texVC = new TexVC(); } public static function provideTestCases() { $DELIMITERS1 = [ '(', ')', '[', ']', '\\{', '\\}', '|' ]; $delim2 = '\\backslash\\downarrow\\Downarrow\\langle\\lbrace\\lceil\\lfloor' . '\\llcorner\\lrcorner\\rangle\\rbrace\\rceil\\rfloor\\rightleftharpoons' . '\\twoheadleftarrow\\twoheadrightarrow\\ulcorner\\uparrow\\Uparrow' . '\\updownarrow\\Updownarrow\\urcorner\\Vert\\vert\\lbrack\\rbrack'; $DELIMITERS2 = array_map( static function ( $f ) { return '\\' . $f; }, explode( '\\', $delim2 ) ); array_shift( $DELIMITERS2 ); $delim3 = '\\darr\\dArr\\Darr\\lang\\rang\\uarr\\uArr\\Uarr'; $DELIMITERS3 = array_map( static function ( $f ) { return '\\' . $f; }, explode( '\\', $delim3 ) ); array_shift( $DELIMITERS3 ); return [ 'Box functions' => [ [ "input" => "\\text {-0-9a-zA-Z+*,=():/;?.!'` \u{0080}-\u{00FF}} " . "\\mbox {-0-9a-zA-Z+*,=():/;?.!'` \u{0080}-\u{00FF}} " . "\\hbox {-0-9a-zA-Z+*,=():/;?.!'` \u{0080}-\u{00FF}} " . "\\vbox {-0-9a-zA-Z+*,=():/;?.!'` \u{0080}-\u{00FF}} ", "output" => "{\\text{-0-9a-zA-Z+*,=():/;?.!'` \u{0080}-\u{00FF}}}" . "{\\mbox{-0-9a-zA-Z+*,=():/;?.!'` \u{0080}-\u{00FF}}}" . "{\\hbox{-0-9a-zA-Z+*,=():/;?.!'` \u{0080}-\u{00FF}}}" . "{\\vbox{-0-9a-zA-Z+*,=():/;?.!'` \u{0080}-\u{00FF}}}" ] ], 'Box functions (2)' => [ [ 'input' => '{\\text{ABC}}{\\mbox{ABC}}{\\hbox{ABC}}{\\vbox{ABC}}', 'skipOcaml' => true /* extra braces in ocaml version */ ] ], 'LaTeX functions' => [ [ 'input' => '\\arccos \\arcsin \\arctan \\arg \\cosh \\cos \\cot \\coth ' . '\\csc \\deg \\det \\dim \\exp \\gcd \\hom \\inf \\ker \\lg ' . '\\lim \\liminf \\limsup \\ln \\log \\max \\min \\Pr \\sec ' . '\\sin \\sinh \\sup \\tan \\tanh ' ] ], 'MediaWiki functions' => [ [ 'input' => '\\arccot \\arcsec \\arccsc \\sgn \\sen ', 'output' => '\\operatorname {arccot} \\operatorname {arcsec} ' . '\\operatorname {arccsc} \\operatorname {sgn} ' . '\\operatorname {sen} ' ] ], 'MediaWiki functions args' => [ [ 'input' => '\\arccot(x)\\sen(x)\\sen{x}', 'output' => '\\operatorname {arccot} (x)\\operatorname {sen} (x)\\operatorname {sen} {x}' ] ], 'Literals (1)' => [ [ 'input' => '\\aleph \\alpha \\amalg \\And \\angle \\approx ' . '\\approxeq \\ast \\asymp \\backepsilon \\backprime ' . '\\backsim \\backsimeq \\barwedge \\Bbbk \\because \\beta ' . '\\beth \\between \\bigcap \\bigcirc \\bigcup \\bigodot ' . '\\bigoplus \\bigotimes \\bigsqcup \\bigstar ' . '\\bigtriangledown \\bigtriangleup \\biguplus \\bigvee ' . '\\bigwedge \\blacklozenge \\blacksquare \\blacktriangle ' . '\\blacktriangledown \\blacktriangleleft \\blacktriangleright ' . '\\bot \\bowtie \\Box \\boxdot \\boxminus \\boxplus ' . '\\boxtimes \\bullet \\bumpeq \\Bumpeq \\cap \\Cap \\cdot ' . '\\cdots \\centerdot \\checkmark \\chi \\circ \\circeq ' . '\\circlearrowleft \\circlearrowright \\circledast ' . '\\circledcirc \\circleddash \\circledS \\clubsuit \\colon ' . '\\complement \\cong \\coprod \\cup \\Cup ' . '\\curlyeqprec \\curlyeqsucc \\curlyvee \\curlywedge ' . '\\curvearrowleft \\curvearrowright \\dagger \\daleth ' . '\\dashv \\ddagger \\ddots \\delta \\Delta ' . '\\diagdown \\diagup \\diamond \\Diamond \\diamondsuit ' . '\\digamma \\displaystyle \\div \\divideontimes \\doteq ' . '\\doteqdot \\dotplus \\dots \\dotsb \\dotsc \\dotsi \\dotsm ' . '\\dotso \\doublebarwedge \\downdownarrows \\downharpoonleft ' . '\\downharpoonright \\ell \\emptyset \\epsilon \\eqcirc ' . '\\eqsim \\eqslantgtr \\eqslantless \\equiv \\eta \\eth ' . '\\exists \\fallingdotseq \\Finv \\flat \\forall \\frown ' . '\\Game \\gamma \\Gamma \\geq \\geqq \\geqslant \\gets \\gg ' . '\\ggg \\gimel \\gnapprox \\gneq \\gneqq \\gnsim \\gtrapprox ' . '\\gtrdot \\gtreqless \\gtreqqless \\gtrless \\gtrsim ' . '\\gvertneqq \\hbar \\heartsuit \\hookleftarrow ' . '\\hookrightarrow \\hslash \\iff \\iiiint \\iiint \\iint ' . '\\Im \\imath \\implies \\in \\infty \\injlim \\int ' . '\\intercal \\iota \\jmath \\kappa \\lambda \\Lambda \\land ' . '\\ldots \\leftarrow \\Leftarrow \\leftarrowtail ' . '\\leftharpoondown \\leftharpoonup \\leftleftarrows ' . '\\leftrightarrow \\Leftrightarrow \\leftrightarrows ' . '\\leftrightharpoons \\leftrightsquigarrow \\leftthreetimes ' . '\\leq \\leqq \\leqslant \\lessapprox \\lessdot ' . '\\lesseqgtr \\lesseqqgtr \\lessgtr \\lesssim \\limits \\ll ' . '\\Lleftarrow \\lll \\lnapprox \\lneq \\lneqq \\lnot \\lnsim ' . '\\longleftarrow \\Longleftarrow \\longleftrightarrow ' . '\\Longleftrightarrow \\longmapsto \\longrightarrow ' . '\\Longrightarrow \\looparrowleft \\looparrowright \\lor ' . '\\lozenge \\Lsh \\ltimes \\lVert \\lvertneqq \\mapsto ' . '\\measuredangle \\mho \\mid \\mod \\models \\mp \\mu ' . '\\multimap \\nabla \\natural \\ncong \\nearrow \\neg \\neq ' . '\\nexists \\ngeq \\ngeqq \\ngeqslant \\ngtr \\ni ' . '\\nleftarrow \\nLeftarrow \\nleftrightarrow ' . '\\nLeftrightarrow \\nleq \\nleqq \\nleqslant \\nless \\nmid ' . '\\nolimits \\not \\notin \\nparallel \\nprec \\npreceq ' . '\\nrightarrow \\nRightarrow \\nshortmid \\nshortparallel ' . '\\nsim \\nsubseteq \\nsubseteqq \\nsucc \\nsucceq ' . '\\nsupseteq \\nsupseteqq \\ntriangleleft \\ntrianglelefteq ' . '\\ntriangleright \\ntrianglerighteq \\nu \\nvdash \\nVdash ' . '\\nvDash \\nVDash \\nwarrow \\odot \\oint \\omega \\Omega ' . '\\ominus \\oplus \\oslash \\otimes ' . '\\P \\parallel \\partial ' . '\\perp \\phi \\Phi \\pi \\Pi \\pitchfork \\pm \\prec ' . '\\precapprox \\preccurlyeq \\preceq \\precnapprox ' . '\\precneqq \\precnsim \\precsim \\prime \\prod \\projlim ' . '\\propto \\psi \\Psi \\qquad \\quad \\Re \\rho \\rightarrow ' . '\\Rightarrow \\rightarrowtail \\rightharpoondown ' . '\\rightharpoonup \\rightleftarrows \\rightrightarrows ' . '\\rightsquigarrow \\rightthreetimes \\risingdotseq ' . '\\Rrightarrow \\Rsh \\rtimes \\rVert \\S ' . '\\scriptscriptstyle \\scriptstyle \\searrow \\setminus ' . '\\sharp \\shortmid \\shortparallel \\sigma \\Sigma \\sim ' . '\\simeq \\smallfrown \\smallsetminus \\smallsmile \\smile ' . '\\spadesuit \\sphericalangle \\sqcap \\sqcup \\sqsubset ' . '\\sqsubseteq \\sqsupset \\sqsupseteq \\square \\star ' . '\\subset \\Subset \\subseteq \\subseteqq \\subsetneq ' . '\\subsetneqq \\succ \\succapprox \\succcurlyeq \\succeq ' . '\\succnapprox \\succneqq \\succnsim \\succsim \\sum ' . '\\supset \\Supset \\supseteq \\supseteqq \\supsetneq ' . '\\supsetneqq \\surd \\swarrow \\tau \\textstyle ' . '\\therefore \\theta \\Theta ' . '\\thickapprox \\thicksim \\times \\to \\top \\triangle ' . '\\triangledown \\triangleleft \\trianglelefteq \\triangleq ' . '\\triangleright \\trianglerighteq ' . '\\upharpoonleft \\upharpoonright \\uplus \\upsilon ' . '\\Upsilon \\upuparrows \\varDelta \\varepsilon \\varGamma ' . '\\varinjlim \\varkappa \\varLambda \\varliminf \\varlimsup ' . '\\varnothing \\varOmega \\varphi \\varPhi \\varpi \\varPhi ' . '\\varprojlim \\varpropto \\varrho \\varsigma \\varSigma ' . '\\varsubsetneq \\varsubsetneqq \\varsupsetneq ' . '\\varsupsetneqq \\vartheta \\varTheta \\vartriangle ' . '\\vartriangleleft \\vartriangleright \\varUpsilon \\varXi ' . '\\vdash \\Vdash \\vDash \\vdots \\vee ' . '\\veebar \\vline \\Vvdash \\wedge ' . '\\wp \\wr \\xi \\Xi \\zeta ' ] ], 'Literals (2)' => [ [ 'input' => '\\AA\\Coppa\\coppa\\Digamma\\euro\\geneuro\\geneuronarrow' . '\\geneurowide\\Koppa\\koppa\\officialeuro\\Sampi\\sampi' . '\\Stigma\\stigma\\textvisiblespace\\varstigma', 'output' => '\\mbox{\\AA} \\mbox{\\Coppa} \\mbox{\\coppa} ' . '\\mbox{\\Digamma} \\mbox{\\euro} \\mbox{\\geneuro} ' . '\\mbox{\\geneuronarrow} \\mbox{\\geneurowide} ' . '\\mbox{\\Koppa} \\mbox{\\koppa} \\mbox{\\officialeuro} ' . '\\mbox{\\Sampi} \\mbox{\\sampi} \\mbox{\\Stigma} ' . '\\mbox{\\stigma} \\mbox{\\textvisiblespace} ' . '\\mbox{\\varstigma} ' ] ], 'Literals (2\')' => [ [ /* We can parse what we emit (but the ocaml version can't) */ 'input' => '\\mbox{\\AA} \\mbox{\\Coppa} \\mbox{\\coppa} ' . '\\mbox{\\Digamma} \\mbox{\\euro} \\mbox{\\geneuro} ' . '\\mbox{\\geneuronarrow} \\mbox{\\geneurowide} ' . '\\mbox{\\Koppa} \\mbox{\\koppa} \\mbox{\\officialeuro} ' . '\\mbox{\\Sampi} \\mbox{\\sampi} \\mbox{\\Stigma} ' . '\\mbox{\\stigma} \\mbox{\\textvisiblespace} ' . '\\mbox{\\varstigma} ', 'skipOcaml' => true ] ], 'Literals (2) MJ' => [ [ 'usemathrm' => true, 