spec.html (8628B)
1 <!DOCTYPE html> 2 <html><head><style type="text/css"> 3 table.code_doc { border-collapse: collapse; border: 0px; } 4 table.code_doc code { white-space: pre; } 5 table.code_doc tr { vertical-align: top; } 6 table.code_doc td:hover { background-color: #3331; } 7 </style></head><body><table class="code_doc"> 8 <tr><td>1</td><td><code>:- use_module(library(error)).</code></td><td rowspan="2"></td></tr> 9 <tr><td>2</td><td><code>:- use_module(library(dcg/basics)).</code></td></tr> 10 <tr><td>3</td><td><code></code></td><td rowspan="2"></td></tr> 11 <tr><td>4</td><td><code>:- op(950, xfx, will_be).</code></td></tr> 12 <tr><td>5</td><td><code></code></td><td rowspan="2"></td></tr> 13 <tr><td>6</td><td><code>%%% Basic definitions</code></td></tr> 14 <tr><td>7</td><td><code></code></td><td rowspan="7"></td></tr> 15 <tr><td>8</td><td><code>% swapped arguments append for use in DCGs</code></td></tr> 16 <tr><td>9</td><td><code>% when called with instanced list as first argument it unifies it's content with DCG.</code></td></tr> 17 <tr><td>10</td><td><code>dcgappend([], L, L) :- !.</code></td></tr> 18 <tr><td>11</td><td><code>dcgappend([H|T], [H|R], L) :-</code></td></tr> 19 <tr><td>12</td><td><code> dcgappend(T, R, L).</code></td></tr> 20 <tr><td>13</td><td><code>%dcgappend(List, L0, L1) :- append(List, L1, L0).</code></td></tr> 21 <tr><td>14</td><td><code></code></td><td rowspan="4"></td></tr> 22 <tr><td>15</td><td><code>% apply check to value when bound</code></td></tr> 23 <tr><td>16</td><td><code>will_be(Value, Goal) :-</code></td></tr> 24 <tr><td>17</td><td><code> freeze(Value, assertion(call(Goal, Value))).</code></td></tr> 25 <tr><td>18</td><td><code></code></td><td rowspan="2"></td></tr> 26 <tr><td>19</td><td><code>byte(Value) :- must_be(between(0, 255), Value).</code></td></tr> 27 <tr><td>20</td><td><code></code></td><td rowspan="2"></td></tr> 28 <tr><td>21</td><td><code>nonnegative_integer(Value) :- must_be(nonneg, Value).</code></td></tr> 29 <tr><td>22</td><td><code></code></td><td rowspan="5"></td></tr> 30 <tr><td>23</td><td><code>sequence_of_bytes([]).</code></td></tr> 31 <tr><td>24</td><td><code>sequence_of_bytes([First|Rest]) :-</code></td></tr> 32 <tr><td>25</td><td><code> First will_be byte,</code></td></tr> 33 <tr><td>26</td><td><code> Rest will_be sequence_of_bytes.</code></td></tr> 34 <tr><td>27</td><td><code></code></td><td rowspan="1"></td></tr> 35 <tr><td>28</td><td><code>netstring_encoding(PayloadBytes) --> </code></td><td rowspan="1">Netstring is a sequence of bytes.</td></tr> 36 <tr><td>29</td><td><code> netstring_prefix_for_payload(PayloadBytes), </code></td><td rowspan="1">It consists of prefix,</td></tr> 37 <tr><td>30</td><td><code> PayloadBytes, </code></td><td rowspan="1">payload,</td></tr> 38 <tr><td>31</td><td><code> `,`. </code></td><td rowspan="5">and terminator. Terminator is single ASCII comma `,`.</td></tr> 39 <tr><td>32</td><td><code>netstring_encoding(netstring(PayloadBytes), Bytes) :-</code></td></tr> 40 <tr><td>33</td><td><code> assertion(ground(PayloadBytes); ground(Bytes)),</code></td></tr> 41 <tr><td>34</td><td><code> Bytes will_be sequence_of_bytes,</code></td></tr> 42 <tr><td>35</td><td><code> phrase(netstring_encoding(PayloadBytes), Bytes).</code></td></tr> 43 <tr><td>36</td><td><code></code></td><td rowspan="1"></td></tr> 44 <tr><td>37</td><td><code></code></td><td rowspan="19">Netstring prefix is the shortest ASCII decimal representation for length of 45 payload in bytes, followed by ASCII colon `:`. 46 That is number starting with non-zero digit unless payload is empty, 47 in which case it's `0`.</td></tr> 48 <tr><td>38</td><td><code></code></td></tr> 49 <tr><td>39</td><td><code></code></td></tr> 50 <tr><td>40</td><td><code></code></td></tr> 51 <tr><td>41</td><td><code>netstring_prefix_for_payload(PayloadBytes, A, B) :-</code></td></tr> 52 <tr><td>42</td><td><code> ( var(PayloadBytes)</code></td></tr> 53 <tr><td>43</td><td><code> -> netstring_prefix_codes(Prefix, A, B),</code></td></tr> 54 <tr><td>44</td><td><code> number_codes(PayloadLength, Prefix),</code></td></tr> 55 <tr><td>45</td><td><code> length(PayloadBytes, PayloadLength)</code></td></tr> 56 <tr><td>46</td><td><code> ; length(PayloadBytes, PayloadLength),</code></td></tr> 57 <tr><td>47</td><td><code> number_codes(PayloadLength, Prefix),</code></td></tr> 58 <tr><td>48</td><td><code> netstring_prefix_codes(Prefix, A, B)</code></td></tr> 59 <tr><td>49</td><td><code> ).