// Test interactions with styling and normal layout. // Hint: They are bad ... --- math-nested-normal-layout --- // Test images and font fallback. #let monkey = move(dy: 0.2em, image("/assets/images/monkey.svg", height: 1em)) $ sum_(i=#emoji.apple)^#emoji.apple.red i + monkey/2 $ --- math-table --- // Test tables. $ x := #table(columns: 2)[x][y]/mat(1, 2, 3) = #table[A][B][C] $ --- math-equation-auto-wrapping --- // Test non-equation math directly in content. #math.attach($a$, t: [b]) --- math-font-switch --- // Test font switch. // Warning: 29-40 unknown font family: noto sans #let here = text.with(font: "Noto Sans") $#here[f] := #here[Hi there]$. --- math-box-without-baseline --- // Test boxes without a baseline act as if the baseline is at the base #{ box(stroke: 0.2pt, $a #box(stroke: 0.2pt, $a$)$) h(12pt) box(stroke: 0.2pt, $a #box(stroke: 0.2pt, $g$)$) h(12pt) box(stroke: 0.2pt, $g #box(stroke: 0.2pt, $g$)$) } --- math-box-with-baseline --- // Test boxes with a baseline are respected #box(stroke: 0.2pt, $a #box(baseline:0.5em, stroke: 0.2pt, $a$)$) --- math-at-par-start --- // Test that equation at start of paragraph works fine. $x$ is a variable. --- math-at-par-end --- // Test that equation at end of paragraph works fine. One number is $1$ --- math-at-line-start --- // Test math at the natural end of a line. #h(60pt) Number $1$ exists. --- math-at-line-end --- // Test math at the natural end of a line. #h(50pt) Number $1$ exists. --- math-consecutive --- // Test immediately consecutive equations. $x$$y$ --- issue-2821-missing-fields --- // Issue #2821: Setting a figure's supplement to none removes the field #show figure.caption: it => { assert(it.has("supplement")) assert(it.supplement == none) } #figure([], caption: [], supplement: none) --- math-symbol-show-rule --- // Test using rules for symbols #show sym.tack: it => $#h(1em) it #h(1em)$ $ a tack b $ --- issue-math-realize-show --- // Test that content in math can be realized without breaking // nested equations. #let my = $pi$ #let f1 = box(baseline: 10pt, [f]) #let f2 = context f1 #show math.vec: [nope] $ pi a $ $ my a $ $ 1 + sqrt(x/2) + sqrt(#hide($x/2$)) $ $ a x #link("url", $+ b$) $ $ f f1 f2 $ $ vec(1,2) * 2 $ --- issue-math-realize-hide --- $ x^2 #hide[$(>= phi.alt) union y^2 0$] z^2 $ Hello #hide[there $x$] and #hide[$ f(x) := x^2 $] --- issue-math-realize-scripting --- // Test equations can embed equation pieces built by functions #let foo(v1, v2) = { // Return an equation piece that would've been rendered in // inline style if the piece is not embedded $v1 v2^2$ } #let bar(v1, v2) = { // Return an equation piece that would've been rendered in // block style if the piece is not embedded $ v1 v2^2 $ } #let baz(..sink) = { // Return an equation piece built by joining arrays sink.pos().map(x => $hat(#x)$).join(sym.and) } Inline $2 foo(alpha, (M+foo(a, b)))$. Inline $2 bar(alpha, (M+foo(a, b)))$. Inline $2 baz(x,y,baz(u, v))$. $ 2 foo(alpha, (M+foo(a, b))) $ $ 2 bar(alpha, (M+foo(a, b))) $ $ 2 baz(x,y,baz(u, v)) $