'input' => '\\AA\\Coppa\\coppa\\Digamma\\euro\\geneuro\\geneuronarrow' . '\\geneurowide\\Koppa\\koppa\\officialeuro\\Sampi\\sampi' . '\\Stigma\\stigma\\textvisiblespace\\varstigma', 'output' => '\\mathrm {\\AA} \\mathrm {\\Coppa} \\mathrm {\\coppa} ' . '\\mathrm {\\Digamma} \\mathrm {\\euro} \\mathrm {\\geneuro} ' . '\\mathrm {\\geneuronarrow} \\mathrm {\\geneurowide} ' . '\\mathrm {\\Koppa} \\mathrm {\\koppa} \\mathrm {\\officialeuro} ' . '\\mathrm {\\Sampi} \\mathrm {\\sampi} \\mathrm {\\Stigma} ' . '\\mathrm {\\stigma} \\mathrm {\\textvisiblespace} ' . '\\mathrm {\\varstigma} ' ] ], 'Literals (2\') MJ' => [ [ 'usemathrm' => true, /* We can parse what we emit (but the ocaml version can't) */ 'input' => '\\mathrm {\\AA} \\mathrm {\\Coppa} \\mathrm {\\coppa} ' . '\\mathrm {\\Digamma} \\mathrm {\\euro} \\mathrm {\\geneuro} ' . '\\mathrm {\\geneuronarrow} \\mathrm {\\geneurowide} ' . '\\mathrm {\\Koppa} \\mathrm {\\koppa} \\mathrm {\\officialeuro} ' . '\\mathrm {\\Sampi} \\mathrm {\\sampi} \\mathrm {\\Stigma} ' . '\\mathrm {\\stigma} \\mathrm {\\textvisiblespace} ' . '\\mathrm {\\varstigma} ', 'skipOcaml' => true ] ], 'Literals (3)' => [ [ 'oldtexvc' => true, 'input' => '\\C\\H\\N\\Q\\R\\Z\\alef\\alefsym\\Alpha\\and\\ang\\Beta' . '\\bull\\Chi\\clubs\\cnums\\Complex\\Dagger\\diamonds\\Doteq' . '\\doublecap\\doublecup\\empty\\Epsilon\\Eta\\exist\\ge' . '\\gggtr\\hArr\\harr\\Harr\\hearts\\image\\infin\\Iota\\isin' . '\\Kappa\\larr\\Larr\\lArr\\le\\lrarr\\Lrarr\\lrArr\\Mu' . '\\natnums\\ne\\Nu\\O\\omicron\\Omicron\\or\\part\\plusmn' . '\\rarr\\Rarr\\rArr\\real\\reals\\Reals\\restriction\\Rho' . '\\sdot\\sect\\spades\\sub\\sube\\supe\\Tau\\thetasym' . '\\varcoppa\\weierp\\Zeta', 'output' => '\\mathbb {C} \\mathbb {H} \\mathbb {N} \\mathbb {Q} ' . '\\mathbb {R} \\mathbb {Z} \\aleph \\aleph \\mathrm {A} ' . '\\land \\angle \\mathrm {B} \\bullet \\mathrm {X} ' . '\\clubsuit \\mathbb {C} \\mathbb {C} \\ddagger ' . '\\diamondsuit \\doteqdot \\Cap \\Cup \\emptyset ' . '\\mathrm {E} \\mathrm {H} \\exists \\geq \\ggg ' . '\\Leftrightarrow \\leftrightarrow \\Leftrightarrow ' . '\\heartsuit \\Im \\infty \\mathrm {I} \\in \\mathrm {K} ' . '\\leftarrow \\Leftarrow \\Leftarrow \\leq ' . '\\leftrightarrow \\Leftrightarrow \\Leftrightarrow ' . '\\mathrm {M} \\mathbb {N} \\neq \\mathrm {N} \\emptyset ' . 'oO\\lor \\partial \\pm ' . '\\rightarrow \\Rightarrow \\Rightarrow \\Re \\mathbb {R} ' . '\\mathbb {R} \\upharpoonright \\mathrm {P} \\cdot ' . '\\S \\spadesuit \\subset \\subseteq \\supseteq ' . '\\mathrm {T} \\vartheta \\mbox{\\coppa} \\wp \\mathrm {Z} ' ] ], 'Big' => [ self::bigs( $DELIMITERS1, $DELIMITERS2 ), ], 'Delimiters (1)' => [ [ 'input' => implode( '', $DELIMITERS1 ) . implode( ' ', $DELIMITERS2 ) . ' ' ], ], 'Delimiters (2)' => [ [ 'input' => '\\darr\\dArr\\Darr\\lang\\rang\\uarr\\uArr\\Uarr', 'output' => '\\downarrow \\Downarrow \\Downarrow \\langle \\rangle ' . '\\uparrow \\Uparrow \\Uparrow ' ] ], 'Delimiters (3)' => [ [ 'input' => '\\left' . implode( '\\left', $DELIMITERS1 ) . '\\right' . implode( '\\right', array_reverse( $DELIMITERS1 ) ) ] ], 'Delimiters (4)' => [ [ 'input' => '\\left' . implode( ' \\left', $DELIMITERS2 ) . ' \\right' . implode( ' \\right', array_reverse( $DELIMITERS2 ) ) . ' ' ] ], 'Delimiters (5)' => [ [ 'input' => '\\left\\darr \\left\\dArr \\left\\Darr \\left\\lang ' . '\\right\\rang \\right\\uarr \\right\\uArr \\right\\Uarr ', 'output' => '\\left\\downarrow \\left\\Downarrow \\left\\Downarrow ' . '\\left\\langle \\right\\rangle ' . '\\right\\uparrow \\right\\Uparrow \\right\\Uparrow ' ] ], 'FUN_AR1' => [ [ 'input' => '\\acute{A}\\bar{A}\\bcancel{A}\\bmod{A}\\boldsymbol{A}' . '\\breve{A}\\cancel{A}\\check{A}\\ddot{A}\\dot{A}\\emph{A}' . '\\grave{A}\\hat{A}\\hphantom{A}\\mathbb{A}\\mathbf{A}' . '\\mathcal{A}\\mathclose{A}\\mathfrak{A}\\mathit{A}' . '\\mathop{A}\\mathopen{A}\\mathord{A}\\mathpunct{A}' . '\\mathrm{A}\\mathsf{A}\\mathtt{A}' . '\\operatorname{A}\\overleftarrow{A}\\overleftrightarrow{A}' . '\\overline{A}\\overrightarrow{A}\\phantom{A}\\pmod{A}\\sqrt{A}' . '\\textbf{A}\\textit{A}\\textrm{A}\\textsf{A}\\texttt{A}' . '\\tilde{A}\\underline{A}\\vec{A}\\vphantom{A}\\widehat{A}' . '\\widetilde{A}\\xcancel{A}', 'output' => '{\\acute {A}}{\\bar {A}}{\\bcancel {A}}{\\bmod {A}}' . '{\\boldsymbol {A}}{\\breve {A}}{\\cancel {A}}{\\check {A}}' . '{\\ddot {A}}{\\dot {A}}{\\emph {A}}{\\grave {A}}{\\hat {A}}' . '{\\hphantom {A}}\\mathbb {A} \\mathbf {A} {\\mathcal {A}}' . '{\\mathclose {A}}{\\mathfrak {A}}{\\mathit {A}}' . '\\mathop {A} {\\mathopen {A}}{\\mathord {A}}' . '{\\mathpunct {A}}\\mathrm {A} {\\mathsf {A}}' . '{\\mathtt {A}}\\operatorname {A} {\\overleftarrow {A}}' . '{\\overleftrightarrow {A}}{\\overline {A}}' . '{\\overrightarrow {A}}{\\phantom {A}}{\\pmod {A}}{\\sqrt {A}}' . '{\\textbf {A}}{\\textit {A}}{\\textrm {A}}{\\textsf {A}}' . '{\\texttt {A}}{\\tilde {A}}{\\underline {A}}{\\vec {A}}' . '{\\vphantom {A}}{\\widehat {A}}{\\widetilde {A}}{\\xcancel {A}}', 'skipOcaml' => 'double spacing and extra braces', ] ], 'FUN_AR1NB (1)' => [ [ 'input' => '\\operatorname {sin} ', 'skipOcaml' => 'missing space' ] ], 'FUN_AR1NB (2)' => [ [ 'input' => '\\mathbb {A} \\mathbf {B} \\mathrm {C} ', 'skipOcaml' => 'extra braces' ] ], 'FUN_AR1NB (3)' => [ [ 'input' => '\\overbrace {A} _{b}^{c}\\underbrace {C} _{d}^{e}', 'skipOcaml' => 'ocaml bug' ] ], 'FUN_AR1NB (4)' => [ [ 'input' => '\\xleftarrow{A}\\xrightarrow{A}', 'output' => '\\xleftarrow {A} \\xrightarrow {A} ' ] ], 'FUN_AR1NB (5)' => [ [ 'input' => '\\mathrel{A}\\mathbin{A}', 'output' => '\\mathrel {A} \\mathbin {A} ' ] ], 'FUN_AR1OPT' => [ [ 'input' => '\\sqrt{2}\\sqrt[3]{2}' . '\\xleftarrow{above}\\xleftarrow[below]{above}' . '\\xrightarrow{above}\\xrightarrow[below]{above}', 'output' => '{\\sqrt {2}}{\\sqrt[{3}]{2}}' . '\\xleftarrow {above} {\\xleftarrow[{below}]{above}}' . '\\xrightarrow {above} {\\xrightarrow[{below}]{above}}', 'skipOcaml' => 'spacing' ] ], 'FUN_AR2' => [ [ 'input' => '\\binom{A}{B}\\cancelto{A}{B}\\cfrac{A}{B}\\dbinom{A}{B}' . '\\dfrac{A}{B}\\frac{A}{B}\\overset{A}{B}\\stackrel{A}{B}' . '\\tbinom{A}{B}\\tfrac{A}{B}\\underset{A}{B}', 'output' => '{\\binom {A}{B}}{\\cancelto {A}{B}}{\\cfrac {A}{B}}' . '{\\dbinom {A}{B}}{\\dfrac {A}{B}}{\\frac {A}{B}}' . '{\\overset {A}{B}}{\\stackrel {A}{B}}{\\tbinom {A}{B}}' . '{\\tfrac {A}{B}}{\\underset {A}{B}}', 'skipOcaml' => 'double spacing' ] ], 'FUN_AR2nb' => [ [ 'input' => '\\sideset{_\\dagger^*}{_\\dagger^*}\\prod', 'output' => '\\sideset {_{\\dagger }^{*}}{_{\\dagger }^{*}}\\prod ' ] ], 'FUN_INFIX (1)' => [ [ 'input' => '\\left({a\\atop 1}{b\\atop m}{c\\atop n}\\right)', 'output' => '\\left({a \\atop 1}{b \\atop m}{c \\atop n}\\right)' ] ], 'FUN_INFIX (2)' => [ [ 'input' => '{1\\,0\\choose0\\,1}', 'output' => '{1\\,0 \\choose 0\\,1}' ] ], 'FUN_INFIX (3)' => [ [ 'input' => '{a\\over b}', 'output' => '{a \\over b}' ] ], 'FUN_INFIX (4)' => [ [ 'input' => 'a\\over b', 'output' => '{a \\over b}' ] ], 'DECLh' => [ [ 'input' => '{abc \\rm def \\it ghi \\cal jkl \\bf mno}', 'output' => '{abc{\\rm {def{\\it {ghi{\\cal {jkl{\\bf {mno}}}}}}}}}' ] ], 'litsq_zq' => [ [ 'input' => ']^2', 'output' => ']^{2}' ] ], 'Matrices' => [ self::matrices(), ], 'Matrices (2)' => [ [ 'input' => '{\\begin{array}{|c|}\\hline {\\!n\\!}\\\\\\hline \\end{array}}' ] ], 'Matrices (3)' => [ [ 'input' => '\\begin{alignedat} { 3 } a & b & c \\end{alignedat}', 'output' => '{\\begin{alignedat}{3}a&b&c\\end{alignedat}}' ] ], 'Color (1)' => [ [ 'input' => '\\definecolor {mycolor}{rgb}{0.1,.2,0.}\\color {mycolor}' ] ], 'Color (2)' => [ [ 'input' => '\\color {blue}\\color [named]{blue}\\color [gray]{0.5}' . '\\color [rgb]{0,1,0}\\color [cmyk]{1,0,0,0}' ] ], 'Color (3)' => [ [ 'input' => '\\pagecolor {blue}\\pagecolor [named]{blue}' . '\\pagecolor [gray]{0.5}\\pagecolor [rgb]{0,1,0}' . '\\pagecolor [cmyk]{1,0,0,0}' ] ], 'Color (4)' => [ [ 'input' => '\\definecolor{mycolor}{rgb}{0.1,.2,0.}\\color[CMYK]{0,1,0,1}', 'output' => '\\definecolor {mycolor}{rgb}{0.1,.2,0.