1 | #!/usr/bin/env python2
|
2 | """
|
3 | j8.py: J8 Notation, a superset of JSON
|
4 |
|
5 | TODO:
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6 |
|
7 | - Many more tests
|
8 | - Run JSONTestSuite
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9 |
|
10 | Later:
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11 |
|
12 | - PrettyPrinter uses hnode.asdl?
|
13 | - color
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14 | - line wrapping -- do this later
|
15 | - would like CONTRIBUTORS here
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16 |
|
17 | - Unify with ASDL pretty printing - NIL8
|
18 | - {} [] are identical
|
19 | - () is for statically typed ASDL data
|
20 | (command.Simple blame_tok:(...) words:[ ])
|
21 | although we are also using [] for typed ASDL arrays, not just JSON
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22 | - object IDs
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23 | - @ x123 can create an ID
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24 | - ! x123 can reference an ID
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25 | - <> can be for non-J8 data types? For the = operator
|
26 | - 'hi \(name)' interpolation is useful for code
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27 |
|
28 | - Common between JSON8 and NIL8 - for writing by hand
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29 | - comments - # line or // line (JSON5 uses // line, following JS)
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30 | - unquoted identifier names - NIL8 could be more relaxed for (+ 1 (* 3 4))
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31 | - commas
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32 | - JSON8 could have trailing commas rule
|
33 | - NIL8 at least has no commas for [1 2 "hi"]
|
34 | """
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35 |
|
36 | from _devbuild.gen.id_kind_asdl import Id, Id_t, Id_str
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37 | from _devbuild.gen.value_asdl import (value, value_e, value_t, value_str)
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38 | from _devbuild.gen.nil8_asdl import (nvalue, nvalue_t)
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39 |
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40 | from asdl import format as fmt
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41 | from core import error
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42 | from data_lang import pyj8
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43 | # dependency issue: consts.py pulls in frontend/option_def.py
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44 | from frontend import consts
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45 | from frontend import match
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46 | from mycpp import mops
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47 | from mycpp import mylib
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48 | from mycpp.mylib import tagswitch, iteritems, NewDict, log
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49 |
|
50 | import fastfunc
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51 |
|
52 | _ = log
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53 |
|
54 | from typing import cast, Dict, List, Tuple, Optional
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55 |
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56 |
|
57 | # COPIED from ui.ValType() to break dep
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58 | def ValType(val):
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59 | # type: (value_t) -> str
|
60 | """For displaying type errors in the UI."""
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61 |
|
62 | return value_str(val.tag(), dot=False)
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63 |
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64 |
|
65 | if mylib.PYTHON:
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66 |
|
67 | def HeapValueId(val):
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68 | # type: (value_t) -> int
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69 | """
|
70 | Python's id() returns the address, which is up to 64 bits.
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71 |
|
72 | In C++ we can use the GC ID, which fits within 32 bits.
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73 | """
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74 | return id(val)
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75 |
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76 |
|
77 | def ValueId(val):
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78 | # type: (value_t) -> int
|
79 | """
|
80 | Return an integer ID for object that:
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81 |
|
82 | 1. Can be used to determine whether 2 objects are the same, e.g. for
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83 | List, Dict, Func, Proc, etc.
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84 | 2. Will help detect object cycles
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85 |
|
86 | Primitives types like Int and Float don't have this notion. They're
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87 | immutable values that are copied and compared by value.
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88 | """
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89 | with tagswitch(val) as case:
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90 | if case(value_e.Null, value_e.Bool, value_e.Int, value_e.Float,
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91 | value_e.Str):
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92 | # These will not be on the heap if we switch to tagged pointers
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93 | # Str is handled conservatively - when we add small string
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94 | # optimization, some strings will be values, so we assume all are.
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95 | return -1
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96 | else:
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97 | return HeapValueId(val)
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98 |
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99 |
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100 | def ValueIdString(val):
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101 | # type: (value_t) -> str
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102 | """Used by pp value (42) and = 42"""
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103 | heap_id = ValueId(val) # could be -1
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104 | if heap_id == -1:
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105 | return ''
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106 | else:
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107 | return ' 0x%s' % mylib.hex_lower(heap_id)
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108 |
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109 |
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110 | def Utf8Encode(code):
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111 | # type: (int) -> str
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112 | """Return utf-8 encoded bytes from a unicode code point.
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113 |
|
114 | Based on https://stackoverflow.com/a/23502707
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115 | """
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116 | num_cont_bytes = 0
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117 |
|
118 | if code <= 0x7F:
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119 | return chr(code & 0x7F) # ASCII
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120 |
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121 | elif code <= 0x7FF:
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122 | num_cont_bytes = 1
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123 | elif code <= 0xFFFF:
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124 | num_cont_bytes = 2
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125 | else:
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126 | # What about the check code <= 0x10FFFF ?
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127 | # - it happens in statically parsed $'' u''
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128 | # - but not dynamically parsed echo -e / printf, following bash/zsh
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129 | num_cont_bytes = 3
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130 |
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131 | bytes_ = [] # type: List[int]
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132 | for _ in xrange(num_cont_bytes):
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133 | bytes_.append(0x80 | (code & 0x3F))
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134 | code >>= 6
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135 |
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136 | b = (0x1E << (6 - num_cont_bytes)) | (code & (0x3F >> num_cont_bytes))
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137 | bytes_.append(b)
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138 | bytes_.reverse()
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139 |
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140 | # mod 256 because Python ints don't wrap around!
