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Diffstat (limited to 'nimdoc/testproject/expected/subdir/subdir_b/utils.html')
| -rw-r--r-- | nimdoc/testproject/expected/subdir/subdir_b/utils.html | 13 |
1 files changed, 11 insertions, 2 deletions
diff --git a/nimdoc/testproject/expected/subdir/subdir_b/utils.html b/nimdoc/testproject/expected/subdir/subdir_b/utils.html index ee2618ab3..cfdac5310 100644 --- a/nimdoc/testproject/expected/subdir/subdir_b/utils.html +++ b/nimdoc/testproject/expected/subdir/subdir_b/utils.html @@ -106,6 +106,7 @@ <li><a class="reference" href="#fn2" title="fn2()">fn2()</a></li> <li><a class="reference" href="#fn2%2Cint" title="fn2(x: int)">fn2(x: int)</a></li> <li><a class="reference" href="#fn2%2Cint%2Cfloat" title="fn2(x: int; y: float)">fn2(x: int; y: float)</a></li> +<li><a class="reference" href="#fn2%2Cint%2Cfloat%2Cfloat" title="fn2(x: int; y: float; z: float)">fn2(x: int; y: float; z: float)</a></li> </ul> <ul class="simple nested-toc-section">fn3 @@ -215,7 +216,7 @@ <ol class="simple"><li>Other case value</li> <li>Second case.</li> </ol> -<p>Ref group <a class="reference internal nimdoc" title="proc fn2 (3 overloads)" href="#fn2-procs-all">fn2</a> or specific function like <a class="reference internal nimdoc" title="proc fn2()" href="#fn2">fn2()</a> or <a class="reference internal nimdoc" title="proc fn2(x: int)" href="#fn2,int">fn2( int )</a> or <a class="reference internal nimdoc" title="proc fn2(x: int; y: float)" href="#fn2,int,float">fn2(int, float)</a>.</p> +<p>Ref group <a class="reference internal nimdoc" title="proc fn2 (4 overloads)" href="#fn2-procs-all">fn2</a> or specific function like <a class="reference internal nimdoc" title="proc fn2()" href="#fn2">fn2()</a> or <a class="reference internal nimdoc" title="proc fn2(x: int)" href="#fn2,int">fn2( int )</a> or <a class="reference internal nimdoc" title="proc fn2(x: int; y: float)" href="#fn2,int,float">fn2(int, float)</a>.</p> <p>Ref generics like this: <a class="reference internal nimdoc" title="proc binarySearch[T, K](a: openArray[T]; key: K; cmp: proc (x: T; y: K): int {.closure.}): int" href="#binarySearch,openArray[T],K,proc(T,K)">binarySearch</a> or <a class="reference internal nimdoc" title="proc binarySearch[T, K](a: openArray[T]; key: K; cmp: proc (x: T; y: K): int {.closure.}): int" href="#binarySearch,openArray[T],K,proc(T,K)">binarySearch(openArray[T], K, proc (T, K))</a> or <a class="reference internal nimdoc" title="proc binarySearch[T, K](a: openArray[T]; key: K; @@ -229,7 +230,7 @@ <p>Group ref. with capital letters works: <a class="reference internal nimdoc" title="proc fN11 (2 overloads)" href="#fN11-procs-all">fN11</a> or <a class="reference internal nimdoc" title="proc fN11 (2 overloads)" href="#fN11-procs-all">fn11</a> </p> Ref. <a class="reference internal nimdoc" title="proc `[]`[T](x: G[T]): T" href="#[],G[T]">[]</a> is the same as <a class="reference internal nimdoc" title="proc `[]`[T](x: G[T]): T" href="#[],G[T]">proc `[]`(G[T])</a> because there are no overloads. The full form: <a class="reference internal nimdoc" title="proc `[]`[T](x: G[T]): T" href="#[],G[T]">proc `[]`*[T](x: G[T]): T</a>Ref. <a class="reference internal nimdoc" title="proc `[]=`[T](a: var G[T]; index: int; value: T)" href="#[]=,G[T],int,T">[]=</a> aka <a class="reference internal nimdoc" title="proc `[]=`[T](a: var G[T]; index: int; value: T)" href="#[]=,G[T],int,T">`[]=`(G[T], int, T)</a>.Ref. <a class="reference internal nimdoc" title="proc $ (2 overloads)" href="#$-procs-all">$</a> aka <a class="reference internal nimdoc" title="proc $ (2 overloads)" href="#$-procs-all">proc $</a> or <a class="reference internal nimdoc" title="proc $ (2 overloads)" href="#$-procs-all">proc `$`</a>.Ref. <a class="reference internal nimdoc" title="proc `$`[T](a: ref SomeType): string" href="#$,ref.SomeType">$(a: ref SomeType)</a>.Ref. <a class="reference internal nimdoc" title="iterator fooBar(a: seq[SomeType]): int" href="#fooBar.i,seq[SomeType]">foo_bar</a> aka <a class="reference internal nimdoc" title="iterator fooBar(a: seq[SomeType]): int" href="#fooBar.i,seq[SomeType]">iterator foo_bar_</a>.Ref. <a class="reference internal nimdoc" title="proc fn[T; U, V: SomeFloat]()" href="#fn">fn[T; U,V: SomeFloat]()</a>.Ref. <a class="reference internal nimdoc" title="proc `'big`(a: string): SomeType" href="#'big,string">'big</a> or <a class="reference internal nimdoc" title="proc `'big`(a: string): SomeType" href="#'big,string">func `'big`</a> or <a class="reference internal nimdoc" title="proc `'big`(a: string): SomeType" href="#'big,string">`'big`(string)</a>. <h1><a class="toc-backref" id="pandoc-markdown" href="#pandoc-markdown">Pandoc Markdown</a></h1><p>Now repeat all the auto links of above in Pandoc Markdown Syntax.</p> -<p>Ref group <a class="reference internal nimdoc" title="proc fn2 (3 overloads)" href="#fn2-procs-all">fn2</a> or specific function like <a class="reference internal nimdoc" title="proc fn2()" href="#fn2">fn2()</a> or <a class="reference internal nimdoc" title="proc fn2(x: int)" href="#fn2,int">fn2( int )</a> or <a class="reference internal nimdoc" title="proc fn2(x: int; y: float)" href="#fn2,int,float">fn2(int, float)</a>.</p> +<p>Ref group <a class="reference internal nimdoc" title="proc fn2 (4 overloads)" href="#fn2-procs-all">fn2</a> or specific function like <a class="reference internal nimdoc" title="proc fn2()" href="#fn2">fn2()</a> or <a class="reference internal nimdoc" title="proc fn2(x: int)" href="#fn2,int">fn2( int )</a> or <a class="reference internal nimdoc" title="proc fn2(x: int; y: float)" href="#fn2,int,float">fn2(int, float)</a>.</p> <p>Ref generics like this: <a class="reference internal nimdoc" title="proc binarySearch[T, K](a: openArray[T]; key: K; cmp: proc (x: T; y: K): int {.closure.}): int" href="#binarySearch,openArray[T],K,proc(T,K)">binarySearch</a> or <a class="reference internal nimdoc" title="proc binarySearch[T, K](a: openArray[T]; key: K; cmp: proc (x: T; y: K): int {.closure.}): int" href="#binarySearch,openArray[T],K,proc(T,K)">binarySearch(openArray[T], K, proc (T, K))</a> or <a class="reference internal nimdoc" title="proc binarySearch[T, K](a: openArray[T]; key: K; @@ -394,6 +395,14 @@ Ref. <a class="reference internal nimdoc" title="proc `[]`[T](x: G[T]): T" href= </dd> </div> +<div id="fn2,int,float,float"> + <dt><pre><span class="Keyword">proc</span> <a href="#fn2%2Cint%2Cfloat%2Cfloat"><span class="Identifier">fn2</span></a><span class="Other">(</span><span class="Identifier">x</span><span class="Other">:</span> <span class="Identifier">int</span><span class="Other">;</span> <span class="Identifier">y</span><span class="Other">:</span> <span class="Identifier">float</span><span class="Other">;</span> <span class="Identifier">z</span><span class="Other">:</span> <span class="Identifier">float</span><span class="Other">)</span> {.<span><span class="Other pragmadots">...</span></span><span class="pragmawrap"><span class="Identifier">raises</span><span class="Other">:</span> <span class="Other">[</span><span class="Other">]</span><span class="Other">,</span> <span class="Identifier">tags</span><span class="Other">:</span> <span class="Other">[</span><span class="Other">]</span><span class="Other">,</span> <span class="Identifier">forbids</span><span class="Other">:</span> <span class="Other">[</span><span class="Other">]</span></span>.}</pre></dt> + <dd> + + + + </dd> +</div> </div> <div id="fn3-procs-all"> |