}\\color [cmyk]{0,1,0,1}' ] ], 'Color (5)' => [ [ 'input' => '\\definecolor{mycolor}{RGB}{255,102,51}' . '\\pagecolor [RGB]{51,102,255}', 'output' => '\\definecolor {mycolor}{rgb}{1,0.4,0.2}' . '\\pagecolor [rgb]{0.2,0.4,1}' ] ] ]; } private static function bigs( $DELIMITERS1, $DELIMITERS2 ) { $bigs = explode( '\\', '\\big\\Big\\bigg\\Bigg\\biggl\\Biggl\\biggr\\Biggr' . '\\bigl\\Bigl\\bigr\\Bigr' ); array_shift( $bigs ); $BIGS = $bigs; $DELIMITERS = array_merge( $DELIMITERS1, $DELIMITERS2, [ '\\darr', '\\uarr' ] ); $input = implode( '', array_map( static function ( $b ) use ( $DELIMITERS ) { return implode( '', array_map( static function ( $d ) use ( $DELIMITERS, $b ) { return '\\' . $b . $d; }, $DELIMITERS ) ); }, $BIGS ) ); $output = implode( '', array_map( static function ( $b ) use ( $DELIMITERS ) { return implode( '', array_map( static function ( $d ) use ( $DELIMITERS, $b ) { if ( $d === '\\darr' ) { $d = '\\downarrow'; } if ( $d === '\\uarr' ) { $d = '\\uparrow'; } if ( substr( $d, 0, 1 ) === '\\' && strlen( $d ) > 2 ) { $d = $d . ' '; } return '{\\' . $b . ' ' . $d . '}'; }, $DELIMITERS ) ); }, $BIGS ) ); return [ 'input' => $input, 'output' => $output ]; } private static function argi( $env ) { switch ( $env ) { case 'array': return '{|c||c|}'; case 'alignedat': case 'alignat': return '{3}'; default: return ''; } } private static function matrices() { $ENV = [ 'matrix', 'pmatrix', 'bmatrix', 'Bmatrix', 'vmatrix', 'Vmatrix', 'array', 'align', 'alignat', 'smallmatrix', 'cases' ]; $input = implode( '', array_map( static function ( $env ) { return '\\begin{' . $env . '}' . AllTest::argi( $env ) . ' a & b \\\\\\hline c & d \\end{' . $env . '}'; }, $ENV ) ); $output = implode( '', array_map( static function ( $env ) { if ( $env === 'align' ) { $env = 'aligned'; } if ( $env === 'alignat' ) { $env = 'alignedat'; } return '{\\begin{' . $env . '}' . AllTest::argi( $env ) . 'a&b\\\\\\hline c&d\\end{' . $env . '}}'; }, $ENV ) ); return [ 'input' => $input, 'output' => $output ]; } /** * @dataProvider provideTestCases */ public function testRunCases( $tc ) { $tc['output'] = $tc['output'] ?? $tc['input']; if ( !array_key_exists( 'skipJs', $tc ) || !$tc['skipJs'] ) { $message = 'output should be correct'; $result = $this->texVC->check( $tc['input'], [ 'debug' => true, 'usemathrm' => $tc['usemathrm'] ?? false, 'oldtexvc' => $tc['oldtexvc'] ?? false ] ); $this->assertEquals( '+', $result['status'], $message ); $this->assertEquals( $tc['output'], $result['output'], $message ); } if ( !array_key_exists( 'skipReparse', $tc ) || !$tc['skipReparse'] ) { // verify that the output doesn't change if we feed it // through again. $message = 'should parse its own output'; $result1 = $this->texVC->check( $tc['output'], [ 'debug' => true ] ); $result2 = $this->texVC->check( $result1['output'], [ 'debug' => true ] ); $this->assertEquals( '+', $result2['status'], $message ); $this->assertEquals( $result2['output'], $result1['output'], $message ); } } }