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141 | tmp = [chr(b & 0xFF) for b in bytes_]
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142 | return ''.join(tmp)
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143 |
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144 |
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145 | SHOW_CYCLES = 1 << 1 # show as [...] or {...} I think, with object ID
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146 | SHOW_NON_DATA = 1 << 2 # non-data objects like Eggex can be <Eggex 0xff>
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147 | LOSSY_JSON = 1 << 3 # JSON is lossy
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148 |
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149 | # Hack until we fully translate
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150 | assert pyj8.LOSSY_JSON == LOSSY_JSON
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151 |
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152 |
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153 | def _Print(val, buf, indent, options=0):
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154 | # type: (value_t, mylib.BufWriter, int, int) -> None
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155 | """
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156 | Args:
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157 | indent: number of spaces to indent, or -1 for everything on one line
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158 | """
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159 | p = InstancePrinter(buf, indent, options)
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160 | p.Print(val)
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161 |
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162 |
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163 | def PrintMessage(val, buf, indent):
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164 | # type: (value_t, mylib.BufWriter, int) -> None
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165 | """ For json8 write (x) and toJson8()
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166 |
|
167 | Caller must handle error.Encode
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168 | """
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169 | _Print(val, buf, indent)
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170 |
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171 |
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172 | def PrintJsonMessage(val, buf, indent):
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173 | # type: (value_t, mylib.BufWriter, int) -> None
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174 | """ For json write (x) and toJson()
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175 |
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176 | Caller must handle error.Encode()
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177 | Doesn't decay to b'' strings - will use Unicode replacement char.
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178 | """
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179 | _Print(val, buf, indent, options=LOSSY_JSON)
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180 |
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181 |
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182 | def PrintLine(val, f):
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183 | # type: (value_t, mylib.Writer) -> None
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184 | """ For pp line (x) """
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185 |
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186 | # error.Encode should be impossible - we show cycles and non-data
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187 | buf = mylib.BufWriter()
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188 | _Print(val, buf, -1, options=SHOW_CYCLES | SHOW_NON_DATA)
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189 | f.write(buf.getvalue())
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190 | f.write('\n')
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191 |
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192 |
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193 | def EncodeString(s, buf, unquoted_ok=False):
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194 | # type: (str, mylib.BufWriter, bool) -> None
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195 | """ For pp proc, etc."""
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196 |
|
197 | if unquoted_ok and fastfunc.CanOmitQuotes(s):
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198 | buf.write(s)
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199 | return
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200 |
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201 | _Print(value.Str(s), buf, -1)
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202 |
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203 |
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204 | def MaybeEncodeString(s):
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205 | # type: (str) -> str
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206 | """ For write --json8 $s and compexport """
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207 |
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208 | # TODO: add unquoted_ok here?
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209 | # /usr/local/foo-bar/x.y/a_b
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210 |
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211 | buf = mylib.BufWriter()
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212 | _Print(value.Str(s), buf, -1)
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213 | return buf.getvalue()
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214 |
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215 |
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216 | def MaybeEncodeJsonString(s):
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217 | # type: (str) -> str
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218 | """ For write --json """
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219 |
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220 | # TODO: add unquoted_ok here?
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221 | # /usr/local/foo-bar/x.y/a_b
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222 | buf = mylib.BufWriter()
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223 | _Print(value.Str(s), buf, -1, options=LOSSY_JSON)
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224 | return buf.getvalue()
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225 |
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226 |
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227 | # DFS traversal state
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228 | UNSEEN = 0
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229 | EXPLORING = 1
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230 | FINISHED = 2
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231 |
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232 |
|
233 | class InstancePrinter(object):
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234 | """Print a value tree as J8/JSON."""
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235 |
|
236 | def __init__(self, buf, indent, options):
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237 | # type: (mylib.BufWriter, int, int) -> None
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238 | self.buf = buf
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239 | self.indent = indent
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240 | self.options = options
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241 |
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242 | # Key is vm.HeapValueId(val)
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243 | # Value is always True
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244 | # Dict[int, None] doesn't translate -- it would be nice to have a set()
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245 | self.visited = {} # type: Dict[int, int]
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246 |
|
247 | def _ItemIndent(self, level):
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248 | # type: (int) -> None
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249 |
|
250 | if self.indent == -1:
|
251 | return
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252 |
|
253 | self.buf.write_spaces((level + 1) * self.indent)
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254 |
|
255 | def _BracketIndent(self, level):
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256 | # type: (int) -> None
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257 |
|
258 | if self.indent == -1:
|
259 | return
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260 |
|
261 | self.buf.write_spaces(level * self.indent)
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262 |
|
263 | def _MaybeNewline(self):
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264 | # type: () -> None
|
265 | if self.indent == -1:
|
266 | return
|
267 | self.buf.write('\n')
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268 |
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269 | def _MaybeSpace(self):
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270 | # type: () -> None
|
271 | if self.indent == -1:
|
272 | return
|
273 | self.buf.write(' ')
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274 |
|
275 | def _PrintList(self, val, level):
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276 | # type: (value.List, int) -> None
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277 |
|
278 | if len(val.items) == 0: # Special case like Python/JS
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279 | self.buf.write('[]')
|
280 | else:
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281 | self.buf.write('[')
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282 | self._MaybeNewline()
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283 | for i, item in enumerate(val.items):
|
284 | if i != 0:
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285 | self.buf.write(',')
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286 | self._MaybeNewline()
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287 |
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288 | self._ItemIndent(level)
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289 | self.Print(item, level + 1)
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290 | self._MaybeNewline()
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291 |
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292 | self._BracketIndent(level)
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293 | self.buf.write(']')
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294 |
|
295 | def _PrintDict(self, val, level):
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296 | # type: (value.Dict, int) -> None
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297 |
|
298 | if len(val.d) == 0: # Special case like Python/JS
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299 | self.buf.write('{}')
|
300 | else:
|
301 | self.buf.write('{')
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302 | self._MaybeNewline()
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303 | i = 0
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304 | for k, v in iteritems(val.d):
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305 | if i != 0:
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306 | self.buf.write(',')
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307 | self._MaybeNewline()
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308 |
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309 | self._ItemIndent(level)
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310 |
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311 | pyj8.WriteString(k, self.options, self.buf)
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312 |
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313 | self.buf.write(':')
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314 | self._MaybeSpace()
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315 |
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316 | self.Print(v, level + 1)
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317 |
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318 | i += 1
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319 |
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320 | self._MaybeNewline()
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321 | self._BracketIndent(level)
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322 | self.buf.write('}')
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323 |
|
324 | def Print(self, val, level=0):
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325 | # type: (value_t, int) -> None
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326 |
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327 | # special value that means everything is on one line
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328 | # It's like
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329 | # JSON.stringify(d, null, 0)
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330 | # except we use -1, not 0. 0 can still have newlines.
