the Optional cardi)HY(nal)HY(ity)YH( class return refer)HY(ences)YH( to - corre)HY(spond)HY(ing)YH( contain)HY(ers)YH( rather than directly to members. The - acces)HY(sor)YH( func)HY(tions)YH( come in constant and non-constant versions. - The constant acces)HY(sor)YH( func)HY(tion)YH( returns a constant refer)HY(ence)YH( to - the container and can be used for read-only access. The non-constant - version returns an unre)HY(stricted)YH( refer)HY(ence)YH( to the container - and can be used for read-write access. - )EP( - - )0 P(The modi)HY(fier)YH( func)HY(tions)YH( are over)HY(loaded)YH( for the member's - type and the container type. The first modi)HY(fier)YH( func)HY(tion)YH( - expects an argu)HY(ment)YH( of type refer)HY(ence)YH( to constant of the - member's type. It makes a deep copy of its argu)HY(ment)YH(. - Except for member's types that are mapped to funda)HY(men)HY(tal)YH( C++ types, - the second modi)HY(fier)YH( func)HY(tion)YH( is provided that expects an argu)HY(ment)YH( - of type auto)HY(matic)YH( pointer to the member's type. It assumes owner)HY(ship)YH( - of the pointed to object and resets the passed auto)HY(matic)YH( pointer. - The last modi)HY(fier)YH( func)HY(tion)YH( expects an argu)HY(ment)YH( of type refer)HY(ence)YH( - to constant of the container type. It makes a deep copy of its - argu)HY(ment)YH(. For instance: - )EP( - - ) 5 56 PR( - - - -)RP( - - )0 P(is mapped to:)EP( - - ) 30 48 PR(class object: xml_schema::type -{ -public: - // Type definitions. - // - typedef xml_schema::string member_type; - typedef optional member_optional; - - // Accessors. - // - const member_optional& - member \201\202 const; - - member_optional& - member \201\202; - - // Modifiers. - // - void - member \201const member_type&\202; - - void - member \201std::auto_ptr\202; - - void - member \201const member_optional&\202; - - ... - -};)RP( - - - )0 P(The )SM(optional)ES( class template is defined in an - imple)HY(men)HY(ta)HY(tion)YH(-specific names)HY(pace)YH( and has the follow)HY(ing)YH( - inter)HY(face)YH(. The )SM(auto_ptr)ES(-based construc)HY(tor)YH( - and modi)HY(fier)YH( func)HY(tion)YH( are only avail)HY(able)YH( if the template - argu)HY(ment)YH( is not a funda)HY(men)HY(tal)YH( C++ type. - )EP( - - ) 97 52 PR(template -class optional -{ -public: - optional \201\202; - - // Makes a deep copy. - // - explicit - optional \201const X&\202; - - // Assumes ownership. - // - explicit - optional \201std::auto_ptr\202; - - optional \201const optional&\202; - -public: - optional& - operator= \201const X&\202; - - optional& - operator= \201const optional&\202; - - // Pointer-like interface. - // -public: - const X* - operator-> \201\202 const; -)WR( - X* - operator-> \201\202; - - const X& - operator* \201\202 const; - - X& - operator* \201\202; - - typedef void \201optional::*bool_convertible\202 \201\202; - operator bool_convertible \201\202 const; - - // Get/set interface. - // -public: - bool - present \201\202 const; - - const X& - get \201\202 const; - - X& - get \201\202; - - // Makes a deep copy. - // - void - set \201const X&\202; - - // Assumes ownership.)WR( - // - void - set \201std::auto_ptr\202; - - // Detach and return the contained value. - // - std::auto_ptr - detach \201\202; - - void - reset \201\202; -}; - -template -bool -operator== \201const optional&, const optional&\202; - -template -bool -operator!= \201const optional&, const optional&\202; - -template -bool -operator< \201const optional&, const optional&\202; - -template -bool -operator> \201const optional&, const optional&\202; - -template )WR( -bool -operator<= \201const optional&, const optional&\202; - -template -bool -operator>= \201const optional&, const optional&\202;)RP( - - - )0 P(The follow)HY(ing)YH( code shows how one could use this mapping:)EP( - - ) 32 62 PR(void -f \201object& o\202 -{ - using xml_schema::string; - - if \201o.member \201\202.present \201\202\202 // test - { - string& s \201o.member \201\202.get \201\202\202; // get - o.member \201"hello"\202; // set, deep copy - o.member \201\202.set \201"hello"\202; // set, deep copy - o.member \201\202.reset \201\202; // reset - } - - // Same as above but using pointer notation: - // - if \201o.member \201\202\202 // test - { - string& s \201*o.member \201\202\202; // get - o.member \201"hello"\202; // set, deep copy - *o.member \201\202 = "hello"; // set, deep copy - o.member \201\202.reset \201\202; // reset - } - - std::auto_ptr p \201new string \201"hello"\202\202; - o.member \201p\202; // set, assumes ownership - - p = new string \201"hello"\202; - o.member \201\202.set \201p\202; // set, assumes ownership - - p = o.member \201\202.detach \201\202; // detach, member is reset - o.member \201\202.set \201p\202; // re-attach)WR( -})RP( - - - )0 3 45 H(2.8.3)WB 139 Sn()WB 49 Sn( Mapping for Members with the Sequence Cardi)HY(nal)HY(ity)YH( Class)EA()EH( - - )0 P(For the Sequence cardi)HY(nal)HY(ity)YH( class, the type defi)HY(ni)HY(tions)YH( consist of an - alias for the member's type with the name created by append)HY(ing)YH( - the )SM(_type)ES( suffix to the member's name, an alias of - the container type with the name created by append)HY(ing)YH( the - )SM(_sequence)ES( suffix to the member's name, an alias of - the iter)HY(a)HY(tor)YH( type with the name created by append)HY(ing)YH( the - )SM(_iter)HY(a)HY(tor)YH()ES( suffix to the member's name, and an alias - of the constant iter)HY(a)HY(tor)YH( type with the name created by append)HY(ing)YH( the - )SM(_const_iter)HY(a)HY(tor)YH()ES( suffix to the member's name. - )EP( - - )0 P(The acces)HY(sor)YH( func)HY(tions)YH( come in constant and non-constant versions. - The constant acces)HY(sor)YH( func)HY(tion)YH( returns a constant refer)HY(ence)YH( to the - container and can be used for read-only access. The non-constant - version returns an unre)HY(stricted)YH( refer)HY(ence)YH( to the container and can - be used for read-write access. - )EP( - - )0 P(The modi)HY(fier)YH( func)HY(tion)YH( expects an argu)HY(ment)YH( of type refer)HY(ence)YH( to - constant of the container type. The modi)HY(fier)YH( func)HY(tion)YH( - makes a deep copy of its argu)HY(ment)YH(. For instance: - )EP( - - - ) 5 64 PR( - - - -)RP( - - )0 P(is mapped to:)EP( - - ) 26 64 PR(class object: xml_schema::type -{ -public: - // Type definitions. - // - typedef xml_schema::string member_type; - typedef sequence member_sequence; - typedef member_sequence::iterator member_iterator; - typedef member_sequence::const_iterator member_const_iterator; - - // Accessors. - // - const member_sequence& - member \201\202 const; - - member_sequence& - member \201\202; - - // Modifier. - // - void - member \201const member_sequence&\202; - - ... - -};)RP( - - )0 P(The )SM(sequence)ES( class template is defined in an - imple)HY(men)HY(ta)HY(tion)YH(-specific names)HY(pace)YH(. It conforms to the - sequence inter)HY(face)YH( as defined by the ISO/ANSI Stan)HY(dard)YH( for - C++ \201ISO/IEC 14882:1998, Section 23.1.1, "Sequences"\202. - Prac)HY(ti)HY(cally)YH(, this means that you can treat such a sequence - as if it was )SM(std::vector)ES(. Two notable exten)HY(sions)YH( - to the stan)HY(dard)YH( inter)HY(face)YH( that are avail)HY(able)YH( only for - sequences of non-funda)HY(men)HY(tal)YH( C++ types are the addi)HY(tion)YH( of - the over)HY(loaded)YH( )SM(push_back)ES( and )SM(insert)ES( - as well as the )SM(detach_back)ES( and )SM(detach)ES( - member func)HY(tions)YH(. The addi)HY(tional)YH( )SM(push_back)ES( and - )SM(insert)ES( func)HY(tions)YH( accept an auto)HY(matic)YH( pointer to the - element type instead of the constant refer)HY(ence)YH(. They assume - owner)HY(ship)YH( of the pointed to object and resets the passed - auto)HY(matic)YH( pointer. The )SM(detach_back)ES( and - )SM(detach)ES( func)HY(tions)YH( detach the element - value from the sequence container and, by default, remove - the element from the sequence. These addi)HY(tional)YH( func)HY(tions)YH( - have the follow)HY(ing)YH( signa)HY(tures)YH(:)EP( - - ) 22 46 PR(template -class sequence -{ -public: - ... - - void - push_back \201std::auto_ptr\202 - - iterator - insert \201iterator position, std::auto_ptr\202 - - std::auto_ptr - detach_back \201bool pop = true\202; - - iterator - detach \201iterator position, - std::auto_ptr& result, - bool erase = true\202 - - ... -})RP( - - )0 P(The follow)HY(ing)YH( code shows how one could use this mapping:)EP( - - ) 30 66 PR(void -f \201object& o\202 -{ - using xml_schema::string; - - object::member_sequence& s \201o.member \201\202\202; - - // Iteration. - // - for \201object::member_iterator i \201s.begin \201\202\202; i != s.end \201\202; ++i\202 - { - string& value \201*i\202; - } - - // Modification. - // - s.push_back \201"hello"\202; // deep copy - - std::auto_ptr p \201new string \201"hello"\202\202; - s.push_back \201p\202; // assumes ownership - p = s.detach_back \201\202; // detach and pop - s.push_back \201p\202; // re-append - - // Setting a new container. - // - object::member_sequence n; - n.push_back \201"one"\202; - n.push_back \201"two"\202; - o.member \201n\202; // deep copy -})RP( - - )0 2 46 H(2.9)WB 140 Sn()WB 50 Sn( Mapping for Global Elements)EA()EH( - - )0 P(An XML Schema element defi)HY(ni)HY(tion)YH( is called global if it appears - directly under the )SM(schema)ES( element. - A global element is a valid root of an instance docu)HY(ment)YH(. By - default, a global element is mapped to a set of over)HY(loaded)YH( - parsing and, option)HY(ally)YH(, seri)HY(al)HY(iza)HY(tion)YH( func)HY(tions)YH( with the - same name as the element. It is also possi)HY(ble)YH( to gener)HY(ate)YH( types - for root elements instead of parsing and seri)HY(al)HY(iza)HY(tion)YH( func)HY(tions)YH(. - This is primar)HY(ily)YH( useful to distin)HY(guish)YH( object models with the - same root type but with differ)HY(ent)YH( root elements. See - )0 51 1 A(Section 2.9.1, "Element Types")51 0 TN TL()Ec /AF f D( for details. - It is also possi)HY(ble)YH( to request the gener)HY(a)HY(tion)YH( of an element map - which allows uniform parsing and seri)HY(al)HY(iza)HY(tion)YH( of multi)HY(ple)YH( root - elements. See )0 52 1 A(Section 2.9.2, "Element Map")52 0 TN TL()Ec /AF f D( - for details. - )EP( - - )0 P(The parsing func)HY(tions)YH( read XML instance docu)HY(ments)YH( and return - corre)HY(spond)HY(ing)YH( object models. Their signa)HY(tures)YH( - have the follow)HY(ing)YH( pattern \201)SM(type)ES( denotes - element's type and )SM(name)ES( denotes element's - name\202: - )EP( - - ) 2 19 PR(std::auto_ptr -name \201....\202;)RP( - - )0 P(The process of parsing, includ)HY(ing)YH( the exact signa)HY(tures)YH( of the parsing - func)HY(tions)YH(, is the subject of )0 61 1 A(Chapter 3, "Parsing")61 0 TN TL()Ec /AF f D(. - )EP( - - )0 P(The seri)HY(al)HY(iza)HY(tion)YH( func)HY(tions)YH( write object models - back to XML instance docu)HY(ments)YH(. Their signa)HY(tures)YH( - have the follow)HY(ing)YH( pattern: - )EP( - - ) 2 41 PR(void -name \201&, const type&, ....