</code></td></tr> 60 <tr><td>50</td><td><code>netstring_prefix_codes(`0`) --> `0:`, !.</code></td></tr> 61 <tr><td>51</td><td><code>netstring_prefix_codes([C|Cs]) --></code></td></tr> 62 <tr><td>52</td><td><code> nonzero_digit(C),</code></td></tr> 63 <tr><td>53</td><td><code> !,</code></td></tr> 64 <tr><td>54</td><td><code> digits(Cs),</code></td></tr> 65 <tr><td>55</td><td><code> `:`.</code></td></tr> 66 <tr><td>56</td><td><code></code></td><td rowspan="5"></td></tr> 67 <tr><td>57</td><td><code>nonzero_digit(Code) --></code></td></tr> 68 <tr><td>58</td><td><code> [Code],</code></td></tr> 69 <tr><td>59</td><td><code> { assertion(ground(Code)) },</code></td></tr> 70 <tr><td>60</td><td><code> { member(Code, `123456789`) }.</code></td></tr> 71 <tr><td>61</td><td><code></code></td><td rowspan="6"></td></tr> 72 <tr><td>62</td><td><code>netstring_of(Goal, Bytes) :-</code></td></tr> 73 <tr><td>63</td><td><code> ground(Goal),</code></td></tr> 74 <tr><td>64</td><td><code> !,</code></td></tr> 75 <tr><td>65</td><td><code> call(Goal, PayloadBytes),</code></td></tr> 76 <tr><td>66</td><td><code> netstring_encoding(netstring(PayloadBytes), Bytes).</code></td></tr> 77 <tr><td>67</td><td><code></code></td><td rowspan="6"></td></tr> 78 <tr><td>68</td><td><code>netstring_of(Goal, Bytes) :-</code></td></tr> 79 <tr><td>69</td><td><code> ground(Bytes),</code></td></tr> 80 <tr><td>70</td><td><code> !,</code></td></tr> 81 <tr><td>71</td><td><code> netstring_encoding(netstring(PayloadBytes), Bytes),</code></td></tr> 82 <tr><td>72</td><td><code> call(Goal, PayloadBytes).</code></td></tr> 83 <tr><td>73</td><td><code></code></td><td rowspan="2"></td></tr> 84 <tr><td>74</td><td><code>% Miniroon is a netstring whose payload is concatenation of three parts: header, caveat list and signature.</code></td></tr> 85 <tr><td>75</td><td><code></code></td><td rowspan="3"></td></tr> 86 <tr><td>76</td><td><code>%miniroon_encoding(header_capv0(Identifier, Action), Caveats, Signature, Bytes) :-</code></td></tr> 87 <tr><td>77</td><td><code>% assertion(false). % TODO</code></td></tr> 88 <tr><td>78</td><td><code></code></td><td rowspan="9"></td></tr> 89 <tr><td>79</td><td><code>phrase_length_agg(List, Terminator, CurrentDepth, Length) :-</code></td></tr> 90 <tr><td>80</td><td><code> ( List == Terminator</code></td></tr> 91 <tr><td>81</td><td><code> -> CurrentDepth = Length</code></td></tr> 92 <tr><td>82</td><td><code> ; NextDepth is CurrentDepth + 1,</code></td></tr> 93 <tr><td>83</td><td><code> assertion(compound(List)),</code></td></tr> 94 <tr><td>84</td><td><code> List = [_|NextList],</code></td></tr> 95 <tr><td>85</td><td><code> phrase_length_agg(NextList, Terminator, NextDepth, Length)</code></td></tr> 96 <tr><td>86</td><td><code> ).</code></td></tr> 97 <tr><td>87</td><td><code></code></td><td rowspan="5"></td></tr> 98 <tr><td>88</td><td><code>phrase_length(DCGBody, List, Rest, Length) :-</code></td></tr> 99 <tr><td>89</td><td><code> phrase(DCGBody, List, Terminator),</code></td></tr> 100 <tr><td>90</td><td><code> phrase_length_agg(List, Terminator, 0, Length),</code></td></tr> 101 <tr><td>91</td><td><code> Terminator = Rest.</code></td></tr> 102 <tr><td>92</td><td><code></code></td><td rowspan="7"></td></tr> 103 <tr><td>93</td><td><code>nsdcg(DCGBody, L0, Rest) :-</code></td></tr> 104 <tr><td>94</td><td><code> var(L0),</code></td></tr> 105 <tr><td>95</td><td><code> !,</code></td></tr> 106 <tr><td>96</td><td><code> phrase_length(DCGBody,Payload,[44|Rest],PayloadLength),</code></td></tr> 107 <tr><td>97</td><td><code> number_codes(PayloadLength, PrefixDigits),</code></td></tr> 108 <tr><td>98</td><td><code> netstring_prefix_codes(PrefixDigits, L0, Payload).</code></td></tr> 109 <tr><td>99</td><td><code></code></td><td rowspan="6"></td></tr> 110 <tr><td>100</td><td><code>nsdcg(DCGBody, L0, Rest) :-</code></td></tr> 111 <tr><td>101</td><td><code> assertion(nonvar(L0)),</code></td></tr> 112 <tr><td>102</td><td><code> netstring_prefix_codes(PrefixDigits, L0, Payload),</code></td></tr> 113 <tr><td>103</td><td><code> number_codes(PayloadLength, PrefixDigits),</code></td></tr> 114 <tr><td>104</td><td><code> phrase_length(DCGBody,Payload,[44|Rest],PayloadLength).</code></td></tr> 115 <tr><td>105</td><td><code></code></td><td rowspan="3"></td></tr> 116 <tr><td>106</td><td><code>% :- use_module(library(pldoc/doc_files)).</code></td></tr> 117 <tr><td>107</td><td><code>% doc_save('spec.pl', [format(html), doc_root(.)]).</code></td></tr> 118 </table></body></html>