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331 |
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332 | UP_val = val
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333 | with tagswitch(val) as case:
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334 | if case(value_e.Null):
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335 | self.buf.write('null')
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336 |
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337 | elif case(value_e.Bool):
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338 | val = cast(value.Bool, UP_val)
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339 | self.buf.write('true' if val.b else 'false')
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340 |
|
341 | elif case(value_e.Int):
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342 | val = cast(value.Int, UP_val)
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343 | # TODO: avoid intermediate allocation with
|
344 | # self.buf.WriteBigInt(val.i)
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345 | #
|
346 | # Or maybe we need pyj8.WriteBigInt() because truly BigInt may
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347 | # be of arbitrary length, and will need a growth strategy.
|
348 | # Although that is not very common, so we could allocate in
|
349 | # that case.
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350 |
|
351 | self.buf.write(mops.ToStr(val.i))
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352 |
|
353 | elif case(value_e.Float):
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354 | val = cast(value.Float, UP_val)
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355 | # TODO: avoid intrmediate allocation with
|
356 | # self.buf.WriteFloat(val.f)
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357 | self.buf.write(str(val.f))
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358 |
|
359 | elif case(value_e.Str):
|
360 | val = cast(value.Str, UP_val)
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361 |
|
362 | pyj8.WriteString(val.s, self.options, self.buf)
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363 |
|
364 | elif case(value_e.List):
|
365 | val = cast(value.List, UP_val)
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366 |
|
367 | # Cycle detection, only for containers that can be in cycles
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368 | heap_id = HeapValueId(val)
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369 |
|
370 | node_state = self.visited.get(heap_id, UNSEEN)
|
371 | if node_state == FINISHED:
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372 | # Print it AGAIN. We print a JSON tree, which means we can
|
373 | # visit and print nodes MANY TIMES, as long as they're not
|
374 | # in a cycle.
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375 | self._PrintList(val, level)
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376 | return
|
377 | if node_state == EXPLORING:
|
378 | if self.options & SHOW_CYCLES:
|
379 | self.buf.write('[ -->%s ]' % ValueIdString(val))
|
380 | return
|
381 | else:
|
382 | # node.js prints which index closes the cycle
|
383 | raise error.Encode(
|
384 | "Can't encode List%s in object cycle" %
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385 | ValueIdString(val))
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386 |
|
387 | self.visited[heap_id] = EXPLORING
|
388 | self._PrintList(val, level)
|
389 | self.visited[heap_id] = FINISHED
|
390 |
|
391 | elif case(value_e.Dict):
|
392 | val = cast(value.Dict, UP_val)
|
393 |
|
394 | # Cycle detection, only for containers that can be in cycles
|
395 | heap_id = HeapValueId(val)
|
396 |
|
397 | node_state = self.visited.get(heap_id, UNSEEN)
|
398 | if node_state == FINISHED:
|
399 | # Print it AGAIN. We print a JSON tree, which means we can
|
400 | # visit and print nodes MANY TIMES, as long as they're not
|
401 | # in a cycle.
|
402 | self._PrintDict(val, level)
|
403 | return
|
404 | if node_state == EXPLORING:
|
405 | if self.options & SHOW_CYCLES:
|
406 | self.buf.write('{ -->%s }' % ValueIdString(val))
|
407 | return
|
408 | else:
|
409 | # node.js prints which key closes the cycle
|
410 | raise error.Encode(
|
411 | "Can't encode Dict%s in object cycle" %
|
412 | ValueIdString(val))
|
413 |
|
414 | self.visited[heap_id] = EXPLORING
|
415 | self._PrintDict(val, level)
|
416 | self.visited[heap_id] = FINISHED
|
417 |
|
418 | # BashArray and BashAssoc should be printed with pp line (x), e.g.
|
419 | # for spec tests.
|
420 | # - BashAssoc has a clear encoding.
|
421 | # - BashArray could eventually be Dict[int, str]. But that's not
|
422 | # encodable in JSON, which has string keys!
|
423 | # So I think we can print it like ["a",null,'b"] and that won't
|
424 | # change. That's what users expect.
|
425 | elif case(value_e.BashArray):
|
426 | val = cast(value.BashArray, UP_val)
|
427 |
|
428 | self.buf.write('[')
|
429 | self._MaybeNewline()
|
430 | for i, s in enumerate(val.strs):
|
431 | if i != 0:
|
432 | self.buf.write(',')
|
433 | self._MaybeNewline()
|
434 |
|
435 | self._ItemIndent(level)
|
436 | if s is None:
|
437 | self.buf.write('null')
|
438 | else:
|
439 | pyj8.WriteString(s, self.options, self.buf)
|
440 |
|
441 | self._MaybeNewline()
|
442 |
|
443 | self._BracketIndent(level)
|
444 | self.buf.write(']')
|
445 |
|
446 | elif case(value_e.BashAssoc):
|
447 | val = cast(value.BashAssoc, UP_val)
|
448 |
|
449 | self.buf.write('{')
|
450 | self._MaybeNewline()
|
451 | i = 0
|
452 | for k2, v2 in iteritems(val.d):
|
453 | if i != 0:
|
454 | self.buf.write(',')
|
455 | self._MaybeNewline()
|
456 |
|
457 | self._ItemIndent(level)
|
458 |
|
459 | pyj8.WriteString(k2, self.options, self.buf)
|
460 |
|
461 | self.buf.write(':')
|
462 | self._MaybeSpace()
|
463 |
|
464 | pyj8.WriteString(v2, self.options, self.buf)
|
465 |
|
466 | i += 1
|
467 |
|
468 | self._MaybeNewline()
|
469 | self._BracketIndent(level)
|
470 | self.buf.write('}')
|
471 |
|
472 | else:
|
473 | pass # mycpp workaround
|
474 | if self.options & SHOW_NON_DATA:
|
475 | # Similar to = operator, ui.DebugPrint()
|
476 | # TODO: that prints value.Range in a special way
|
477 | ysh_type = ValType(val)
|
478 | id_str = ValueIdString(val)
|
479 | self.buf.write('<%s%s>' % (ysh_type, id_str))
|
480 | else:
|
481 | raise error.Encode("Can't serialize object of type %s" %
|
482 | ValType(val))
|
483 |
|
484 |
|
485 | class PrettyPrinter(object):
|
486 | """ Unused right now, but could enhance the = operator.