\202;)RP( - - )0 P(The process of seri)HY(al)HY(iza)HY(tion)YH(, includ)HY(ing)YH( the exact signa)HY(tures)YH( of the - seri)HY(al)HY(iza)HY(tion)YH( func)HY(tions)YH(, is the subject of )0 78 1 A(Chapter 4, - "Seri)HY(al)HY(iza)HY(tion)YH(")78 0 TN TL()Ec /AF f D(. - )EP( - - - )0 3 47 H(2.9.1)WB 141 Sn()WB 51 Sn( Element Types)EA()EH( - - )0 P(The gener)HY(a)HY(tion)YH( of element types is requested with the - )SM(--gener)HY(ate)YH(-element-map)ES( option. With this option - each global element is mapped to a C++ class with the - same name as the element. Such a class is derived from - )SM(xml_schema::element_type)ES( and contains the same set - of type defi)HY(ni)HY(tions)YH(, construc)HY(tors)YH(, and member func)HY(tion)YH( as would a - type contain)HY(ing)YH( a single element with the One cardi)HY(nal)HY(ity)YH( class - named )SM("value")ES(. In addi)HY(tion)YH(, the element type also - contains a set of member func)HY(tions)YH( for access)HY(ing)YH( the element - name and names)HY(pace)YH( as well as its value in a uniform manner. - For example:)EP( - - ) 7 34 PR( - - ... - - - -)RP( - -)0 P(is mapped to:)EP( - - ) 62 59 PR(class type -{ - ... -}; - -class root: public xml_schema::element_type -{ -public: - // Element value. - // - typedef type value_type; - - const value_type& - value \201\202 const; - - value_type& - value \201\202; - - void - value \201const value_type&\202; - - void - value \201std::auto_ptr\202; - - // Constructors. - // - root \201const value_type&\202; - - root \201std::auto_ptr\202; - - root \201const xercesc::DOMElement&, xml_schema::flags = 0\202;)WR( - - root \201const root&, xml_schema::flags = 0\202; - - virtual root* - _clone \201xml_schema::flags = 0\202 const; - - // Element name and namespace. - // - static const std::string& - name \201\202; - - static const std::string& - namespace_ \201\202; - - virtual const std::string& - _name \201\202 const; - - virtual const std::string& - _namespace \201\202 const; - - // Element value as xml_schema::type. - // - virtual const xml_schema::type* - _value \201\202 const; - - virtual xml_schema::type* - _value \201\202; -}; - -void)WR( -operator<< \201xercesc::DOMElement&, const root&\202;)RP( - - )0 P(The )SM(xml_schema::element_type)ES( class is a common - base type for all element types and is defined as follows:)EP( - - ) 24 39 PR(namespace xml_schema -{ - class element_type - { - public: - virtual - ~element_type \201\202; - - virtual element_type* - _clone \201flags f = 0\202 const = 0; - - virtual const std::basic_string& - _name \201\202 const = 0; - - virtual const std::basic_string& - _namespace \201\202 const = 0; - - virtual xml_schema::type* - _value \201\202 = 0; - - virtual const xml_schema::type* - _value \201\202 const = 0; - }; -})RP( - - )0 P(The )SM(_value\201\202)ES( member func)HY(tion)YH( returns a pointer to - the element value or 0 if the element is of a funda)HY(men)HY(tal)YH( C++ - type and there)HY(fore)YH( is not derived from )SM(xml_schema::type)ES(. - )EP( - - )0 P(Unlike parsing and seri)HY(al)HY(iza)HY(tion)YH( func)HY(tions)YH(, element types - are only capable of parsing and seri)HY(al)HY(iz)HY(ing)YH( from/to a - )SM(DOMEle)HY(ment)YH()ES( object. This means that the appli)HY(ca)HY(tion)YH( - will need to perform its own XML-to-DOM parsing and DOM-to-XML - seri)HY(al)HY(iza)HY(tion)YH(. The follow)HY(ing)YH( section describes a mech)HY(a)HY(nism)YH( - provided by the mapping to uniformly parse and seri)HY(al)HY(ize)YH( - multi)HY(ple)YH( root elements.)EP( - - - )0 3 48 H(2.9.2)WB 142 Sn()WB 52 Sn( Element Map)EA()EH( - - )0 P(When element types are gener)HY(ated)YH( for root elements it is also - possi)HY(ble)YH( to request the gener)HY(a)HY(tion)YH( of an element map with the - )SM(--gener)HY(ate)YH(-element-map)ES( option. The element map - allows uniform parsing and seri)HY(al)HY(iza)HY(tion)YH( of multi)HY(ple)YH( root - elements via the common )SM(xml_schema::element_type)ES( - base type. The )SM(xml_schema::element_map)ES( class is - defined as follows:)EP( - - ) 12 58 PR(namespace xml_schema -{ - class element_map - { - public: - static std::auto_ptr - parse \201const xercesc::DOMElement&, flags = 0\202; - - static void - serialize \201xercesc::DOMElement&, const element_type&\202; - }; -})RP( - - )0 P(The )SM(parse\201\202)ES( func)HY(tion)YH( creates the corre)HY(spond)HY(ing)YH( - element type object based on the element name and names)HY(pace)YH( - and returns it as a pointer to )SM(xml_schema::element_type)ES(. - The )SM(seri)HY(al)HY(ize)YH(\201\202)ES( func)HY(tion)YH( seri)HY(al)HY(izes)YH( the passed element - object to )SM(DOMEle)HY(ment)YH()ES(. Note that in case of - )SM(seri)HY(al)HY(ize)YH(\201\202)ES(, the )SM(DOMEle)HY(ment)YH()ES( object - should have the correct name and names)HY(pace)YH(. If no element type is - avail)HY(able)YH( for an element, both func)HY(tions)YH( throw the - )SM(xml_schema::no_element_info)ES( excep)HY(tion)YH(:)EP( - - ) 14 66 PR(struct no_element_info: virtual exception -{ - no_element_info \201const std::basic_string& element_name, - const std::basic_string& element_namespace\202; - - const std::basic_string& - element_name \201\202 const; - - const std::basic_string& - element_namespace \201\202 const; - - virtual const char* - what \201\202 const throw \201\202; -};)RP( - - )0 P(The appli)HY(ca)HY(tion)YH( can discover the actual type of the element - object returned by )SM(parse\201\202)ES( either using - )SM(dynamic_cast)ES( or by compar)HY(ing)YH( element names and - names)HY(paces)YH(. The follow)HY(ing)YH( code frag)HY(ments)YH( illus)HY(trate)YH( how the - element map can be used:)EP( - - ) 18 50 PR(// Parsing. -// -DOMElement& e = ... // Parse XML to DOM. - -auto_ptr r \201 - xml_schema::element_map::parse \201e\202\202; - -if \201root1 r1 = dynamic_cast \201r.get \201\202\202\202 -{ - ... -} -else if \201r->_name == root2::name \201\202 && - r->_namespace \201\202 == root2::namespace_ \201\202\202 -{ - root2& r2 \201static_cast \201*r\202\202; - - ... -})RP( - - ) 13 68 PR(// Serialization. -// -xml_schema::element_type& r = ... - -string name \201r._name \201\202\202; -string ns \201r._namespace \201\202\202; - -DOMDocument& doc = ... // Create a new DOMDocument with name and ns. -DOMElement& e \201*doc->getDocumentElement \201\202\202; - -xml_schema::element_map::serialize \201e, r\202; - -// Serialize DOMDocument to XML.)RP( - - - - )0 2 49 H(2.10)WB 143 Sn()WB 53 Sn( Mapping for Global Attributes)EA()EH( - - )0 P(An XML Schema attribute defi)HY(ni)HY(tion)YH( is called global if it appears - directly under the )SM(schema)ES( element. A global - attribute does not have any mapping. - )EP( - - - - )0 2 50 H(2.11)WB 144 Sn()WB 54 Sn( Mapping for )SM(xsi:type)ES( and Substi)HY(tu)HY(tion)YH( - Groups)EA()EH( - - )0 P(The mapping provides optional support for the XML Schema poly)HY(mor)HY(phism)YH( - features \201)SM(xsi:type)ES( and substi)HY(tu)HY(tion)YH( groups\202 which can - be requested with the )SM(--gener)HY(ate)YH(-poly)HY(mor)HY(phic)YH()ES( option. - When used, the dynamic type of a member may be differ)HY(ent)YH( from - its static type. Consider the follow)HY(ing)YH( schema defi)HY(ni)HY(tion)YH( and - instance docu)HY(ment)YH(: - )EP( - - ) 28 62 PR( - - - - - - - - - - - - - - - - - - - - - - - - - - -)RP( - - )0 P(In the result)HY(ing)YH( object model, the container for - the )SM(root::item)ES( member will have two elements: - the first element's type will be )SM(base)ES( while - the second element's \201dynamic\202 type will be - )SM(derived)ES(. This can be discov)HY(ered)YH( using the - )SM(dynamic_cast)ES( oper)HY(a)HY(tor)YH( as shown in the follow)HY(ing)YH( - example: - )EP( - - ) 17 56 PR(void -f \201root& r\202 -{ - for \201root::item_const_iterator i \201r.item \201\202.begin \201\202\202; - i != r.item \201\202.end \201\202 - ++i\202 - { - if \201derived* d = dynamic_cast \201&\201*i\202\202\202 - { - // derived - } - else - { - // base - } - } -})RP( - - )0 P(The )SM(_clone)ES( virtual func)HY(tion)YH( should be used instead of - copy construc)HY(tors)YH( to make copies of members that might use - poly)HY(mor)HY(phism)YH(: - )EP( - - ) 10 56 PR(void -f \201root& r\202 -{ - for \201root::item_const_iterator i \201r.item \201\202.begin \201\202\202; - i != r.item \201\202.end \201\202 - ++i\202 - { - std::auto_ptr c \201i->_clone \201\202\202; - } -})RP( - - )0 P(The mapping can often auto)HY(mat)HY(i)HY(cally)YH( deter)HY(mine)YH( which types are - poly)HY(mor)HY(phic)YH( based on the substi)HY(tu)HY(tion)YH( group decla)HY(ra)HY(tions)YH(. However, - if your XML vocab)HY(u)HY(lary)YH( is not using substi)HY(tu)HY(tion)YH( groups or if - substi)HY(tu)HY(tion)YH( groups are defined in a sepa)HY(rate)YH( schema, then you will - need to use the )SM(--poly)HY(mor)HY(phic)YH(-type)ES( option to specify - which types are poly)HY(mor)HY(phic)YH(. When using this option you only need - to specify the root of a poly)HY(mor)HY(phic)YH( type hier)HY(ar)HY(chy)YH( and the mapping - will assume that all the derived types are also poly)HY(mor)HY(phic)YH(. - Also note that you need to specify this option when compil)HY(ing)YH( every - schema file that refer)HY(ences)YH( the poly)HY(mor)HY(phic)YH( type. Consider the follow)HY(ing)YH( - two schemas as an example:)EP( - - ) 13 55 PR( - - - - - - - - - - - -)RP( - - ) 18 70 PR( - - - - - - - - - - - - - - - - -)RP( - - )0 P(In this example we need to specify ")SM(--poly)HY(mor)HY(phic)YH(-type base)ES(" - when compil)HY(ing)YH( both schemas because the substi)HY(tu)HY(tion)YH( group is declared - in a schema other than the one defin)HY(ing)YH( type )SM(base)ES(.)EP( - - )0 P(You can also indi)HY(cate)YH( that all types should be treated as poly)HY(mor)HY(phic)YH( - with the )SM(--poly)HY(mor)HY(phic)YH(-type-all)ES(. However, this may result - in slower gener)HY(ated)YH( code with a greater foot)HY(print)YH(.)EP( - - - - - - )0 2 51 H(2.12)WB 145 Sn()WB 55 Sn( Mapping for )SM(any)ES( and )SM(anyAt)HY(tribute)YH()ES()EA()EH( - - )0 P(For the XML Schema )SM(any)ES( and )SM(anyAt)HY(tribute)YH()ES( - wild)HY(cards)YH( an optional mapping can be requested with the - )SM(--gener)HY(ate)YH(-wild)HY(card)YH()ES( option. The mapping repre)HY(sents)YH( - the content matched by wild)HY(cards)YH( as DOM frag)HY(ments)YH(. Because the - DOM API is used to access such content, the Xerces-C++ runtime - should be initial)HY(ized)YH( by the appli)HY(ca)HY(tion)YH( prior to parsing and - should remain initial)HY(ized)YH( for the life)HY(time)YH( of objects with - the wild)HY(card)YH( content. For more infor)HY(ma)HY(tion)YH( on the Xerces-C++ - runtime initial)HY(iza)HY(tion)YH( see )0 62 1 A(Section 3.1, - "Initial)HY(iz)HY(ing)YH( the Xerces-C++ Runtime")62 0 TN TL()Ec /AF f D(. - )EP( - - )0 P(The mapping for )SM(any)ES( is similar to the mapping for - local elements \201see )0 46 1 A(Section 2.8, "Mapping for Local - Elements and Attributes")46 0 TN TL()Ec /AF f D(\202 except that the type used in the - wild)HY(card)YH( mapping is )SM(xercesc::DOMEle)HY(ment)YH()ES(. As with local - elements, the mapping divides all possi)HY(ble)YH( cardi)HY(nal)HY(ity)YH( combi)HY(na)HY(tions)YH( - into three cardi)HY(nal)HY(ity)YH( classes: )I(one)ES(, )I(optional)ES(, and - )I(sequence)ES(. - )EP( - - )0 P(The mapping for )SM(anyAt)HY(tribute)YH()ES( repre)HY(sents)YH( the attributes - matched by this wild)HY(card)YH( as a set of )SM(xercesc::DOMAttr)ES( - objects with a key being the attribute's name and names)HY(pace)YH(.)EP( - - )0 P(Similar to local elements and attributes, the )SM(any)ES( and - )SM(anyAt)HY(tribute)YH()ES( wild)HY(cards)YH( are mapped to a set of public type - defi)HY(ni)HY(tions)YH( \201type)HY(defs)YH(\202 and a set of public acces)HY(sor)YH( and modi)HY(fier)YH( - func)HY(tions)YH(. Type defi)HY(ni)HY(tions)YH( have names derived from )SM("any")ES( - for the )SM(any)ES( wild)HY(card)YH( and )SM("any_attribute")ES( - for the )SM(anyAt)HY(tribute)YH()ES( wild)HY(card)YH(. The acces)HY(sor)YH( and modi)HY(fier)YH( - func)HY(tions)YH( are named )SM("any")ES( for the )SM(any)ES( wild)HY(card)YH( - and )SM("any_attribute")ES( for the )SM(anyAt)HY(tribute)YH()ES( - wild)HY(card)YH(. Subse)HY(quent)YH( wild)HY(cards)YH( in the same type have escaped names - such as )SM("any1")ES( or )SM("any_attribute1")ES(. - )EP( - - )0 P(Because Xerces-C++ DOM nodes always belong to a )SM(DOMDoc)HY(u)HY(ment)YH()ES(, - each type with a wild)HY(card)YH( has an asso)HY(ci)HY(ated)YH( )SM(DOMDoc)HY(u)HY(ment)YH()ES( - object. The refer)HY(ence)YH( to this object can be obtained using the acces)HY(sor)YH( - func)HY(tion)YH( called )SM(dom_docu)HY(ment)YH()ES(. The access to the docu)HY(ment)YH( - object from the appli)HY(ca)HY(tion)YH( code may be neces)HY(sary)YH( to create or modify - the wild)HY(card)YH( content. For example: - )EP( - - ) 6 37 PR( - - - - -)RP( - - )0 P(is mapped to:)EP( - - ) 37 73 PR(class object: xml_schema::type -{ -public: - // any - // - const xercesc::DOMElement& - any \201\202 const; - - void - any \201const xercesc::DOMElement&\202; - - ... - - // any_attribute - // - typedef attribute_set any_attribute_set; - typedef any_attribute_set::iterator any_attribute_iterator; - typedef any_attribute_set::const_iterator any_attribute_const_iterator; - - const any_attribute_set& - any_attribute \201\202 const; - - any_attribute_set& - any_attribute \201\202; - - ... - - // DOMDocument object for wildcard content. - // - const xercesc::DOMDocument& - dom_document \201\202 const;)WR( - - xercesc::DOMDocument& - dom_document \201\202; - - ... -};)RP( - - - )0 P(Names and seman)HY(tics)YH( of type defi)HY(ni)HY(tions)YH( for the wild)HY(cards)YH( as well - as signa)HY(tures)YH( of the acces)HY(sor)YH( and modi)HY(fier)YH( func)HY(tions)YH( depend on the - wild)HY(card)YH( type as well as the cardi)HY(nal)HY(ity)YH( class for the )SM(any)ES( - wild)HY(card)YH(. They are described in the follow)HY(ing)YH( sub-sections. - )EP( - - - )0 3 52 H(2.12.1)WB 146 Sn()WB 56 Sn( Mapping for )SM(any)ES( with the One Cardi)HY(nal)HY(ity)YH( Class)EA()EH( - - )0 P(For )SM(any)ES( with the One cardi)HY(nal)HY(ity)YH( class, - there are no type defi)HY(ni)HY(tions)YH(. The acces)HY(sor)YH( func)HY(tions)YH( come in - constant and non-constant versions. The constant acces)HY(sor)YH( func)HY(tion)YH( - returns a constant refer)HY(ence)YH( to )SM(xercesc::DOMEle)HY(ment)YH()ES( and - can be used for read-only access. The non-constant version returns - an unre)HY(stricted)YH( refer)HY(ence)YH( to )SM(xercesc::DOMEle)HY(ment)YH()ES( and can - be used for read-write access. - )EP( - - )0 P(The first modi)HY(fier)YH( func)HY(tion)YH( expects an argu)HY(ment)YH( of type refer)HY(ence)YH( - to constant )SM(xercesc::DOMEle)HY(ment)YH()ES( and makes a deep copy - of its argu)HY(ment)YH(. The second modi)HY(fier)YH( func)HY(tion)YH( expects an argu)HY(ment)YH( of - type pointer to )SM(xercesc::DOMEle)HY(ment)YH()ES(. This modi)HY(fier)YH( - func)HY(tion)YH( assumes owner)HY(ship)YH( of its argu)HY(ment)YH( and expects the element - object to be created using the DOM docu)HY(ment)YH( asso)HY(ci)HY(ated)YH( with this - instance. For example: - )EP( - - ) 5 30 PR( - - - -)RP( - - )0 P(is mapped to:)EP( - - ) 22 35 PR(class object: xml_schema::type -{ -public: - // Accessors. - // - const xercesc::DOMElement& - any \201\202 const; - - xercesc::DOMElement& - any \201\202; - - // Modifiers. - // - void - any \201const xercesc::DOMElement&\202; - - void - any \201xercesc::DOMElement*\202; - - ... - -};)RP( - - - )0 P(The follow)HY(ing)YH( code shows how one could use this mapping:)EP( - - ) 10 66 PR(void -f \201object& o, const xercesc::DOMElement& e\202 -{ - using namespace xercesc; - - DOMElement& e1 \201o.any \201\202\202; // get - o.any \201e\202 // set, deep copy - DOMDocument& doc \201o.dom_document \201\202\202; - o.any \201doc.createElement \201...\202\202; // set, assumes ownership -})RP( - - )0 3 53 H(2.12.2)WB 147 Sn()WB 57 Sn( Mapping for )SM(any)ES( with the Optional Cardi)HY(nal)HY(ity)YH( Class)EA()EH( - - )0 P(For )SM(any)ES( with the Optional cardi)HY(nal)HY(ity)YH( class, the type - defi)HY(ni)HY(tions)YH( consist of an alias for the container type with name - )SM(any_optional)ES( \201or )SM(any1_optional)ES(, etc., for - subse)HY(quent)YH( wild)HY(cards)YH( in the type defi)HY(ni)HY(tion)YH(\202. - )EP( - - )0 P(Unlike acces)HY(sor)YH( func)HY(tions)YH( for the One cardi)HY(nal)HY(ity)YH( class, acces)HY(sor)YH( - func)HY(tions)YH( for the Optional cardi)HY(nal)HY(ity)YH( class return refer)HY(ences)YH( to - corre)HY(spond)HY(ing)YH( contain)HY(ers)YH( rather than directly to )SM(DOMEle)HY(ment)YH()ES(. - The acces)HY(sor)YH( func)HY(tions)YH( come in constant and non-constant versions. - The constant acces)HY(sor)YH( func)HY(tion)YH( returns a constant refer)HY(ence)YH( to - the container and can be used for read-only access. The non-constant - version returns an unre)HY(stricted)YH( refer)HY(ence)YH( to the container - and can be used for read-write access. - )EP( - - )0 P(The modi)HY(fier)YH( func)HY(tions)YH( are over)HY(loaded)YH( for )SM(xercesc::DOMEle)HY(ment)YH()ES( - and the container type. The first modi)HY(fier)YH( func)HY(tion)YH( expects an argu)HY(ment)YH( of - type refer)HY(ence)YH( to constant )SM(xercesc::DOMEle)HY(ment)YH()ES( and - makes a deep copy of its argu)HY(ment)YH(. The second modi)HY(fier)YH( func)HY(tion)YH( - expects an argu)HY(ment)YH( of type pointer to )SM(xercesc::DOMEle)HY(ment)YH()ES(. - This modi)HY(fier)YH( func)HY(tion)YH( assumes owner)HY(ship)YH( of its argu)HY(ment)YH( and expects - the element object to be created using the DOM docu)HY(ment)YH( asso)HY(ci)HY(ated)YH( - with this instance. The third modi)HY(fier)YH( func)HY(tion)YH( expects an argu)HY(ment)YH( - of type refer)HY(ence)YH( to constant of the container type and makes a - deep copy of its argu)HY(ment)YH(. For instance: - )EP( - - ) 5 44 PR( - - - -)RP( - - )0 P(is mapped to:)EP( - - ) 29 40 PR(class object: xml_schema::type -{ -public: - // Type definitions. - // - typedef element_optional any_optional; - - // Accessors. - // - const any_optional& - any \201\202 const; - - any_optional& - any \201\202; - - // Modifiers. - // - void - any \201const xercesc::DOMElement&\202; - - void - any \201xercesc::DOMElement*\202; - - void - any \201const any_optional&\202; - - ... - -};)RP( - - - )0 P(The )SM(element_optional)ES( container is a - special)HY(iza)HY(tion)YH( of the )SM(optional)ES( class template described - in )0 48 1 A(Section 2.8.2, "Mapping for Members with the Optional - Cardi)HY(nal)HY(ity)YH( Class")48 0 TN TL()Ec /AF f D(. Its inter)HY(face)YH( is presented below: - )EP( - - ) 72 71 PR(class element_optional -{ -public: - explicit - element_optional \201xercesc::DOMDocument&\202; - - // Makes a deep copy. - // - element_optional \201const xercesc::DOMElement&, xercesc::DOMDocument&\202; - - // Assumes ownership. - // - element_optional \201xercesc::DOMElement*, xercesc::DOMDocument&\202; - - element_optional \201const element_optional&, xercesc::DOMDocument&\202; - -public: - element_optional& - operator= \201const xercesc::DOMElement&\202; - - element_optional& - operator= \201const element_optional&\202; - - // Pointer-like interface. - // -public: - const xercesc::DOMElement* - operator-> \201\202 const; - - xercesc::DOMElement* - operator-> \201\202;)WR( - - const xercesc::DOMElement& - operator* \201\202 const; - - xercesc::DOMElement& - operator* \201\202; - - typedef void \201element_optional::*bool_convertible\202 \201\202; - operator bool_convertible \201\202 const; - - // Get/set interface. - // -public: - bool - present \201\202 const; - - const xercesc::DOMElement& - get \201\202 const; - - xercesc::DOMElement& - get \201\202; - - // Makes a deep copy. - // - void - set \201const xercesc::DOMElement&\202; - - // Assumes ownership. - // - void)WR( - set \201xercesc::DOMElement*\202; - - void - reset \201\202; -}; - -bool -operator== \201const element_optional&, const element_optional&\202; - -bool -operator!= \201const element_optional&, const element_optional&\202;)RP( - - - )0 P(The follow)HY(ing)YH( code shows how one could use this mapping:)EP( - - ) 25 69 PR(void -f \201object& o, const xercesc::DOMElement& e\202 -{ - using namespace xercesc; - - DOMDocument& doc \201o.dom_document \201\202\202; - - if \201o.any \201\202.present \201\202\202 // test - { - DOMElement& e1 \201o.any \201\202.get \201\202\202; // get - o.any \201\202.set \201e\202; // set, deep copy - o.any \201\202.set \201doc.createElement \201...\202\202; // set, assumes ownership - o.any \201\202.reset \201\202; // reset - } - - // Same as above but using pointer notation: - // - if \201o.member \201\202\202 // test - { - DOMElement& e1 \201*o.any \201\202\202; // get - o.any \201e\202; // set, deep copy - o.any \201doc.createElement \201...\202\202; // set, assumes ownership - o.any \201\202.reset \201\202; // reset - } -})RP( - - - - )0 3 54 H(2.12.3)WB 148 Sn()WB 58 Sn( Mapping for )SM(any)ES( with the Sequence Cardi)HY(nal)HY(ity)YH( Class)EA()EH( - - )0 P(For )SM(any)ES( with the Sequence cardi)HY(nal)HY(ity)YH( class, the type - defi)HY(ni)HY(tions)YH( consist of an alias of the container type with name - )SM(any_sequence)ES( \201or )SM(any1_sequence)ES(, etc., for - subse)HY(quent)YH( wild)HY(cards)YH( in the type defi)HY(ni)HY(tion)YH(\202, an alias of the iter)HY(a)HY(tor)YH( - type with name )SM(any_iter)HY(a)HY(tor)YH()ES( \201or )SM(any1_iter)HY(a)HY(tor)YH()ES(, - etc., for subse)HY(quent)YH( wild)HY(cards)YH( in the type defi)HY(ni)HY(tion)YH(\202, and an alias - of the constant iter)HY(a)HY(tor)YH( type with name )SM(any_const_iter)HY(a)HY(tor)YH()ES( - \201or )SM(any1_const_iter)HY(a)HY(tor)YH()ES(, etc., for subse)HY(quent)YH( wild)HY(cards)YH( - in the type defi)HY(ni)HY(tion)YH(\202. - )EP( - - )0 P(The acces)HY(sor)YH( func)HY(tions)YH( come in constant and non-constant versions. - The constant acces)HY(sor)YH( func)HY(tion)YH( returns a constant refer)HY(ence)YH( to the - container and can be used for read-only access. The non-constant - version returns an unre)HY(stricted)YH( refer)HY(ence)YH( to the container and can - be used for read-write access. - )EP( - - )0 P(The modi)HY(fier)YH( func)HY(tion)YH( expects an argu)HY(ment)YH( of type refer)HY(ence)YH( to - constant of the container type. The modi)HY(fier)YH( func)HY(tion)YH( makes - a deep copy of its argu)HY(ment)YH(. For instance: - )EP( - - - ) 5 52 PR( - - - -)RP( - - )0 P(is mapped to:)EP( - - ) 25 58 PR(class object: xml_schema::type -{ -public: - // Type definitions. - // - typedef element_sequence any_sequence; - typedef any_sequence::iterator any_iterator; - typedef any_sequence::const_iterator any_const_iterator; - - // Accessors. - // - const any_sequence& - any \201\202 const; - - any_sequence& - any \201\202; - - // Modifier. - // - void - any \201const any_sequence&\202; - - ... - -};)RP( - - )0 P(The )SM(element_sequence)ES( container is a - special)HY(iza)HY(tion)YH( of the )SM(sequence)ES( class template described - in )0 49 1 A(Section 2.8.3, "Mapping for Members with the - Sequence Cardi)HY(nal)HY(ity)YH( Class")49 0 TN TL()Ec /AF f D(. Its inter)HY(face)YH( is similar to - the sequence inter)HY(face)YH( as defined by the ISO/ANSI Stan)HY(dard)YH( for - C++ \201ISO/IEC 14882:1998, Section 23.1.1, "Sequences"\202 and is - presented below: - )EP( - - ) 178 70 PR(class element_sequence -{ -public: - typedef xercesc::DOMElement value_type; - typedef xercesc::DOMElement* pointer; - typedef const xercesc::DOMElement* const_pointer; - typedef xercesc::DOMElement& reference; - typedef const xercesc::DOMElement& const_reference; - - typedef iterator; - typedef const_iterator; - typedef reverse_iterator; - typedef const_reverse_iterator; - - typedef size_type; - typedef difference_type; - typedef allocator_type; - -public: - explicit - element_sequence \201xercesc::DOMDocument&\202; - - // DOMElement cannot be default-constructed. - // - // explicit - // element_sequence \201size_type n\202; - - element_sequence \201size_type n, - const xercesc::DOMElement&, - xercesc::DOMDocument&\202; -)WR( - template - element_sequence \201const I& begin, - const I& end, - xercesc::DOMDocument&\202; - - element_sequence \201const element_sequence&, xercesc::DOMDocument&\202; - - element_sequence& - operator= \201const element_sequence&\202; - -public: - void - assign \201size_type n, const xercesc::DOMElement&\202; - - template - void - assign \201const I& begin, const I& end\202; - -public: - // This version of resize can only be used to shrink the - // sequence because DOMElement cannot be default-constructed. - // - void - resize \201size_type\202; - - void - resize \201size_type, const xercesc::DOMElement&\202; - -public: - size_type)WR( - size \201\202 const; - - size_type - max_size \201\202 const; - - size_type - capacity \201\202 const; - - bool - empty \201\202 const; - - void - reserve \201size_type\202; - - void - clear \201\202; - -public: - const_iterator - begin \201\202 const; - - const_iterator - end \201\202 const; - - iterator - begin \201\202; - - iterator - end \201\202; -)WR( - const_reverse_iterator - rbegin \201\202 const; - - const_reverse_iterator - rend \201\202 const - - reverse_iterator - rbegin \201\202; - - reverse_iterator - rend \201\202; - -public: - xercesc::DOMElement& - operator[] \201size_type\202; - - const xercesc::DOMElement& - operator[] \201size_type\202 const; - - xercesc::DOMElement& - at \201size_type\202; - - const xercesc::DOMElement& - at \201size_type\202 const; - - xercesc::DOMElement& - front \201\202; - - const xercesc::DOMElement& - front \201\202 const;)WR( - - xercesc::DOMElement& - back \201\202; - - const xercesc::DOMElement& - back \201\202 const; - -public: - // Makes a deep copy. - // - void - push_back \201const xercesc::DOMElement&\202; - - // Assumes ownership. - // - void - push_back \201xercesc::DOMElement*\202; - - void - pop_back \201\202; - - // Makes a deep copy. - // - iterator - insert \201iterator position, const xercesc::DOMElement&\202; - - // Assumes ownership. - // - iterator - insert \201iterator position, xercesc::DOMElement*\202;)WR( - - void - insert \201iterator position, size_type n, const xercesc::DOMElement&\202; - - template - void - insert \201iterator position, const I& begin, const I& end\202; - - iterator - erase \201iterator position\202; - - iterator - erase \201iterator begin, iterator end\202; - -public: - // Note that the DOMDocument object of the two sequences being - // swapped should be the same. - // - void - swap \201sequence& x\202; -}; - -inline bool -operator== \201const element_sequence&, const element_sequence&\202; - -inline bool -operator!= \201const element_sequence&, const element_sequence&\202;)RP( - - - )0 P(The follow)HY(ing)YH( code shows how one could use this mapping:)EP( - - ) 20 63 PR(void -f \201object& o, const xercesc::DOMElement& e\202 -{ - using namespace xercesc; - - object::any_sequence& s \201o.any \201\202\202; - - // Iteration. - // - for \201object::any_iterator i \201s.begin \201\202\202; i != s.end \201\202; ++i\202 - { - DOMElement& e \201*i\202; - } - - // Modification. - // - s.push_back \201e\202; // deep copy - DOMDocument& doc \201o.dom_document \201\202\202; - s.push_back \201doc.createElement \201...\202\202; // assumes ownership -})RP( - - - )0 3 55 H(2.12.4)WB 149 Sn()WB 59 Sn( Mapping for )SM(anyAt)HY(tribute)YH()ES()EA()EH( - - )0 P(For )SM(anyAt)HY(tribute)YH()ES( the type defi)HY(ni)HY(tions)YH( consist of an alias - of the container type with name )SM(any_attribute_set)ES( - \201or )SM(any1_attribute_set)ES(, etc., for subse)HY(quent)YH( wild)HY(cards)YH( - in the type defi)HY(ni)HY(tion)YH(\202, an alias of the iter)HY(a)HY(tor)YH( type with name - )SM(any_attribute_iter)HY(a)HY(tor)YH()ES( \201or )SM(any1_attribute_iter)HY(a)HY(tor)YH()ES(, - etc., for subse)HY(quent)YH( wild)HY(cards)YH( in the type defi)HY(ni)HY(tion)YH(\202, and an alias - of the constant iter)HY(a)HY(tor)YH( type with name )SM(any_attribute_const_iter)HY(a)HY(tor)YH()ES( - \201or )SM(any1_attribute_const_iter)HY(a)HY(tor)YH()ES(, etc., for subse)HY(quent)YH( - wild)HY(cards)YH( in the type defi)HY(ni)HY(tion)YH(\202. - )EP( - - )0 P(The acces)HY(sor)YH( func)HY(tions)YH( come in constant and non-constant versions. - The constant acces)HY(sor)YH( func)HY(tion)YH( returns a constant refer)HY(ence)YH( to the - container and can be used for read-only access. The non-constant - version returns an unre)HY(stricted)YH( refer)HY(ence)YH( to the container and can - be used for read-write access. - )EP( - - )0 P(The modi)HY(fier)YH( func)HY(tion)YH( expects an argu)HY(ment)YH( of type refer)HY(ence)YH( to - constant of the container type. The modi)HY(fier)YH( func)HY(tion)YH( makes - a deep copy of its argu)HY(ment)YH(. For instance: - )EP( - - - ) 6 37 PR( - - ... - - -)RP( - - )0 P(is mapped to:)EP( - - ) 25 73 PR(class object: xml_schema::type -{ -public: - // Type definitions. - // - typedef attribute_set any_attribute_set; - typedef any_attribute_set::iterator any_attribute_iterator; - typedef any_attribute_set::const_iterator any_attribute_const_iterator; - - // Accessors. - // - const any_attribute_set& - any_attribute \201\202 const; - - any_attribute_set& - any_attribute \201\202; - - // Modifier. - // - void - any_attribute \201const any_attribute_set&\202; - - ... - -};)RP( - - )0 P(The )SM(attribute_set)ES( class is an asso)HY(cia)HY(tive)YH( container - similar to the )SM(std::set)ES( class template as defined by - the ISO/ANSI Stan)HY(dard)YH( for C++ \201ISO/IEC 14882:1998, Section 23.3.3, - "Class template set"\202 with the key being the attribute's name - and names)HY(pace)YH(. Unlike )SM(std::set)ES(, )SM(attribute_set)ES( - allows search)HY(ing)YH( using names and names)HY(paces)YH( instead of - )SM(xercesc::DOMAttr)ES( objects. It is defined in an - imple)HY(men)HY(ta)HY(tion)YH(-specific names)HY(pace)YH( and its inter)HY(face)YH( is presented - below: - )EP( - - ) 166 70 PR(class attribute_set -{ -public: - typedef xercesc::DOMAttr key_type; - typedef xercesc::DOMAttr value_type; - typedef xercesc::DOMAttr* pointer; - typedef const xercesc::DOMAttr* const_pointer; - typedef xercesc::DOMAttr& reference; - typedef const xercesc::DOMAttr& const_reference; - - typedef iterator; - typedef const_iterator; - typedef reverse_iterator; - typedef const_reverse_iterator; - - typedef size_type; - typedef difference_type; - typedef allocator_type; - -public: - attribute_set \201xercesc::DOMDocument&\202; - - template - attribute_set \201const I& begin, const I& end, xercesc::DOMDocument&\202; - - attribute_set \201const attribute_set&, xercesc::DOMDocument&\202; - - attribute_set& - operator= \201const attribute_set&\202; - -public:)WR( - const_iterator - begin \201\202 const; - - const_iterator - end \201\202 const; - - iterator - begin \201\202; - - iterator - end \201\202; - - const_reverse_iterator - rbegin \201\202 const; - - const_reverse_iterator - rend \201\202 const; - - reverse_iterator - rbegin \201\202; - - reverse_iterator - rend \201\202; - -public: - size_type - size \201\202 const; - - size_type - max_size \201\202 const;)WR( - - bool - empty \201\202 const; - - void - clear \201\202; - -public: - // Makes a deep copy. - // - std::pair - insert \201const xercesc::DOMAttr&\202; - - // Assumes ownership. - // - std::pair - insert \201xercesc::DOMAttr*\202; - - // Makes a deep copy. - // - iterator - insert \201iterator position, const xercesc::DOMAttr&\202; - - // Assumes ownership. - // - iterator - insert \201iterator position, xercesc::DOMAttr*\202; - - template - void)WR( - insert \201const I& begin, const I& end\202; - -public: - void - erase \201iterator position\202; - - size_type - erase \201const std::basic_string& name\202; - - size_type - erase \201const std::basic_string& namespace_, - const std::basic_string& name\202; - - size_type - erase \201const XMLCh* name\202; - - size_type - erase \201const XMLCh* namespace_, const XMLCh* name\202; - - void - erase \201iterator begin, iterator end\202; - -public: - size_type - count \201const std::basic_string& name\202 const; - - size_type - count \201const std::basic_string& namespace_, - const std::basic_string& name\202 const; -)WR( - size_type - count \201const XMLCh* name\202 const; - - size_type - count \201const XMLCh* namespace_, const XMLCh* name\202 const; - - iterator - find \201const std::basic_string& name\202; - - iterator - find \201const std::basic_string& namespace_, - const std::basic_string& name\202; - - iterator - find \201const XMLCh* name\202; - - iterator - find \201const XMLCh* namespace_, const XMLCh* name\202; - - const_iterator - find \201const std::basic_string& name\202 const; - - const_iterator - find \201const std::basic_string& namespace_, - const std::basic_string& name\202 const; - - const_iterator - find \201const XMLCh* name\202 const; - - const_iterator)WR( - find \201const XMLCh* namespace_, const XMLCh* name\202 const; - -public: - // Note that the DOMDocument object of the two sets being - // swapped should be the same. - // - void - swap \201attribute_set&\202; -}; - -bool -operator== \201const attribute_set&, const attribute_set&\202; - -bool -operator!= \201const attribute_set&, const attribute_set&\202;)RP( - - )0 P(The follow)HY(ing)YH( code shows how one could use this mapping:)EP( - - ) 25 73 PR(void -f \201object& o, const xercesc::DOMAttr& a\202 -{ - using namespace xercesc; - - object::any_attribute_set& s \201o.any_attribute \201\202\202; - - // Iteration. - // - for \201object::any_attribute_iterator i \201s.begin \201\202\202; i != s.end \201\202; ++i\202 - { - DOMAttr& a \201*i\202; - } - - // Modification. - // - s.insert \201a\202; // deep copy - DOMDocument& doc \201o.dom_document \201\202\202; - s.insert \201doc.createAttribute \201...\202\202; // assumes ownership - - // Searching. - // - object::any_attribute_iterator i \201s.find \201"name"\202\202; - i = s.find \201"http://www.w3.org/XML/1998/namespace", "lang"\202; -})RP( - - - - )0 2 56 H(2.13)WB 150 Sn()WB 60 Sn( Mapping for Mixed Content Models)EA()EH( - - )0 P(XML Schema mixed content models do not have a direct C++ mapping. - Instead, infor)HY(ma)HY(tion)YH( in XML instance docu)HY(ments)YH(, corre)HY(spond)HY(ing)YH( to - a mixed content model, can be accessed using generic DOM nodes that - can option)HY(ally)YH( be asso)HY(ci)HY(ated)YH( with object model nodes. See - )0 90 1 A(Section 5.1, "DOM Asso)HY(ci)HY(a)HY(tion)YH(")90 0 TN TL()Ec /AF f D( for more - infor)HY(ma)HY(tion)YH( about keeping asso)HY(ci)HY(a)HY(tion)YH( with DOM nodes. - )EP( - - - - - - )0 1 57 H(3)WB 151 Sn()WB 61 Sn( Parsing)EA()EH( - - )0 P(This chapter covers various aspects of parsing XML instance - docu)HY(ments)YH( in order to obtain corre)HY(spond)HY(ing)YH( tree-like object - model. - )EP( - - )0 P(Each global XML Schema element in the form:)EP( - - ) 1 34 PR()RP( - - )0 P(is mapped to 14 over)HY(loaded)YH( C++ func)HY(tions)YH( in the form:)EP( - - ) 96 65 PR(// Read from a URI or a local file. -// - -std::auto_ptr -name \201const std::basic_string& uri, - xml_schema::flags = 0, - const xml_schema::properties& = xml_schema::properties \201\202\202; - -std::auto_ptr -name \201const std::basic_string& uri, - xml_schema::error_handler&, - xml_schema::flags = 0, - const xml_schema::properties& = xml_schema::properties \201\202\202; - -std::auto_ptr -name \201const std::basic_string& uri, - xercesc::DOMErrorHandler&, - xml_schema::flags = 0, - const xml_schema::properties& = xml_schema::properties \201\202\202; - - -// Read from std::istream. -// - -std::auto_ptr -name \201std::istream&, - xml_schema::flags = 0, - const xml_schema::properties& = xml_schema::properties \201\202\202; - -std::auto_ptr -name \201std::istream&,)WR( - xml_schema::error_handler&, - xml_schema::flags = 0, - const xml_schema::properties& = xml_schema::properties \201\202\202; - -std::auto_ptr -name \201std::istream&, - xercesc::DOMErrorHandler&, - xml_schema::flags = 0, - const xml_schema::properties& = xml_schema::properties \201\202\202; - - -std::auto_ptr -name \201std::istream&, - const std::basic_string& id, - xml_schema::flags = 0, - const xml_schema::properties& = xml_schema::properties \201\202\202; - -std::auto_ptr -name \201std::istream&, - const std::basic_string& id, - xml_schema::error_handler&, - xml_schema::flags = 0, - const xml_schema::properties& = xml_schema::properties \201\202\202; - -std::auto_ptr -name \201std::istream&, - const std::basic_string& id, - xercesc::DOMErrorHandler&, - xml_schema::flags = 0, - const xml_schema::properties& = xml_schema::properties \201\202\202;)WR( - - -// Read from InputSource. -// - -std::auto_ptr -name \201xercesc::InputSource&, - xml_schema::flags = 0, - const xml_schema::properties& = xml_schema::properties \201\202\202; - -std::auto_ptr -name \201xercesc::InputSource&, - xml_schema::error_handler&, - xml_schema::flags = 0, - const xml_schema::properties& = xml_schema::properties \201\202\202; - -std::auto_ptr -name \201xercesc::InputSource&, - xercesc::DOMErrorHandler&, - xml_schema::flags = 0, - const xml_schema::properties& = xml_schema::properties \201\202\202; - - -// Read from DOM. -// - -std::auto_ptr -name \201const xercesc::DOMDocument&, - xml_schema::flags = 0, - const xml_schema::properties& = xml_schema::properties \201\202\202;)WR( - -std::auto_ptr -name \201xml_schema::dom::auto_ptr&, - xml_schema::flags = 0, - const xml_schema::properties& = xml_schema::properties \201\202\202;)RP( - - )0 P(You can choose between reading an XML instance from a local file, - URI, )SM(std::istream)ES(, )SM(xercesc::Input)HY(Source)YH()ES(, - or a pre-parsed DOM instance in the form of - )SM(xercesc::DOMDoc)HY(u)HY(ment)YH()ES(. Each of these parsing func)HY(tions)YH( - is discussed in more detail in the follow)HY(ing)YH( sections. - )EP( - - )0 2 58 H(3.1)WB 152 Sn()WB 62 Sn( Initial)HY(iz)HY(ing)YH( the Xerces-C++ Runtime)EA()EH( - - )0 P(Some parsing func)HY(tions)YH( expect you to initial)HY(ize)YH( the Xerces-C++ - runtime while others initial)HY(ize)YH( and termi)HY(nate)YH( it as part of their - work. The general rule is as follows: if a func)HY(tion)YH( has any argu)HY(ments)YH( - or return a value that is an instance of a Xerces-C++ type, then - this func)HY(tion)YH( expects you to initial)HY(ize)YH( the Xerces-C++ runtime. - Other)HY(wise)YH(, the func)HY(tion)YH( initial)HY(izes)YH( and termi)HY(nates)YH( the runtime for - you. Note that it is legal to have nested calls to the Xerces-C++ - initial)HY(ize)YH( and termi)HY(nate)YH( func)HY(tions)YH( as long as the calls are balanced. - )EP( - - )0 P(You can instruct parsing func)HY(tions)YH( that initial)HY(ize)YH( and termi)HY(nate)YH( - the runtime not to do so by passing the - )SM(xml_schema::flags::dont_initial)HY(ize)YH()ES( flag \201see - )0 63 1 A(Section 3.2, "Flags and Prop)HY(er)HY(ties)YH(")63 0 TN TL()Ec /AF f D(\202. - )EP( - - - )0 2 59 H(3.2)WB 153 Sn()WB 63 Sn( Flags and Prop)HY(er)HY(ties)YH()EA()EH( - - )0 P(Parsing flags and prop)HY(er)HY(ties)YH( are the last two argu)HY(ments)YH( of every - parsing func)HY(tion)YH(. They allow you to fine-tune the process of - instance vali)HY(da)HY(tion)YH( and parsing. Both argu)HY(ments)YH( are optional. - )EP( - - - )0 P(The follow)HY(ing)YH( flags are recog)HY(nized)YH( by the parsing func)HY(tions)YH(:)EP( - - )0 DL( )0 DT()SM(xml_schema::flags::keep_dom)ES( - )DD(Keep asso)HY(ci)HY(a)HY(tion)YH( between DOM nodes and the result)HY(ing)YH( - object model nodes. For more infor)HY(ma)HY(tion)YH( about DOM asso)HY(ci)HY(a)HY(tion)YH( - refer to )0 90 1 A(Section 5.1, "DOM Asso)HY(ci)HY(a)HY(tion)YH(")90 0 TN TL()Ec /AF f D(. - - )0 DT()SM(xml_schema::flags::own_dom)ES( - )DD(Assume owner)HY(ship)YH( of the DOM docu)HY(ment)YH( passed. This flag only - makes sense together with the )SM(keep_dom)ES( flag in - the call to the parsing func)HY(tion)YH( with the - )SM(xml_schema::dom::auto_ptr)ES( - argu)HY(ment)YH(. - - )0 DT()SM(xml_schema::flags::dont_vali)HY(date)YH()ES( - )DD(Do not vali)HY(date)YH( instance docu)HY(ments)YH( against schemas. - - )0 DT()SM(xml_schema::flags::dont_initial)HY(ize)YH()ES( - )DD(Do not initial)HY(ize)YH( the Xerces-C++ runtime. - )LD( - - )0 P(You can pass several flags by combin)HY(ing)YH( them using the bit-wise OR - oper)HY(a)HY(tor)YH(. For example:)EP( - - ) 4 61 PR(using xml_schema::flags; - -std::auto_ptr r \201 - name \201"test.xml", flags::keep_dom | flags::dont_validate\202\202;)RP( - - )0 P(By default, vali)HY(da)HY(tion)YH( of instance docu)HY(ments)YH( is turned on even - though parsers gener)HY(ated)YH( by XSD do not assume instance - docu)HY(ments)YH( are valid. They include a number of checks that prevent - construc)HY(tion)YH( of incon)HY(sis)HY(tent)YH( object models. This, - however, does not mean that an instance docu)HY(ment)YH( that was - success)HY(fully)YH( parsed by the XSD-gener)HY(ated)YH( parsers is - valid per the corre)HY(spond)HY(ing)YH( schema. If an instance docu)HY(ment)YH( is not - "valid enough" for the gener)HY(ated)YH( parsers to construct consis)HY(tent)YH( - object model, one of the excep)HY(tions)YH( defined in - )SM(xml_schema)ES( names)HY(pace)YH( is thrown \201see - )0 64 1 A(Section 3.3, "Error Handling")64 0 TN TL()Ec /AF f D(\202. - )EP( - - )0 P(For more infor)HY(ma)HY(tion)YH( on the Xerces-C++ runtime initial)HY(iza)HY(tion)YH( - refer to )0 62 1 A(Section 3.1, "Initial)HY(iz)HY(ing)YH( the Xerces-C++ - Runtime")62 0 TN TL()Ec /AF f D(. - )EP( - - )0 P(The )SM(xml_schema::prop)HY(er)HY(ties)YH()ES( class allows you to - program)HY(mat)HY(i)HY(cally)YH( specify schema loca)HY(tions)YH( to be used instead - of those spec)HY(i)HY(fied)YH( with the )SM(xsi::schemaLo)HY(ca)HY(tion)YH()ES( - and )SM(xsi::noNames)HY(paceSchemaLo)HY(ca)HY(tion)YH()ES( attributes - in instance docu)HY(ments)YH(. The inter)HY(face)YH( of the )SM(prop)HY(er)HY(ties)YH()ES( - class is presented below: - )EP( - - ) 9 70 PR(class properties -{ -public: - void - schema_location \201const std::basic_string& namespace_, - const std::basic_string& location\202; - void - no_namespace_schema_location \201const std::basic_string& location\202; -};)RP( - - )0 P(Note that all loca)HY(tions)YH( are rela)HY(tive)YH( to an instance docu)HY(ment)YH( unless - they are URIs. For example, if you want to use a local file as your - schema, then you will need to pass - )SM(file:///abso)HY(lute)YH(/path/to/your/schema)ES( as the loca)HY(tion)YH( - argu)HY(ment)YH(. - )EP( - - )0 2 60 H(3.3)WB 154 Sn()WB 64 Sn( Error Handling)EA()EH( - - )0 P(As discussed in )0 13 1 A(Section 2.2, "Error Handling")13 0 TN TL()Ec /AF f D(, - the mapping uses the C++ excep)HY(tion)YH( handling mech)HY(a)HY(nism)YH( as its primary - way of report)HY(ing)YH( error condi)HY(tions)YH(. However, to handle recov)HY(er)HY(able)YH( - parsing and vali)HY(da)HY(tion)YH( errors and warn)HY(ings)YH(, a call)HY(back)YH( inter)HY(face)YH( maybe - preferred by the appli)HY(ca)HY(tion)YH(.)EP( - - )0 P(To better under)HY(stand)YH( error handling and report)HY(ing)YH( strate)HY(gies)YH( employed - by the parsing func)HY(tions)YH(, it is useful to know that the - trans)HY(for)HY(ma)HY(tion)YH( of an XML instance docu)HY(ment)YH( to a stat)HY(i)HY(cally)YH(-typed - tree happens in two stages. The first stage, performed by Xerces-C++, - consists of parsing an XML docu)HY(ment)YH( into a DOM instance. For short, - we will call this stage the XML-DOM stage. Vali)HY(da)HY(tion)YH(, if not disabled, - happens during this stage. The second stage, - performed by the gener)HY(ated)YH( parsers, consist of parsing the DOM - instance into the stat)HY(i)HY(cally)YH(-typed tree. We will call this stage - the DOM-Tree stage. Addi)HY(tional)YH( checks are performed during this - stage in order to prevent construc)HY(tion)YH( of incon)HY(sis)HY(tent)YH( tree which - could other)HY(wise)YH( happen when vali)HY(da)HY(tion)YH( is disabled, for example.)EP( - - )0 P(All parsing func)HY(tions)YH( except the one that oper)HY(ates)YH( on a DOM instance - come in over)HY(loaded)YH( triples. The first func)HY(tion)YH( in such a triple - reports error condi)HY(tions)YH( exclu)HY(sively)YH( by throw)HY(ing)YH( excep)HY(tions)YH(. It - accu)HY(mu)HY(lates)YH( all the parsing and vali)HY(da)HY(tion)YH( errors of the XML-DOM - stage and throws them in a single instance of the - )SM(xml_schema::parsing)ES( excep)HY(tion)YH( \201described below\202. - The second and the third func)HY(tions)YH( in the triple use call)HY(back)YH( - inter)HY(faces)YH( to report parsing and vali)HY(da)HY(tion)YH( errors and warn)HY(ings)YH(. - The two call)HY(back)YH( inter)HY(faces)YH( are )SM(xml_schema::error_handler)ES( - and )SM(xercesc::DOMEr)HY(rorHan)HY(dler)YH()ES(. For more infor)HY(ma)HY(tion)YH( - on the )SM(xercesc::DOMEr)HY(rorHan)HY(dler)YH()ES( inter)HY(face)YH( refer to - the Xerces-C++ docu)HY(men)HY(ta)HY(tion)YH(. The )SM(xml_schema::error_handler)ES( - inter)HY(face)YH( is presented below: - )EP( - - ) 23 51 PR(class error_handler -{ -public: - struct severity - { - enum value - { - warning, - error, - fatal - }; - }; - - virtual bool - handle \201const std::basic_string& id, - unsigned long line, - unsigned long column, - severity, - const std::basic_string& message\202 = 0; - - virtual - ~error_handler \201\202; -};)RP( - - )0 P(The )SM(id)ES( argu)HY(ment)YH( of the )SM(error_handler::handle)ES( - func)HY(tion)YH( iden)HY(ti)HY(fies)YH( the resource being parsed \201e.g., a file name or - URI\202. - )EP( - - )0 P(By return)HY(ing)YH( )SM(true)ES( from the )SM(handle)ES( func)HY(tion)YH( - you instruct the parser to recover and continue parsing. Return)HY(ing)YH( - )SM(false)ES( results in termi)HY(na)HY(tion)YH( of the parsing process. - An error with the )SM(fatal)ES( sever)HY(ity)YH( level results in - termi)HY(na)HY(tion)YH( of the parsing process no matter what is returned from - the )SM(handle)ES( func)HY(tion)YH(. It is safe to throw an excep)HY(tion)YH( - from the )SM(handle)ES( func)HY(tion)YH(. - )EP( - - )0 P(The DOM-Tree stage reports error condi)HY(tions)YH( exclu)HY(sively)YH( by throw)HY(ing)YH( - excep)HY(tions)YH(. Indi)HY(vid)HY(ual)YH( excep)HY(tions)YH( thrown by the parsing func)HY(tions)YH( - are described in the follow)HY(ing)YH( sub-sections. - )EP( - - - )0 3 61 H(3.3.1)WB 155 Sn()WB 65 Sn( )SM(xml_schema::parsing)ES()EA()EH( - - ) 57 56 PR(struct severity -{ - enum value - { - warning, - error - }; - - severity \201value\202; - operator value \201\202 const; -}; - -struct error -{ - error \201severity, - const std::basic_string& id, - unsigned long line, - unsigned long column, - const std::basic_string& message\202; - - severity - severity \201\202 const; - - const std::basic_string& - id \201\202 const; - - unsigned long - line \201\202 const; - - unsigned long - column \201\202 const;)WR( - - const std::basic_string& - message \201\202 const; -}; - -std::basic_ostream& -operator<< \201std::basic_ostream&, const error&\202; - -struct diagnostics: std::vector -{ -}; - -std::basic_ostream& -operator<< \201std::basic_ostream&, const diagnostics&\202; - -struct parsing: virtual exception -{ - parsing \201\202; - parsing \201const diagnostics&\202; - - const diagnostics& - diagnostics \201\202 const; - - virtual const char* - what \201\202 const throw \201\202; -};)RP( - - )0 P(The )SM(xml_schema::parsing)ES( excep)HY(tion)YH( is thrown if there - were parsing or vali)HY(da)HY(tion)YH( errors reported during the XML-DOM stage. - If no call)HY(back)YH( inter)HY(face)YH( was provided to the parsing func)HY(tion)YH(, the - excep)HY(tion)YH( contains a list of errors and warn)HY(ings)YH( acces)HY(si)HY(ble)YH( using - the )SM(diag)HY(nos)HY(tics)YH()ES( func)HY(tion)YH(. The usual condi)HY(tions)YH( when - this excep)HY(tion)YH( is thrown include malformed XML instances and, if - vali)HY(da)HY(tion)YH( is turned on, invalid instance docu)HY(ments)YH(. - )EP( - - )0 3 62 H(3.3.2)WB 156 Sn()WB 66 Sn( )SM(xml_schema::expected_element)ES()EA()EH( - - ) 16 60 PR(struct expected_element: virtual exception -{ - expected_element \201const std::basic_string& name, - const std::basic_string& namespace_\202; - - - const std::basic_string& - name \201\202 const; - - const std::basic_string& - namespace_ \201\202 const; - - - virtual const char* - what \201\202 const throw \201\202; -};)RP( - - )0 P(The )SM(xml_schema::expected_element)ES( excep)HY(tion)YH( is thrown - when an expected element is not encoun)HY(tered)YH( by the DOM-Tree stage. - The name and names)HY(pace)YH( of the expected element can be obtained using - the )SM(name)ES( and )SM(names)HY(pace)YH(_)ES( func)HY(tions)YH( respec)HY(tively)YH(. - )EP( - - - )0 