|
487 |
|
488 | Output to polymorphic ColorOutput
|
489 |
|
490 | Features like asdl/format.py:
|
491 | - line wrapping
|
492 | - color
|
493 | - sharing detection by passing in a REF COUTN dict
|
494 | - print @123 the first time, and then print ... the second time
|
495 |
|
496 | and
|
497 |
|
498 | - Pretty spaces: {"k": "v", "k2": "v2"} instead of {"k":"v","k2","v2"}
|
499 | - Unquoted: {k: "v", k2: "v2"} instead of {"k": "v", "k2": "v2"}
|
500 |
|
501 | - Omitting commas for ASDL? Maybe we can use two spaces
|
502 |
|
503 | (Token id: Id.VSub_DollarName start: 0 length: 3)
|
504 | (Token id:Id.VSub_DollarName start:0 length:3) - color makes this work
|
505 | """
|
506 |
|
507 | def __init__(self, max_col):
|
508 | # type: (int) -> None
|
509 | self.max_col = max_col
|
510 |
|
511 | # This could be an optimized set an C++ bit set like
|
512 | # mark_sweep_heap.h, rather than a Dict
|
513 | #self.unique_objs = mylib.UniqueObjects()
|
514 |
|
515 | # first pass of object ID -> number of times references
|
516 |
|
517 | self.ref_count = {} # type: Dict[int, int]
|
518 |
|
519 | def PrettyTree(self, val, f):
|
520 | # type: (value_t, fmt.ColorOutput) -> None
|
521 |
|
522 | # TODO: first convert to hnode.asdl types?
|
523 |
|
524 | # Although we might want
|
525 | # hnode.AlreadyShown = (str type, int unique_id)
|
526 | pass
|
527 |
|
528 | def Print(self, val, buf):
|
529 | # type: (value_t, mylib.BufWriter) -> None
|
530 |
|
531 | # Or print to stderr?
|
532 | f = fmt.DetectConsoleOutput(mylib.Stdout())
|
533 | self.PrettyTree(val, f)
|
534 |
|
535 | # Then print those with ASDL
|
536 | pass
|
537 |
|
538 |
|
539 | class LexerDecoder(object):
|
540 | """J8 lexer and string decoder.
|
541 |
|
542 | Similar interface as SimpleLexer, except we return an optional decoded
|
543 | string
|
544 | """
|
545 |
|
546 | def __init__(self, s, is_j8, lang_str):
|
547 | # type: (str, bool, str) -> None
|
548 | self.s = s
|
549 | self.is_j8 = is_j8
|
550 | self.lang_str = lang_str
|
551 |
|
552 | self.pos = 0
|
553 |
|
554 | # current line being lexed -- for error messages
|
555 | self.cur_line_num = 1
|
556 |
|
557 | # Reuse this instance to save GC objects. JSON objects could have
|
558 | # thousands of strings.
|
559 | self.decoded = mylib.BufWriter()
|
560 |
|
561 | def _Error(self, msg, end_pos):
|
562 | # type: (str, int) -> error.Decode
|
563 |
|
564 | # Use the current position as start pos
|
565 | return error.Decode(msg, self.s, self.pos, end_pos, self.cur_line_num)
|
566 |
|
567 | def Next(self):
|
568 | # type: () -> Tuple[Id_t, int, Optional[str]]
|
569 | """ Returns a token and updates self.pos """
|
570 |
|
571 | tok_id, end_pos = match.MatchJ8Token(self.s, self.pos)
|
572 |
|
573 | if not self.is_j8:
|
574 | if tok_id in (Id.Left_BSingleQuote, Id.Left_USingleQuote):
|
575 | raise self._Error(
|
576 | "Single quotes aren't part of JSON; you may want 'json8 read'",
|
577 | end_pos)
|
578 | if tok_id == Id.Ignored_Comment:
|
579 | raise self._Error(
|
580 | "Comments aren't part of JSON; you may want 'json8 read'",
|
581 | end_pos)
|
582 |
|
583 | if tok_id in (Id.Left_DoubleQuote, Id.Left_BSingleQuote,
|
584 | Id.Left_USingleQuote):
|
585 | return self._DecodeString(tok_id, end_pos)
|
586 |
|
587 | if tok_id == Id.Left_JDoubleQuote:
|
588 | if self.is_j8:
|
589 | return self._DecodeString(tok_id, end_pos)
|
590 | else:
|
591 | raise self._Error('Pure JSON does not accept j"" prefix',
|
592 | end_pos)
|
593 |
|
594 | if tok_id == Id.Ignored_Newline:
|
595 | #log('LINE %d', self.cur_line_num)
|
596 | self.cur_line_num += 1
|
597 |
|
598 | self.pos = end_pos
|
599 | return tok_id, end_pos, None
|
600 |
|
601 | def NextForLines(self):
|
602 | # type: () -> Tuple[Id_t, int, Optional[str]]
|
603 | """ Like Next(), but for J8 Lines """
|
604 |
|
605 | tok_id, end_pos = match.MatchJ8LinesToken(self.s, self.pos)
|
606 |
|
607 | if tok_id in (Id.Left_DoubleQuote, Id.Left_JDoubleQuote,
|
608 | Id.Left_BSingleQuote, Id.Left_USingleQuote):
|
609 | return self._DecodeString(tok_id, end_pos)
|
610 |
|
611 | # Check that UNQUOTED lines are valid UTF-8. (_DecodeString() does
|
612 | # this for quoted strings.)