3 63 H(3.3.3)WB 157 Sn()WB 67 Sn( )SM(xml_schema::unex)HY(pected)YH(_element)ES()EA()EH( - - ) 25 72 PR(struct unexpected_element: virtual exception -{ - unexpected_element \201const std::basic_string& encountered_name, - const std::basic_string& encountered_namespace, - const std::basic_string& expected_name, - const std::basic_string& expected_namespace\202 - - - const std::basic_string& - encountered_name \201\202 const; - - const std::basic_string& - encountered_namespace \201\202 const; - - - const std::basic_string& - expected_name \201\202 const; - - const std::basic_string& - expected_namespace \201\202 const; - - - virtual const char* - what \201\202 const throw \201\202; -};)RP( - - )0 P(The )SM(xml_schema::unex)HY(pected)YH(_element)ES( excep)HY(tion)YH( is thrown - when an unex)HY(pected)YH( element is encoun)HY(tered)YH( by the DOM-Tree stage. - The name and names)HY(pace)YH( of the encoun)HY(tered)YH( element can be obtained - using the )SM(encoun)HY(tered)YH(_name)ES( and - )SM(encoun)HY(tered)YH(_names)HY(pace)YH()ES( func)HY(tions)YH( respec)HY(tively)YH(. If an - element was expected instead of the encoun)HY(tered)YH( one, its name - and names)HY(pace)YH( can be obtained using the )SM(expected_name)ES( and - )SM(expected_names)HY(pace)YH()ES( func)HY(tions)YH( respec)HY(tively)YH(. Other)HY(wise)YH( - these func)HY(tions)YH( return empty strings. - )EP( - - )0 3 64 H(3.3.4)WB 158 Sn()WB 68 Sn( )SM(xml_schema::expected_attribute)ES()EA()EH( - - ) 16 62 PR(struct expected_attribute: virtual exception -{ - expected_attribute \201const std::basic_string& name, - const std::basic_string& namespace_\202; - - - const std::basic_string& - name \201\202 const; - - const std::basic_string& - namespace_ \201\202 const; - - - virtual const char* - what \201\202 const throw \201\202; -};)RP( - - )0 P(The )SM(xml_schema::expected_attribute)ES( excep)HY(tion)YH( is thrown - when an expected attribute is not encoun)HY(tered)YH( by the DOM-Tree stage. - The name and names)HY(pace)YH( of the expected attribute can be obtained using - the )SM(name)ES( and )SM(names)HY(pace)YH(_)ES( func)HY(tions)YH( respec)HY(tively)YH(. - )EP( - - - )0 3 65 H(3.3.5)WB 159 Sn()WB 69 Sn( )SM(xml_schema::unex)HY(pected)YH(_enumer)HY(a)HY(tor)YH()ES()EA()EH( - - ) 10 65 PR(struct unexpected_enumerator: virtual exception -{ - unexpected_enumerator \201const std::basic_string& enumerator\202; - - const std::basic_string& - enumerator \201\202 const; - - virtual const char* - what \201\202 const throw \201\202; -};)RP( - - )0 P(The )SM(xml_schema::unex)HY(pected)YH(_enumer)HY(a)HY(tor)YH()ES( excep)HY(tion)YH( is thrown - when an unex)HY(pected)YH( enumer)HY(a)HY(tor)YH( is encoun)HY(tered)YH( by the DOM-Tree stage. - The enumer)HY(a)HY(tor)YH( can be obtained using the )SM(enumer)HY(a)HY(tor)YH()ES( - func)HY(tions)YH(. - )EP( - - )0 3 66 H(3.3.6)WB 160 Sn()WB 70 Sn( )SM(xml_schema::expected_text_content)ES()EA()EH( - - ) 5 47 PR(struct expected_text_content: virtual exception -{ - virtual const char* - what \201\202 const throw \201\202; -};)RP( - - )0 P(The )SM(xml_schema::expected_text_content)ES( excep)HY(tion)YH( is thrown - when a content other than text is encoun)HY(tered)YH( and the text content was - expected by the DOM-Tree stage. - )EP( - - )0 3 67 H(3.3.7)WB 161 Sn()WB 71 Sn( )SM(xml_schema::no_type_info)ES()EA()EH( - - ) 14 60 PR(struct no_type_info: virtual exception -{ - no_type_info \201const std::basic_string& type_name, - const std::basic_string& type_namespace\202; - - const std::basic_string& - type_name \201\202 const; - - const std::basic_string& - type_namespace \201\202 const; - - virtual const char* - what \201\202 const throw \201\202; -};)RP( - - )0 P(The )SM(xml_schema::no_type_info)ES( excep)HY(tion)YH( is thrown - when there is no type infor)HY(ma)HY(tion)YH( asso)HY(ci)HY(ated)YH( with a type spec)HY(i)HY(fied)YH( - by the )SM(xsi:type)ES( attribute. This excep)HY(tion)YH( is thrown - by the DOM-Tree stage. The name and names)HY(pace)YH( of the type in ques)HY(tion)YH( - can be obtained using the )SM(type_name)ES( and - )SM(type_names)HY(pace)YH()ES( func)HY(tions)YH( respec)HY(tively)YH(. Usually, catch)HY(ing)YH( - this excep)HY(tion)YH( means that you haven't linked the code gener)HY(ated)YH( - from the schema defin)HY(ing)YH( the type in ques)HY(tion)YH( with your appli)HY(ca)HY(tion)YH( - or this schema has been compiled without the - )SM(--gener)HY(ate)YH(-poly)HY(mor)HY(phic)YH()ES( option. - )EP( - - - )0 3 68 H(3.3.8)WB 162 Sn()WB 72 Sn( )SM(xml_schema::not_derived)ES()EA()EH( - - ) 23 67 PR(struct not_derived: virtual exception -{ - not_derived \201const std::basic_string& base_type_name, - const std::basic_string& base_type_namespace, - const std::basic_string& derived_type_name, - const std::basic_string& derived_type_namespace\202; - - const std::basic_string& - base_type_name \201\202 const; - - const std::basic_string& - base_type_namespace \201\202 const; - - - const std::basic_string& - derived_type_name \201\202 const; - - const std::basic_string& - derived_type_namespace \201\202 const; - - virtual const char* - what \201\202 const throw \201\202; -};)RP( - - )0 P(The )SM(xml_schema::not_derived)ES( excep)HY(tion)YH( is thrown - when a type spec)HY(i)HY(fied)YH( by the )SM(xsi:type)ES( attribute is - not derived from the expected base type. This excep)HY(tion)YH( is thrown - by the DOM-Tree stage. The name and names)HY(pace)YH( of the expected - base type can be obtained using the )SM(base_type_name)ES( and - )SM(base_type_names)HY(pace)YH()ES( func)HY(tions)YH( respec)HY(tively)YH(. The name - and names)HY(pace)YH( of the offend)HY(ing)YH( type can be obtained using the - )SM(derived_type_name)ES( and - )SM(derived_type_names)HY(pace)YH()ES( func)HY(tions)YH( respec)HY(tively)YH(. - )EP( - - )0 3 69 H(3.3.9)WB 163 Sn()WB 73 Sn( )SM(xml_schema::no_prefix_mapping)ES()EA()EH( - - ) 10 57 PR(struct no_prefix_mapping: virtual exception -{ - no_prefix_mapping \201const std::basic_string& prefix\202; - - const std::basic_string& - prefix \201\202 const; - - virtual const char* - what \201\202 const throw \201\202; -};)RP( - - )0 P(The )SM(xml_schema::no_prefix_mapping)ES( excep)HY(tion)YH( is thrown - during the DOM-Tree stage if a names)HY(pace)YH( prefix is encoun)HY(tered)YH( for - which a prefix-names)HY(pace)YH( mapping hasn't been provided. The names)HY(pace)YH( - prefix in ques)HY(tion)YH( can be obtained using the )SM(prefix)ES( - func)HY(tion)YH(. - )EP( - - )0 2 70 H(3.4)WB 164 Sn()WB 74 Sn( Reading from a Local File or URI)EA()EH( - - )0 P(Using a local file or URI is the simplest way to parse an XML instance. - For example:)EP( - - ) 4 67 PR(using std::auto_ptr; - -auto_ptr r1 \201name \201"test.xml"\202\202; -auto_ptr r2 \201name \201"http://www.codesynthesis.com/test.xml"\202\202;)RP( - - )0 2 71 H(3.5)WB 165 Sn()WB 75 Sn( Reading from )SM(std::istream)ES()EA()EH( - - )0 P(When using an )SM(std::istream)ES( instance, you may also - pass an optional resource id. This id is used to iden)HY(tify)YH( the - resource \201for example in error messages\202 as well as to resolve - rela)HY(tive)YH( paths. For instance:)EP( - - ) 12 48 PR(using std::auto_ptr; - -{ - std::ifstream ifs \201"test.xml"\202; - auto_ptr r \201name \201ifs, "test.xml"\202\202; -} - -{ - std::string str \201"..."\202; // Some XML fragment. - std::istringstream iss \201str\202; - auto_ptr r \201name \201iss\202\202; -})RP( - - )0 2 72 H(3.6)WB 166 Sn()WB 76 Sn( Reading from )SM(xercesc::Input)HY(Source)YH()ES()EA()EH( - - )0 P(Reading from a )SM(xercesc::Input)HY(Source)YH()ES( instance - is similar to the )SM(std::istream)ES( case except - the resource id is main)HY(tained)YH( by the )SM(Input)HY(Source)YH()ES( - object. For instance:)EP( - - ) 2 34 PR(xercesc::StdInInputSource is; -std::auto_ptr r \201name \201is\202\202;)RP( - - )0 2 73 H(3.7)WB 167 Sn()WB 77 Sn( Reading from DOM)EA()EH( - - )0 P(Reading from a )SM(xercesc::DOMDoc)HY(u)HY(ment)YH()ES( instance allows - you to setup a custom XML-DOM stage. Things like DOM - parser reuse, schema pre-parsing, and schema caching can be achieved - with this approach. For more infor)HY(ma)HY(tion)YH( on how to obtain DOM - repre)HY(sen)HY(ta)HY(tion)YH( from an XML instance refer to the Xerces-C++ - docu)HY(men)HY(ta)HY(tion)YH(. In addi)HY(tion)YH(, the - )R8 2 A(C++/Tree Mapping - FAQ)EA( shows how to parse an XML instance to a Xerces-C++ - DOM docu)HY(ment)YH( using the XSD runtime util)HY(i)HY(ties)YH(. - )EP( - - )0 P(The last parsing func)HY(tion)YH( is useful when you would like to perform - your own XML-to-DOM parsing and as)HY(so)HY(ciate)YH( the result)HY(ing)YH( DOM docu)HY(ment)YH( - with the object model nodes. If parsing is successe)HY(ful)YH(, the - auto)HY(matic)YH( )SM(DOMDoc)HY(u)HY(ment)YH()ES( pointer is reset and the - result)HY(ing)YH( object model assumes owner)HY(ship)YH( of the DOM docu)HY(ment)YH( - passed. For example:)EP( - - ) 6 72 PR(xml_schema::dom::auto_ptr doc = ... - -std::auto_ptr r \201 - name \201doc, xml_schema::flags::keep_dom | xml_schema::flags::own_dom\202\202; - -// At this point doc is reset to 0.)RP( - - - - )0 1 74 H(4)WB 168 Sn()WB 78 Sn( Seri)HY(al)HY(iza)HY(tion)YH()EA()EH( - - )0 P(This chapter covers various aspects of seri)HY(al)HY(iz)HY(ing)YH( a - tree-like object model to DOM or XML. - In this regard, seri)HY(al)HY(iza)HY(tion)YH( is compli)HY(men)HY(tary)YH( to the reverse - process of parsing a DOM or XML instance into an object model - which is discussed in )0 61 1 A(Chapter 3, - "Parsing")61 0 TN TL()Ec /AF f D(. Note that the gener)HY(a)HY(tion)YH( of the seri)HY(al)HY(iza)HY(tion)YH( code - is optional and should be explic)HY(itly)YH( requested with the - )SM(--gener)HY(ate)YH(-seri)HY(al)HY(iza)HY(tion)YH()ES( option. See the - )R9 2 A(XSD - Compiler Command Line Manual)EA( for more infor)HY(ma)HY(tion)YH(. - )EP( - - )0 P(Each global XML Schema element in the form: - )EP( - - - ) 1 38 PR()RP( - - )0 P(is mapped to 8 over)HY(loaded)YH( C++ func)HY(tions)YH( in the form:)EP( - - ) 70 53 PR(// Serialize to std::ostream. -// -void -name \201std::ostream&, - const type&, - const xml_schema::namespace_fomap& = - xml_schema::namespace_infomap \201\202, - const std::basic_string& encoding = "UTF-8", - xml_schema::flags = 0\202; - -void -name \201std::ostream&, - const type&, - xml_schema::error_handler&, - const xml_schema::namespace_infomap& = - xml_schema::namespace_infomap \201\202, - const std::basic_string& encoding = "UTF-8", - xml_schema::flags = 0\202; - -void -name \201std::ostream&, - const type&, - xercesc::DOMErrorHandler&, - const xml_schema::namespace_infomap& = - xml_schema::namespace_infomap \201\202, - const std::basic_string& encoding = "UTF-8", - xml_schema::flags = 0\202; - - -// Serialize to XMLFormatTarget. -//)WR( -void -name \201xercesc::XMLFormatTarget&, - const type&, - const xml_schema::namespace_infomap& = - xml_schema::namespace_infomap \201\202, - const std::basic_string& encoding = "UTF-8", - xml_schema::flags = 0\202; - -void -name \201xercesc::XMLFormatTarget&, - const type&, - xml_schema::error_handler&, - const xml_schema::namespace_infomap& = - xml_schema::namespace_infomap \201\202, - const std::basic_string& encoding = "UTF-8", - xml_schema::flags = 0\202; - -void -name \201xercesc::XMLFormatTarget&, - const type&, - xercesc::DOMErrorHandler&, - const xml_schema::namespace_infomap& = - xml_schema::namespace_infomap \201\202, - const std::basic_string& encoding = "UTF-8", - xml_schema::flags = 0\202; - - -// Serialize to DOM. -// -xml_schema::dom::auto_ptr)WR( -name \201const type&, - const xml_schema::namespace_infomap& - xml_schema::namespace_infomap \201\202, - xml_schema::flags = 0\202; - -void -name \201xercesc::DOMDocument&, - const type&, - xml_schema::flags = 0\202;)RP( - - )0 P(You can choose between writing XML to )SM(std::ostream)ES( or - )SM(xercesc::XMLFor)HY(mat)HY(Tar)HY(get)YH()ES( and