|
613 | if (tok_id == Id.Lit_Chars and
|
614 | not pyj8.PartIsUtf8(self.s, self.pos, end_pos)):
|
615 | raise self._Error(
|
616 | 'Invalid UTF-8 in %s string literal' % self.lang_str, end_pos)
|
617 | if tok_id == Id.Char_AsciiControl:
|
618 | raise self._Error(
|
619 | "J8 Lines can't have unescaped ASCII control chars", end_pos)
|
620 |
|
621 | if tok_id == Id.J8_Newline:
|
622 | #log('LINE %d', self.cur_line_num)
|
623 | self.cur_line_num += 1
|
624 |
|
625 | self.pos = end_pos
|
626 | return tok_id, end_pos, None
|
627 |
|
628 | def _DecodeString(self, left_id, str_pos):
|
629 | # type: (Id_t, int) -> Tuple[Id_t, int, Optional[str]]
|
630 | """ Returns a string token and updates self.pos """
|
631 |
|
632 | while True:
|
633 | if left_id in (Id.Left_DoubleQuote, Id.Left_JDoubleQuote):
|
634 | tok_id, str_end = match.MatchJsonStrToken(self.s, str_pos)
|
635 | else:
|
636 | tok_id, str_end = match.MatchJ8StrToken(self.s, str_pos)
|
637 |
|
638 | #log('String tok %s %r', Id_str(tok_id), self.s[str_pos:str_end])
|
639 |
|
640 | if tok_id == Id.Eol_Tok:
|
641 | # TODO: point to beginning of # quote?
|
642 | raise self._Error(
|
643 | 'Unexpected EOF while lexing %s string' % self.lang_str,
|
644 | str_end)
|
645 | if tok_id == Id.Unknown_Backslash:
|
646 | raise self._Error(
|
647 | 'Bad backslash escape in %s string' % self.lang_str,
|
648 | str_end)
|
649 | if tok_id == Id.Char_AsciiControl:
|
650 | raise self._Error(
|
651 | "%s strings can't have unescaped ASCII control chars" %
|
652 | self.lang_str, str_end)
|
653 |
|
654 | if tok_id in (Id.Right_SingleQuote, Id.Right_DoubleQuote):
|
655 |
|
656 | self.pos = str_end
|
657 |
|
658 | s = self.decoded.getvalue()
|
659 | self.decoded.clear() # reuse this instance
|
660 |
|
661 | #log('decoded %r', self.decoded.getvalue())
|
662 | return Id.J8_String, str_end, s
|
663 |
|
664 | #
|
665 | # Now handle each kind of token
|
666 | #
|
667 |
|
668 | if tok_id == Id.Lit_Chars: # JSON and J8
|
669 | part = self.s[str_pos:str_end]
|
670 | if not pyj8.PartIsUtf8(self.s, str_pos, str_end):
|
671 | raise self._Error(
|
672 | 'Invalid UTF-8 in %s string literal' % self.lang_str,
|
673 | str_end)
|
674 |
|
675 | # TODO: would be nice to avoid allocation in all these cases.
|
676 | # But LookupCharC() would have to change.
|
677 |
|
678 | elif tok_id == Id.Char_OneChar: # JSON and J8
|
679 | ch = self.s[str_pos + 1]
|
680 | part = consts.LookupCharC(ch)
|
681 |
|
682 | elif tok_id == Id.Char_UBraced: # J8 only
|
683 | h = self.s[str_pos + 3:str_end - 1]
|
684 | i = int(h, 16)
|
685 |
|
686 | # Same checks in osh/word_compile.py
|
687 | if i > 0x10ffff:
|
688 | raise self._Error(
|
689 | "Code point can't be greater than U+10ffff", str_end)
|
690 | if 0xD800 <= i and i < 0xE000:
|
691 | raise self._Error(
|
692 | r"\u{%s} escape is illegal because it's in the surrogate range"
|
693 | % h, str_end)
|
694 |
|
695 | part = Utf8Encode(i)
|
696 |
|
697 | elif tok_id == Id.Char_YHex: # J8 only
|
698 | h = self.s[str_pos + 2:str_end]
|
699 |
|
700 | # Same check in osh/word_parse.py
|
701 | if left_id != Id.Left_BSingleQuote:
|
702 | assert left_id != Id.Left_BTSingleQuote, "Not handled here"
|
703 | raise self._Error(
|
704 | r"\y%s escapes not allowed in u'' strings" % h,
|
705 | str_end)
|
706 |
|
707 | i = int(h, 16)
|
708 | part = chr(i)
|
709 |
|
710 | elif tok_id == Id.Char_SurrogatePair:
|
711 | h1 = self.s[str_pos + 2:str_pos + 6]
|
712 | h2 = self.s[str_pos + 8:str_pos + 12]
|
713 |
|
714 | # https://www.oilshell.org/blog/2023/06/surrogate-pair.html
|
715 | i1 = int(h1, 16) - 0xD800 # high surrogate
|
716 | i2 = int(h2, 16) - 0xDC00 # low surrogate
|
717 | code_point = 0x10000 + (i1 << 10) + i2
|
718 |
|
719 | part = Utf8Encode(code_point)
|
720 |
|
721 | elif tok_id == Id.Char_Unicode4: # JSON only, unpaired
|
722 | h = self.s[str_pos + 2:str_end]
|
723 | i = int(h, 16)
|
724 | part = Utf8Encode(i)
|
725 |
|
726 | else:
|
727 | # Should never happen
|
728 | raise AssertionError(Id_str(tok_id))
|
729 |
|
730 | #log('%s part %r', Id_str(tok_id), part)
|
731 | self.decoded.write(part)
|
732 | str_pos = str_end
|
733 |
|
734 |
|
735 | class _Parser(object):
|
736 |
|
737 | def __init__(self, s, is_j8):
|
738 | # type: (str, bool) -> None
|
739 | self.s = s
|
740 | self.is_j8 = is_j8
|
741 | self.lang_str = "J8" if is_j8 else "JSON"
|
742 |
|
743 | self.lexer = LexerDecoder(s, is_j8, self.lang_str)
|
744 | self.tok_id = Id.Undefined_Tok
|
745 | self.start_pos = 0
|
746 | self.end_pos = 0
|
747 | self.decoded = '' # decoded J8 string
|
748 |
|
749 | def _Next(self):
|
750 | # type: () -> None
|
751 |
|
752 | # This isn't the start of a J8_Bool token, it's the END of the token before it
|
753 | while True:
|
754 | self.start_pos = self.end_pos
|
755 | self.tok_id, self.end_pos, self.decoded = self.lexer.Next()
|
756 | if self.tok_id not in (Id.Ignored_Space, Id.Ignored_Newline,
|
757 | Id.Ignored_Comment):
|
758 | break
|
759 | # TODO: add Ignored_Newline to count lines, and show line numbers
|
760 | # in errors messages. The position of the last newline and a token
|
761 | # can be used to calculate a column number.