creat)HY(ing)YH( a DOM instance - in the form of )SM(xercesc::DOMDoc)HY(u)HY(ment)YH()ES(. Seri)HY(al)HY(iza)HY(tion)YH( - to )SM(ostream)ES( or )SM(XMLFor)HY(mat)HY(Tar)HY(get)YH()ES( requires a - consid)HY(er)HY(ably)YH( less work while seri)HY(al)HY(iza)HY(tion)YH( to DOM provides - for greater flex)HY(i)HY(bil)HY(ity)YH(. Each of these seri)HY(al)HY(iza)HY(tion)YH( func)HY(tions)YH( - is discussed in more detail in the follow)HY(ing)YH( sections. - )EP( - - - )0 2 75 H(4.1)WB 169 Sn()WB 79 Sn( Initial)HY(iz)HY(ing)YH( the Xerces-C++ Runtime)EA()EH( - - )0 P(Some seri)HY(al)HY(iza)HY(tion)YH( func)HY(tions)YH( expect you to initial)HY(ize)YH( the Xerces-C++ - runtime while others initial)HY(ize)YH( and termi)HY(nate)YH( it as part of their - work. The general rule is as follows: if a func)HY(tion)YH( has any argu)HY(ments)YH( - or return a value that is an instance of a Xerces-C++ type, then - this func)HY(tion)YH( expects you to initial)HY(ize)YH( the Xerces-C++ runtime. - Other)HY(wise)YH(, the func)HY(tion)YH( initial)HY(izes)YH( and termi)HY(nates)YH( the runtime for - you. Note that it is legal to have nested calls to the Xerces-C++ - initial)HY(ize)YH( and termi)HY(nate)YH( func)HY(tions)YH( as long as the calls are balanced. - )EP( - - )0 P(You can instruct seri)HY(al)HY(iza)HY(tion)YH( func)HY(tions)YH( that initial)HY(ize)YH( and termi)HY(nate)YH( - the runtime not to do so by passing the - )SM(xml_schema::flags::dont_initial)HY(ize)YH()ES( flag \201see - )0 81 1 A(Section 4.3, "Flags")81 0 TN TL()Ec /AF f D(\202. - )EP( - - )0 2 76 H(4.2)WB 170 Sn()WB 80 Sn( Names)HY(pace)YH( Infomap and Char)HY(ac)HY(ter)YH( Encod)HY(ing)YH()EA()EH( - - )0 P(When a docu)HY(ment)YH( being seri)HY(al)HY(ized)YH( uses XML names)HY(paces)YH(, custom - prefix-names)HY(pace)YH( asso)HY(ci)HY(a)HY(tions)YH( can to be estab)HY(lished)YH(. If custom - prefix-names)HY(pace)YH( mapping is not provided then generic prefixes - \201)SM(p1)ES(, )SM(p2)ES(, etc\202 are auto)HY(mat)HY(i)HY(cally)YH( assigned - to names)HY(paces)YH( as needed. Also, if - you would like the result)HY(ing)YH( instance docu)HY(ment)YH( to contain the - )SM(schemaLo)HY(ca)HY(tion)YH()ES( or )SM(noNames)HY(paceSchemaLo)HY(ca)HY(tion)YH()ES( - attributes, you will need to provide names)HY(pace)YH(-schema asso)HY(ci)HY(a)HY(tions)YH(. - The )SM(xml_schema::names)HY(pace)YH(_infomap)ES( class is used - to capture this infor)HY(ma)HY(tion)YH(:)EP( - - ) 16 63 PR(struct namespace_info -{ - namespace_info \201\202; - namespace_info \201const std::basic_string& name, - const std::basic_string& schema\202; - - std::basic_string name; - std::basic_string schema; -}; - -// Map of namespace prefix to namespace_info. -// -struct namespace_infomap: public std::map, - namespace_info> -{ -};)RP( - - )0 P(Consider the follow)HY(ing)YH( asso)HY(ci)HY(a)HY(tions)YH( as an example:)EP( - - ) 4 52 PR(xml_schema::namespace_infomap map; - -map["t"].name = "http://www.codesynthesis.com/test"; -map["t"].schema = "test.xsd";)RP( - - )0 P(This map, if passed to one of the seri)HY(al)HY(iza)HY(tion)YH( func)HY(tions)YH(, - could result in the follow)HY(ing)YH( XML frag)HY(ment)YH(:)EP( - - ) 4 72 PR( -)RP( - - )0 P(As you can see, the seri)HY(al)HY(iza)HY(tion)YH( func)HY(tion)YH( auto)HY(mat)HY(i)HY(cally)YH( added names)HY(pace)YH( - mapping for the )SM(xsi)ES( prefix. You can change this by - provid)HY(ing)YH( your own prefix:)EP( - - ) 6 62 PR(xml_schema::namespace_infomap map; - -map["xsn"].name = "http://www.w3.org/2001/XMLSchema-instance"; - -map["t"].name = "http://www.codesynthesis.com/test"; -map["t"].schema = "test.xsd";)RP( - - )0 P(This could result in the follow)HY(ing)YH( XML frag)HY(ment)YH(:)EP( - - ) 4 72 PR( -)RP( - - )0 P(To specify the loca)HY(tion)YH( of a schema without a names)HY(pace)YH( you can use - an empty prefix as in the example below: )EP( - - ) 3 34 PR(xml_schema::namespace_infomap map; - -map[""].schema = "test.xsd";)RP( - - )0 P(This would result in the follow)HY(ing)YH( XML frag)HY(ment)YH(:)EP( - - ) 3 59 PR( -)RP( - - )0 P(To make a partic)HY(u)HY(lar)YH( names)HY(pace)YH( default you can use an empty - prefix, for example:)EP( - - ) 4 51 PR(xml_schema::namespace_infomap map; - -map[""].name = "http://www.codesynthesis.com/test"; -map[""].schema = "test.xsd";)RP( - - )0 P(This could result in the follow)HY(ing)YH( XML frag)HY(ment)YH(:)EP( - - ) 4 70 PR( -)RP( - - - )0 P(Another bit of infor)HY(ma)HY(tion)YH( that you can pass to the seri)HY(al)HY(iza)HY(tion)YH( - func)HY(tions)YH( is the char)HY(ac)HY(ter)YH( encod)HY(ing)YH( method that you would like to use. - Common values for this argu)HY(ment)YH( are )SM("US-ASCII")ES(, - )SM("ISO8859-1")ES(, )SM("UTF-8")ES(, - )SM("UTF-16BE")ES(, )SM("UTF-16LE")ES(, - )SM("UCS-4BE")ES(, and )SM("UCS-4LE")ES(. The default - encod)HY(ing)YH( is )SM("UTF-8")ES(. For more infor)HY(ma)HY(tion)YH( on - encod)HY(ing)YH( methods see the - ")R12 2 A(Char)HY(ac)HY(ter)YH( - Encod)HY(ing)YH()EA(" article from Wikipedia. - )EP( - - )0 2 77 H(4.3)WB 171 Sn()WB 81 Sn( Flags)EA()EH( - - )0 P(Seri)HY(al)HY(iza)HY(tion)YH( flags are the last argu)HY(ment)YH( of every seri)HY(al)HY(iza)HY(tion)YH( - func)HY(tion)YH(. They allow you to fine-tune the process of seri)HY(al)HY(iza)HY(tion)YH(. - The flags argu)HY(ment)YH( is optional. - )EP( - - - )0 P(The follow)HY(ing)YH( flags are recog)HY(nized)YH( by the seri)HY(al)HY(iza)HY(tion)YH( - func)HY(tions)YH(:)EP( - - )0 DL( )0 DT()SM(xml_schema::flags::dont_initial)HY(ize)YH()ES( - )DD(Do not initial)HY(ize)YH( the Xerces-C++ runtime. - - )0 DT()SM(xml_schema::flags::dont_pretty_print)ES( - )DD(Do not add extra spaces or new lines that make the result)HY(ing)YH( XML - slightly bigger but easier to read. - - )0 DT()SM(xml_schema::flags::no_xml_decla)HY(ra)HY(tion)YH()ES( - )DD(Do not write XML decla)HY(ra)HY(tion)YH( \201\202. - )LD( - - )0 P(You can pass several flags by combin)HY(ing)YH( them using the bit-wise OR - oper)HY(a)HY(tor)YH(. For example:)EP( - - ) 9 45 PR(std::auto_ptr r = ... -std::ofstream ofs \201"test.xml"\202; -xml_schema::namespace_infomap map; -name \201ofs, - *r, - map, - "UTF-8", - xml_schema::flags::no_xml_declaration | - xml_schema::flags::dont_pretty_print\202;)RP( - - )0 P(For more infor)HY(ma)HY(tion)YH( on the Xerces-C++ runtime initial)HY(iza)HY(tion)YH( - refer to )0 79 1 A(Section 4.1, "Initial)HY(iz)HY(ing)YH( the Xerces-C++ - Runtime")79 0 TN TL()Ec /AF f D(. - )EP( - - )0 2 78 H(4.4)WB 172 Sn()WB 82 Sn( Error Handling)EA()EH( - - )0 P(As with the parsing func)HY(tions)YH( \201see )0 64 1 A(Section 3.3, - "Error Handling")64 0 TN TL()Ec /AF f D(\202, to better under)HY(stand)YH( error handling and - report)HY(ing)YH( strate)HY(gies)YH( employed by the seri)HY(al)HY(iza)HY(tion)YH( func)HY(tions)YH(, it - is useful to know that the trans)HY(for)HY(ma)HY(tion)YH( of a stat)HY(i)HY(cally)YH(-typed - tree to an XML instance docu)HY(ment)YH( happens in two stages. The first - stage, performed by the gener)HY(ated)YH( code, consist of build)HY(ing)YH( a DOM - instance from the stat)HY(i)HY(cally)YH(-typed tree . For short, we will call - this stage the Tree-DOM stage. The second stage, performed by - Xerces-C++, consists of seri)HY(al)HY(iz)HY(ing)YH( the DOM instance into the XML - docu)HY(ment)YH(. We will call this stage the DOM-XML stage. - )EP( - - )0 P(All seri)HY(al)HY(iza)HY(tion)YH( func)HY(tions)YH( except the two that seri)HY(al)HY(ize)YH( into - a DOM instance come in over)HY(loaded)YH( triples. The first func)HY(tion)YH( - in such a triple reports error condi)HY(tions)YH( exclu)HY(sively)YH( by throw)HY(ing)YH( - excep)HY(tions)YH(. It accu)HY(mu)HY(lates)YH( all the seri)HY(al)HY(iza)HY(tion)YH( errors of the - DOM-XML stage and throws them in a single instance of the - )SM(xml_schema::seri)HY(al)HY(iza)HY(tion)YH()ES( excep)HY(tion)YH( \201described below\202. - The second and the third func)HY(tions)YH( in the triple use call)HY(back)YH( - inter)HY(faces)YH( to report seri)HY(al)HY(iza)HY(tion)YH( errors and warn)HY(ings)YH(. The two - call)HY(back)YH( inter)HY(faces)YH( are )SM(xml_schema::error_handler)ES( and - )SM(xercesc::DOMEr)HY(rorHan)HY(dler)YH()ES(. The - )SM(xml_schema::error_handler)ES( inter)HY(face)YH( is described in - )0 64 1 A(Section 3.3, "Error Handling")64 0 TN TL()Ec /AF f D(. For more infor)HY(ma)HY(tion)YH( - on the )SM(xercesc::DOMEr)HY(rorHan)HY(dler)YH()ES( inter)HY(face)YH( refer to the - Xerces-C++ docu)HY(men)HY(ta)HY(tion)YH(. - )EP( - - )0 P(The Tree-DOM stage reports error condi)HY(tions)YH( exclu)HY(sively)YH( by throw)HY(ing)YH( - excep)HY(tions)YH(. Indi)HY(vid)HY(ual)YH( excep)HY(tions)YH( thrown by the seri)HY(al)HY(iza)HY(tion)YH( func)HY(tions)YH( - are described in the follow)HY(ing)YH( sub-sections. - )EP( - - )0 3 79 H(4.4.1)WB 173 Sn()WB 83 Sn( )SM(xml_schema::seri)HY(al)HY(iza)HY(tion)YH()ES()EA()EH( - - ) 11 39 PR(struct serialization: virtual exception -{ - serialization \201\202; - serialization \201const diagnostics&\202; - - const diagnostics& - diagnostics \201\202 const; - - virtual const char* - what \201\202 const throw \201\202; -};)RP( - - )0 P(The )SM(xml_schema::diag)HY(nos)HY(tics)YH()ES( class is described in - )0 65 1 A(Section 3.3.1, ")SM(xml_schema::parsing)ES(")65 0 TN TL()Ec /AF f D(. - The )SM(xml_schema::seri)HY(al)HY(iza)HY(tion)YH()ES( excep)HY(tion)YH( is thrown if - there were seri)HY(al)HY(iza)HY(tion)YH( errors reported during the DOM-XML stage. - If no call)HY(back)YH( inter)HY(face)YH( was provided to the seri)HY(al)HY(iza)HY(tion)YH( func)HY(tion)YH(, - the excep)HY(tion)YH( contains a list of errors and warn)HY(ings)YH( acces)HY(si)HY(ble)YH( using - the )SM(diag)HY(nos)HY(tics)YH()ES( func)HY(tion)YH(. - )EP( - - - )0 3 80 H(4.4.2)WB 174 Sn()WB 84 Sn( )SM(xml_schema::unex)HY(pected)YH(_element)ES()EA()EH( - - )0 P(The )SM(xml_schema::unex)HY(pected)YH(_element)ES( excep)HY(tion)YH( is - described in )0 67 1 A(Section 3.3.3, - ")SM(xml_schema::unex)HY(pected)YH(_element)ES(")67 0 TN TL()Ec /AF f D(. It is thrown - by the seri)HY(al)HY(iza)HY(tion)YH( func)HY(tions)YH( during the Tree-DOM stage if the - root element name of the provided DOM instance does not match with - the name of the element this seri)HY(al)HY(iza)HY(tion)YH( func)HY(tion)YH( is for. - )EP( - - )0 3 81 H(4.4.3)WB 175 Sn()WB 85 Sn( )SM(xml_schema::no_type_info)ES()EA()EH( - - )0 P(The )SM(xml_schema::no_type_info)ES( excep)HY(tion)YH( is - described in )0 71 1 A(Section 3.3.7, - ")SM(xml_schema::no_type_info)ES(")71 0 TN TL()Ec /AF f D(. It is thrown - by the seri)HY(al)HY(iza)HY(tion)YH( func)HY(tions)YH( during the Tree-DOM stage when there - is no type infor)HY(ma)HY(tion)YH( asso)HY(ci)HY(ated)YH( with a dynamic type of an - element. Usually, catch)HY(ing)YH( this excep)HY(tion)YH( means that you haven't - linked the code gener)HY(ated)YH( from the schema defin)HY(ing)YH( the type in - ques)HY(tion)YH( with your appli)HY(ca)HY(tion)YH( or this schema has been compiled - without the )SM(--gener)HY(ate)YH(-poly)HY(mor)HY(phic)YH()ES( option. - )EP( - - )0 2 82 H(4.5)WB 176 Sn()WB 86 Sn( Seri)HY(al)HY(iz)HY(ing)YH( to )SM(std::ostream)ES()EA()EH( - - )0 P(In order to seri)HY(al)HY(ize)YH( to )SM(std::ostream)ES( you will need - an object model, an output stream and, option)HY(ally)YH(, a names)HY(pace)YH( - infomap. For instance:)EP( - - ) 14 61 PR(// Obtain the object model. -// -std::auto_ptr r = ... - -// Prepare namespace mapping and schema location information. -// -xml_schema::namespace_infomap map; - -map["t"].name = "http://www.codesynthesis.com/test"; -map["t"].schema = "test.xsd"; - -// Write it out. -// -name \201std::cout, *r, map\202;)RP( - - )0 P(Note that the output stream is treated as a binary stream. This - becomes impor)HY(tant)YH( when you use a char)HY(ac)HY(ter)YH( encod)HY(ing)YH( that is wider - than 8-bit )SM(char)ES(, for instance UTF-16 or UCS-4. For - example, things will most likely break if you try to seri)HY(al)HY(ize)YH( - to )SM(std::ostringstream)ES( with UTF-16 or UCS-4 as an - encod)HY(ing)YH(. This is due to the special value, - )SM('\2000')ES(, that will most likely occur as part of such - seri)HY(al)HY(iza)HY(tion)YH( and it won't have the special meaning assumed by - )SM(std::ostringstream)ES(. - )EP( - - - )0 2 83 H(4.6)WB 177 Sn()WB 87 Sn( Seri)HY(al)HY(iz)HY(ing)YH( to )SM(xercesc::XMLFor)HY(mat)HY(Tar)HY(get)YH()ES()EA()EH( - - )0 P(Seri)HY(al)HY(iz)HY(ing)YH( to an )SM(xercesc::XMLFor)HY(mat)HY(Tar)HY(get)YH()ES( instance - is similar the )SM(std::ostream)ES( case. For instance: - )EP( - - ) 38 63 PR(using std::auto_ptr; - -// Obtain the object model. -// -auto_ptr r = ... - -// Prepare namespace mapping and schema location information. -// -xml_schema::namespace_infomap map; - -map["t"].name = "http://www.codesynthesis.com/test"; -map["t"].schema = "test.xsd"; - -using namespace xercesc; - -XMLPlatformUtils::Initialize \201\202; - -{ - // Choose a target. - // - auto_ptr ft; - - if \201argc != 2\202 - { - ft = auto_ptr \201new StdOutFormatTarget \201\202\202; - } - else - { - ft = auto_ptr \201 - new LocalFileFormatTarget \201argv[1]\202\202; - })WR( - - // Write it out. - // - name \201*ft, *r, map\202; -} - -XMLPlatformUtils::Terminate \201\202;)RP( - - )0 P(Note that we had to initial)HY(ize)YH( the Xerces-C++ runtime before we - could call this seri)HY(al)HY(iza)HY(tion)YH( func)HY(tion)YH(.)EP( - - )0 2 84 H(4.7)WB 178 Sn()WB 88 Sn( Seri)HY(al)HY(iz)HY(ing)YH( to DOM)EA()EH( - - )0 P(The mapping provides two over)HY(loaded)YH( func)HY(tions)YH( that imple)HY(ment)YH( - seri)HY(al)HY(iza)HY(tion)YH( to a DOM instance. The first creates a DOM instance - for you and the second seri)HY(al)HY(izes)YH( to an exist)HY(ing)YH( DOM instance. - While seri)HY(al)HY(iz)HY(ing)YH( to a new DOM instance is similar to seri)HY(al)HY(iz)HY(ing)YH( - to )SM(std::ostream)ES( or )SM(xercesc::XMLFor)HY(mat)HY(Tar)HY(get)YH()ES(, - seri)HY(al)HY(iz)HY(ing)YH( to an exist)HY(ing)YH( DOM instance requires quite a bit of work - from your side. You will need to set all the custom names)HY(pace)YH( mapping - attributes as well as the )SM(schemaLo)HY(ca)HY(tion)YH()ES( and/or - )SM(noNames)HY(paceSchemaLo)HY(ca)HY(tion)YH()ES( attributes. The follow)HY(ing)YH( - listing should give you an idea about what needs to be done: - )EP( - - ) 24 67 PR(// Obtain the object model. -// -std::auto_ptr r = ... - -using namespace xercesc; - -XMLPlatformUtils::Initialize \201\202; - -{ - // Create a DOM instance. Set custom namespace mapping and schema - // location attributes. - // - DOMDocument& doc = ... - - // Serialize to DOM. - // - name \201doc, *r\202; - - // Serialize the DOM document to XML. - // - ... -} - -XMLPlatformUtils::Terminate \201\202;)RP( - - )0 P(For more infor)HY(ma)HY(tion)YH( on how to create and seri)HY(al)HY(ize)YH( a DOM instance - refer to the Xerces-C++ docu)HY(men)HY(ta)HY(tion)YH(. In addi)HY(tion)YH(, the - )R8 2 A(C++/Tree Mapping - FAQ)EA( shows how to imple)HY(ment)YH( these oper)HY(a)HY(tions)YH( using the XSD - runtime util)HY(i)HY(ties)YH(. - )EP( - - )0 1 85 H(5)WB 179 Sn()WB 89 Sn( Addi)HY(tional)YH( Func)HY(tion)HY(al)HY(ity)YH()EA()EH( - - )0 P(The C++/Tree mapping provides a number of optional features - that can be useful in certain situ)HY(a)HY(tions)YH(. They are described - in the follow)HY(ing)YH( sections.)EP( - - )0 2 86 H(5.1)WB 180 Sn()WB 90 Sn( DOM Asso)HY(ci)HY(a)HY(tion)YH()EA()EH( - - )0 P(Normally, after parsing is complete, the DOM docu)HY(ment)YH( which - was used to extract the data is discarded. However, the parsing - func)HY(tions)YH( can be instructed to preserve the DOM docu)HY(ment)YH( - and create an asso)HY(ci)HY(a)HY(tion)YH( between the DOM nodes and object model - nodes. When there is an asso)HY(ci)HY(a)HY(tion)YH( between the DOM and - object model nodes, you can obtain the corre)HY(spond)HY(ing)YH( DOM element - or attribute node from an object model node as well as perform - the reverse tran)HY(si)HY(tion)YH(: obtain the corre)HY(spond)HY(ing)YH( object model - from a DOM element or attribute node.)EP( - - )0 P(Main)HY(tain)HY(ing)YH( DOM asso)HY(ci)HY(a)HY(tion)YH( is normally useful when the appli)HY(ca)HY(tion)YH( - needs access to XML constructs that are not preserved in the - object model, for example, text in the mixed content model. - Another useful aspect of DOM asso)HY(ci)HY(a)HY(tion)YH( is the ability of the - appli)HY(ca)HY(tion)YH( to navi)HY(gate)YH( the docu)HY(ment)YH( tree using the generic DOM - inter)HY(face)YH( \201for example, with the help of an XPath proces)HY(sor)YH(\202 - and then move back to the stat)HY(i)HY(cally)YH(-typed object model. Note - also that while you can change the under)HY(ly)HY(ing)YH( DOM docu)HY(ment)YH(, - these changes are not reflected in the object model and will - be ignored during seri)HY(al)HY(iza)HY(tion)YH(. If you need to not only access - but also modify some aspects of XML that are not preserved in - the object model, then type customiza)HY(tion)YH( with custom parsing - constructs and seri)HY(al)HY(iza)HY(tion)YH( oper)HY(a)HY(tors)YH( should be used instead.)EP( - - )0 P(To request DOM asso)HY(ci)HY(a)HY(tion)YH( you will need to pass the - )SM(xml_schema::flags::keep_dom)ES( flag to one of the - parsing func)HY(tions)YH( \201see )0 63 1 A(Section 3.2, - "Flags and Prop)HY(er)HY(ties)YH(")63 0 TN TL()Ec /AF f D( for more infor)HY(ma)HY(tion)YH(\202. In this case the - DOM docu)HY(ment)YH( is retained and will be released when the object model - is deleted. Note that since DOM nodes "out-live" the parsing func)HY(tion)YH( - call, you need to initial)HY(ize)YH( the Xerces-C++ runtime before calling - one of the parsing func)HY(tions)YH( with the )SM(keep_dom)ES( flag and - termi)HY(nate)YH( it after the object model is destroyed \201see - )0 62 1 A(Section 3.1, "Initial)HY(iz)HY(ing)YH( the Xerces-C++ Runtime")62 0 TN TL()Ec /AF f D(\202. - The DOM asso)HY(ci)HY(a)HY(tion)YH( is also main)HY(tained)YH( in complete copies of the - object model \201that is, the DOM docu)HY(ment)YH( is cloned and asso)HY(ci)HY(a)HY(tions)YH( - are reestab)HY(lished)YH(\202.)EP( - - )0 P(To obtain the corre)HY(spond)HY(ing)YH( DOM node from an object model node - you will need to call the )SM(_node)ES( acces)HY(sor)YH( func)HY(tion)YH( - which returns a pointer to )SM(DOMNode)ES(. You can then query - this DOM node's type and cast it to either )SM(DOMAttr*)ES( - or )SM(DOMEle)HY(ment)YH(*)ES(. To obtain the corre)HY(spond)HY(ing)YH( object - model node from a DOM node, the DOM user data API is used. The - )SM(xml_schema::dom::tree_node_key)ES( vari)HY(able)YH( contains - the key for object model nodes. The follow)HY(ing)YH( schema and code - frag)HY(ment)YH( show how to navi)HY(gate)YH( from DOM to object model nodes - and in the oppo)HY(site)YH( direc)HY(tion)YH(:)EP( - - ) 7 37 PR( - - - - - -)RP( - - ) 42 68 PR(using namespace xercesc; - -XMLPlatformUtils::Initialize \201\202; - -{ - // Parse XML to object model. - // - std::auto_ptr r = root \201 - "root.xml", - xml_schema::flags::keep_dom | - xml_schema::flags::dont_initialize\202; - - DOMNode* n = root->_node \201\202; - assert \201n->getNodeType \201\202 != DOMNode::ELEMENT_NODE\202; - DOMElement* re = static_cast \201n\202; - - // Get the 'a' element. Note that it is not necessarily the - // first child node of 'root' since there could be whitespace - // nodes before it. - // - DOMElement* ae; - - for \201n = re->getFirstChild \201\202; n != 0; n = n->getNextSibling \201\202\202 - { - if \201n->getNodeType \201\202 == DOMNode::ELEMENT_NODE\202 - { - ae = static_cast \201n\202; - break; - } - } -)WR( - // Get from the 'a' DOM element to xml_schema::string object model - // node. - // - xml_schema::type& t \201 - *reinterpret_cast \201 - ae->getUserData \201xml_schema::dom::tree_node_key\202\202\202; - - xml_schema::string& a \201dynamic_cast \201t\202\202; -} - -XMLPlatformUtils::Terminate \201\202;)RP( - - )0 P(The 'mixed' example which can be found in the XSD distri)HY(bu)HY(tion)YH( - shows how to handle the mixed content using DOM asso)HY(ci)HY(a)HY(tion)YH(.)EP( - - )0 2 87 H(5.2)WB 181 Sn()WB 91 Sn( Binary Seri)HY(al)HY(iza)HY(tion)YH()EA()EH( - - )0 P(Besides reading from and writing to XML, the C++/Tree mapping - also allows you to save the object model to and load it from a - number of prede)HY(fined)YH( as well as custom data repre)HY(sen)HY(ta)HY(tion)YH( - formats. The prede)HY(fined)YH( binary formats are CDR \201Common Data - Repre)HY(sen)HY(ta)HY(tion)YH(\202 and XDR \201eXter)HY(nal)YH( Data Repre)HY(sen)HY(ta)HY(tion)YH(\202. A - custom format can easily be supported by provid)HY(ing)YH( - inser)HY(tion)YH( and extrac)HY(tion)YH( oper)HY(a)HY(tors)YH( for basic types.)EP( - - )0 P(Binary seri)HY(al)HY(iza)HY(tion)YH( saves only the data without any meta - infor)HY(ma)HY(tion)YH( or markup. As a result, saving to and loading - from a binary repre)HY(sen)HY(ta)HY(tion)YH( can be an order of magni)HY(tude)YH( - faster than parsing and seri)HY(al)HY(iz)HY(ing)YH( the same data in XML. - Further)HY(more)YH(, the result)HY(ing)YH( repre)HY(sen)HY(ta)HY(tion)YH( is normally several - times smaller than the equiv)HY(a)HY(lent)YH( XML repre)HY(sen)HY(ta)HY(tion)YH(. These - prop)HY(er)HY(ties)YH( make binary seri)HY(al)HY(iza)HY(tion)YH( ideal for inter)HY(nal)YH( data - exchange and storage. A typical appli)HY(ca)HY(tion)YH( that uses this - facil)HY(ity)YH( stores the data and commu)HY(ni)HY(cates)YH( within the - system using a binary format and reads/writes the data - in XML when commu)HY(ni)HY(cat)HY(ing)YH( with the outside world.)EP( - - )0 P(In order to request the gener)HY(a)HY(tion)YH( of inser)HY(tion)YH( oper)HY(a)HY(tors)YH( and - extrac)HY(tion)YH( construc)HY(tors)YH( for a specific prede)HY(fined)YH( or custom - data repre)HY(sen)HY(ta)HY(tion)YH( stream, you will need to use the - )SM(--gener)HY(ate)YH(-inser)HY(tion)YH()ES( and )SM(--gener)HY(ate)YH(-extrac)HY(tion)YH()ES( - compiler options. See the - )R9 2 A(XSD - Compiler Command Line Manual)EA( for more infor)HY(ma)HY(tion)YH(.)EP( - - )0 P(Once the inser)HY(tion)YH( oper)HY(a)HY(tors)YH( and extrac)HY(tion)YH( construc)HY(tors)YH( are - gener)HY(ated)YH(, you can use the )SM(xml_schema::istream)ES( - and )SM(xml_schema::ostream)ES( wrapper stream templates - to save the object model to and load it from a specific format. - The follow)HY(ing)YH( code frag)HY(ment)YH( shows how to do this using ACE - \201Adap)HY(tive)YH( Commu)HY(ni)HY(ca)HY(tion)YH( Envi)HY(ron)HY(ment)YH(\202 CDR streams as an example:)EP( - - ) 8 37 PR( - - - - - - -)RP( - - ) 21 51 PR(// Parse XML to object model. -// -std::auto_ptr r = root \201"root.xml"\202; - -// Save to a CDR stream. -// -ACE_OutputCDR ace_ocdr; -xml_schema::ostream ocdr \201ace_ocdr\202; - -ocdr << *r; - -// Load from a CDR stream. -// -ACE_InputCDR ace_icdr \201buf, size\202; -xml_schema::istream icdr \201ace_icdr\202; - -std::auto_ptr copy \201new object \201icdr\202\202; - -// Serialize to XML. -// -root \201std::cout, *copy\202;)RP( - - )0 P(The XSD distri)HY(bu)HY(tion)YH( contains a number of exam)HY(ples)YH( that - show how to save the object model to and load it from - CDR, XDR, and a custom format.)EP( - - - - - )0 1 88 H(Appendix)WB 182 Sn()WB 92 Sn( A \236 Default and Fixed Values)EA()EH( - - )0 P(The follow)HY(ing)YH( table summa)HY(rizes)YH( the effect of default and fixed - values \201spec)HY(i)HY(fied)YH( with the )SM(default)ES( and )SM(fixed)ES( - attributes, respec)HY(tively)YH(\202 on attribute and element values. The - )SM(default)ES( and )SM(fixed)ES( attributes are mutu)HY(ally)YH( - exclu)HY(sive)YH(. It is also worth)HY(while)YH( to note that the fixed value seman)HY(tics)YH( - is a super)HY(set)YH( of the default value seman)HY(tics)YH(. - )EP( - - - )1 PT( - - )BR( -)BR( - - -)WB NL -/TE t D NP TU PM 0 eq and{/Pn () D showpage}if end restore -- cgit v1.2.3