|
762 |
|
763 | #log('NEXT %s %s %s %s', Id_str(self.tok_id), self.start_pos, self.end_pos, self.decoded or '-')
|
764 |
|
765 | def _Eat(self, tok_id):
|
766 | # type: (Id_t) -> None
|
767 |
|
768 | if self.tok_id != tok_id:
|
769 | #log('position %r %d-%d %r', self.s, self.start_pos,
|
770 | # self.end_pos, self.s[self.start_pos:self.end_pos])
|
771 | raise self._ParseError("Expected %s, got %s" %
|
772 | (Id_str(tok_id), Id_str(self.tok_id)))
|
773 | self._Next()
|
774 |
|
775 | def _NextForLines(self):
|
776 | # type: () -> None
|
777 | """Like _Next, but use the J8 Lines lexer."""
|
778 | self.start_pos = self.end_pos
|
779 | self.tok_id, self.end_pos, self.decoded = self.lexer.NextForLines()
|
780 |
|
781 | def _ParseError(self, msg):
|
782 | # type: (str) -> error.Decode
|
783 | return error.Decode(msg, self.s, self.start_pos, self.end_pos,
|
784 | self.lexer.cur_line_num)
|
785 |
|
786 |
|
787 | class Parser(_Parser):
|
788 | """JSON and JSON8 Parser."""
|
789 |
|
790 | def __init__(self, s, is_j8):
|
791 | # type: (str, bool) -> None
|
792 | _Parser.__init__(self, s, is_j8)
|
793 |
|
794 | def _ParsePair(self):
|
795 | # type: () -> Tuple[str, value_t]
|
796 |
|
797 | k = self.decoded # Save the potential string value
|
798 | self._Eat(Id.J8_String) # Check that it's a string
|
799 | assert k is not None
|
800 |
|
801 | self._Eat(Id.J8_Colon)
|
802 |
|
803 | v = self._ParseValue()
|
804 | return k, v
|
805 |
|
806 | def _ParseDict(self):
|
807 | # type: () -> value_t
|
808 | """
|
809 | pair = string ':' value
|
810 | Dict = '{' '}'
|
811 | | '{' pair (',' pair)* '}'
|
812 | """
|
813 | # precondition
|
814 | assert self.tok_id == Id.J8_LBrace, Id_str(self.tok_id)
|
815 |
|
816 | #log('> Dict')
|
817 |
|
818 | d = NewDict() # type: Dict[str, value_t]
|
819 |
|
820 | self._Next()
|
821 | if self.tok_id == Id.J8_RBrace:
|
822 | self._Next()
|
823 | return value.Dict(d)
|
824 |
|
825 | k, v = self._ParsePair()
|
826 | d[k] = v
|
827 | #log(' [1] k %s v %s Id %s', k, v, Id_str(self.tok_id))
|
828 |
|
829 | while self.tok_id == Id.J8_Comma:
|
830 | self._Next()
|
831 | k, v = self._ParsePair()
|
832 | d[k] = v
|
833 | #log(' [2] k %s v %s Id %s', k, v, Id_str(self.tok_id))
|
834 |
|
835 | self._Eat(Id.J8_RBrace)
|
836 |
|
837 | #log('< Dict')
|
838 |
|
839 | return value.Dict(d)
|
840 |
|
841 | def _ParseList(self):
|
842 | # type: () -> value_t
|
843 | """
|
844 | List = '[' ']'
|
845 | | '[' value (',' value)* ']'
|
846 | """
|
847 | assert self.tok_id == Id.J8_LBracket, Id_str(self.tok_id)
|
848 |
|
849 | items = [] # type: List[value_t]
|
850 |
|
851 | self._Next()
|
852 | if self.tok_id == Id.J8_RBracket:
|
853 | self._Next()
|
854 | return value.List(items)
|
855 |
|
856 | items.append(self._ParseValue())
|
857 |
|
858 | while self.tok_id == Id.J8_Comma:
|
859 | self._Next()
|
860 | items.append(self._ParseValue())
|
861 |
|
862 | self._Eat(Id.J8_RBracket)
|
863 |
|
864 | return value.List(items)
|
865 |
|
866 | def _ParseValue(self):
|
867 | # type: () -> value_t
|
868 | if self.tok_id == Id.J8_LBrace:
|
869 | return self._ParseDict()
|
870 |
|
871 | elif self.tok_id == Id.J8_LBracket:
|
872 | return self._ParseList()
|
873 |
|
874 | elif self.tok_id == Id.J8_Null:
|
875 | self._Next()
|
876 | return value.Null
|
877 |
|
878 | elif self.tok_id == Id.J8_Bool:
|
879 | #log('%r %d', self.s[self.start_pos], self.start_pos)
|
880 | b = value.Bool(self.s[self.start_pos] == 't')
|
881 | self._Next()
|
882 | return b
|
883 |
|
884 | elif self.tok_id == Id.J8_Int:
|
885 | part = self.s[self.start_pos:self.end_pos]
|
886 | self._Next()
|
887 | return value.Int(mops.FromStr(part))
|
888 |
|
889 | elif self.tok_id == Id.J8_Float:
|
890 | part = self.s[self.start_pos:self.end_pos]
|
891 | self._Next()
|
892 | return value.Float(float(part))
|
893 |
|
894 | # UString, BString too
|
895 | elif self.tok_id == Id.J8_String:
|
896 | str_val = value.Str(self.decoded)
|
897 | #log('d %r', self.decoded)
|
898 | self._Next()
|
899 | return str_val
|
900 |
|
901 | elif self.tok_id == Id.Eol_Tok:
|
902 | raise self._ParseError('Unexpected EOF while parsing %s' %
|
903 | self.lang_str)
|
904 |
|
905 | else: # Id.Unknown_Tok, Id.J8_{LParen,RParen}
|
906 | raise self._ParseError('Invalid token while parsing %s: %s' %
|
907 | (self.lang_str, Id_str(self.tok_id)))
|
908 |
|
909 | def ParseValue(self):
|
910 | # type: () -> value_t
|
911 | """ Raises error.Decode. """
|
912 | self._Next()
|
913 | obj = self._ParseValue()
|
914 | if self.tok_id != Id.Eol_Tok:
|
915 | raise self._ParseError('Unexpected trailing input')
|
916 | return obj
|
917 |
|
918 |
|
919 | class Nil8Parser(_Parser):
|
920 | """
|
921 | Tokens not in JSON8:
|
922 | LParen RParen Symbol
|
923 |
|
924 | Tokens not in JSON, but in JSON8 and NIL8:
|
925 | Identifier (unquoted keys)
|
926 | Ignored_Comment
|
927 | """
|
928 |
|
929 | def __init__(self, s, is_j8):
|
930 | # type: (str, bool) -> None
|
931 | _Parser.__init__(self, s, is_j8)
|
932 |
|
933 | if 0:
|
934 |
|
935 | def _LookAhead(self):
|
936 | # type: () -> Id_t
|
937 | """
|
938 | Don't need this right now
|
939 | """
|
940 | end_pos = self.end_pos # look ahead from last token
|
941 | while True:
|
942 | tok_id, end_pos = match.MatchJ8Token(self.s, end_pos)
|
943 | if tok_id not in (Id.Ignored_Space, Id.Ignored_Newline,
|
944 | Id.Ignored_Comment):
|
945 | break
|
946 | return tok_id
|
947 |
|
948 | def _ParseRecord(self):
|
949 | # type: () -> nvalue_t
|
950 | """
|
951 | Yaks
|
952 | (self->Next) => (-> self Next)
|
953 | (self->Next obj.field) => ((-> self Next) (. obj field))
|
954 |
|
955 | Similar to
|
956 | ((identity identity) 42) => 42 in Clojure
|
957 |
|
958 | ASDL
|
959 | (Node left:(. x4beef2))
|
960 | (Node left !x4beef2)
|
961 |
|
962 | # Ambiguous because value can be identifier.
|
963 | # We have to look ahead to and see if there's a colon :
|
964 | field =
|
965 | Identifier ':' value
|
966 | | value
|
967 |
|
968 | record = '(' head field* ')'
|
969 |
|
970 | - Identifier | Symbol are treated the same, it's a side effect of
|
971 | the lexing style
|
972 | - do positional args come before named args
|
973 | - () is invalid? Use [] for empty list
|
974 | """
|
975 | assert self.tok_id == Id.J8_LParen, Id_str(self.tok_id)
|
976 |
|
977 | items = [] # type: List[nvalue_t]
|
978 |
|
979 | self._Next()
|
980 | if self.tok_id == Id.J8_RParen:
|
981 | self._Next()
|
982 | return nvalue.List(items)
|
983 |
|
984 | #log('TOK %s', Id_str(self.tok_id))
|
985 | while self.tok_id != Id.J8_RParen:
|
986 | items.append(self._ParseNil8())
|
987 | #log('TOK 2 %s', Id_str(self.tok_id))
|
988 |
|
989 | self._Eat(Id.J8_RParen)
|
990 |
|
991 | return nvalue.List(items)
|
992 |
|
993 | def _ParseList8(self):
|
994 | # type: () -> nvalue_t
|
995 | """
|
996 | List8 = '[' value* ']'
|
997 |
|
998 | No commas, not even optional ones for now.
|
999 | """
|
1000 | assert self.tok_id == Id.J8_LBracket, Id_str(self.tok_id)
|
1001 |
|
1002 | items = [] # type: List[nvalue_t]
|
1003 |
|
1004 | self._Next()
|
1005 | if self.tok_id == Id.J8_RBracket:
|
1006 | self._Next()
|
1007 | return nvalue.List(items)
|
1008 |
|
1009 | #log('TOK %s', Id_str(self.tok_id))
|
1010 | while self.tok_id != Id.J8_RBracket:
|
1011 | items.append(self._ParseNil8())
|
1012 | #log('TOK 2 %s', Id_str(self.tok_id))
|
1013 |
|
1014 | self._Eat(Id.J8_RBracket)
|
1015 |
|
1016 | return nvalue.List(items)
|
1017 |
|
1018 | def _ParseNil8(self):
|
1019 | # type: () -> nvalue_t
|
1020 | if self.tok_id == Id.J8_LParen:
|
1021 | obj = self._ParseRecord() # type: nvalue_t
|
1022 | #return obj
|
1023 |
|
1024 | elif self.tok_id == Id.J8_LBracket:
|
1025 | obj = self._ParseList8()
|
1026 | #return obj
|
1027 |
|
1028 | # Primitives are copied from J8 above.
|
1029 | # TODO: We also want hex literals.
|
1030 | elif self.tok_id == Id.J8_Null:
|
1031 | self._Next()
|
1032 | obj = nvalue.Null
|
1033 |
|
1034 | elif self.tok_id == Id.J8_Bool:
|
1035 | b = nvalue.Bool(self.s[self.start_pos] == 't')
|
1036 | self._Next()
|
1037 | obj = b
|
1038 |
|
1039 | elif self.tok_id == Id.J8_Int:
|
1040 | part = self.s[self.start_pos:self.end_pos]
|
1041 | self._Next()
|
1042 | obj = nvalue.Int(int(part))
|
1043 |
|
1044 | elif self.tok_id == Id.J8_Float:
|
1045 | part = self.s[self.start_pos:self.end_pos]
|
1046 | self._Next()
|
1047 | obj = nvalue.Float(float(part))
|
1048 |
|
1049 | elif self.tok_id == Id.J8_String:
|
1050 | str_val = nvalue.Str(self.decoded)
|
1051 | self._Next()
|
1052 | obj = str_val
|
1053 |
|
1054 | # <- etc.
|
1055 | elif self.tok_id in (Id.J8_Identifier, Id.J8_Operator, Id.J8_Colon,
|
1056 | Id.J8_Comma):
|
1057 | # unquoted "word" treated like a string
|
1058 | part = self.s[self.start_pos:self.end_pos]
|
1059 | self._Next()
|
1060 | obj = nvalue.Symbol(part)
|
1061 |
|
1062 | elif self.tok_id == Id.Eol_Tok:
|
1063 | raise self._ParseError('Unexpected EOF while parsing %s' %
|
1064 | self.lang_str)
|
1065 |
|
1066 | else: # Id.Unknown_Tok, Id.J8_{LParen,RParen}
|
1067 | raise self._ParseError('Invalid token while parsing %s: %s' %
|
1068 | (self.lang_str, Id_str(self.tok_id)))
|
1069 |
|
1070 | #log('YO %s', Id_str(self.tok_id))
|
1071 | if self.tok_id in (Id.J8_Operator, Id.J8_Colon, Id.J8_Comma):
|
1072 | #log('AT %s', Id_str(self.tok_id))
|
1073 |
|
1074 | # key: "value" -> (: key "value")
|
1075 | part = self.s[self.start_pos:self.end_pos]
|
1076 | op = nvalue.Symbol(part)
|
1077 |
|
1078 | self._Next()
|
1079 | operand2 = self._ParseNil8()
|
1080 | infix = nvalue.List([op, obj, operand2]) # type: nvalue_t
|
1081 | #print("--> INFIX %d %s" % (id(infix), infix))
|
1082 | return infix
|
1083 |
|
1084 | #next_id = self._LookAhead()
|
1085 | #print('NEXT %s' % Id_str(next_id))
|
1086 |
|
1087 | #raise AssertionError()
|
1088 | #print("--> OBJ %d %s" % (id(obj), obj))
|
1089 | return obj
|
1090 |
|
1091 | def ParseNil8(self):
|
1092 | # type: () -> nvalue_t
|
1093 | """ Raises error.Decode. """
|
1094 | self._Next()
|
1095 | #print('yo')
|
1096 | obj = self._ParseNil8()
|
1097 | #print("==> %d %s" % (id(obj), obj))
|
1098 | if self.tok_id != Id.Eol_Tok:
|
1099 | raise self._ParseError('Unexpected trailing input')
|
1100 | return obj
|
1101 |
|
1102 |
|
1103 | class J8LinesParser(_Parser):
|
1104 | """Decode lines from a string with newlines.
|
1105 |
|
1106 | We specify this with a grammar, to preserve location info and to reduce
|
1107 | allocations. (But note that unquoted_line is more like a LOOP than it is
|
1108 | grammatical.)
|
1109 |
|
1110 | Grammar:
|
1111 |
|
1112 | end = J8_Newline | Eol_Tok
|
1113 |
|
1114 | empty_line = WS_Space? end
|
1115 |
|
1116 | # special case: read until end token, but REMOVE trailing WS_Space
|
1117 | unquoted_line = WS_Space? Lit_Chars ANY* WS_Space? end
|
1118 |
|
1119 | j8_line = WS_Space? J8_String WS_Space? end
|
1120 |
|
1121 | lines = (empty_line | unquoted_line | j8_line)*
|
1122 |
|
1123 | where Lit_Chars is valid UTF-8
|
1124 |
|
1125 | Notes:
|
1126 |
|
1127 | (1) We disallow multiple strings on a line, like:
|
1128 |
|
1129 | "json" "json2"
|
1130 | "json" unquoted
|
1131 |
|
1132 | (2) Internal quotes are allowed on unquoted lines. Consider this line:
|
1133 |
|
1134 | foo "" u''
|
1135 |
|
1136 | The "" and u'' are not a decoded string, because the line started with
|
1137 | Id.Lit_Chars literals.
|
1138 |
|
1139 | (3) This is related to TSV8? Similar rules. Does TSV8 have empty cells?
|
1140 | Does it have - for empty cell?
|
1141 | """
|
1142 |
|
1143 | def __init__(self, s):
|
1144 | # type: (str) -> None
|
1145 | _Parser.__init__(self, s, True)
|
1146 |
|
1147 | def _Show(self, s):
|
1148 | # type: (str) -> None
|
1149 | log('%s tok_id %s %d-%d', s, Id_str(self.tok_id), self.start_pos,
|
1150 | self.end_pos)
|
1151 |
|
1152 | def _ParseLine(self, out):
|
1153 | # type: (List[str]) -> None
|
1154 | """ May append a line to 'out' """
|
1155 | #self._Show('1')
|
1156 | if self.tok_id == Id.WS_Space:
|
1157 | self._NextForLines()
|
1158 |
|
1159 | # Empty line - return without doing anything
|
1160 | if self.tok_id in (Id.J8_Newline, Id.Eol_Tok):
|
1161 | self._NextForLines()
|
1162 | return
|
1163 |
|
1164 | # Quoted string on line
|
1165 | if self.tok_id == Id.J8_String:
|
1166 | out.append(self.decoded)
|
1167 | self._NextForLines()
|
1168 |
|
1169 | if self.tok_id == Id.WS_Space: # trailing whitespace
|
1170 | self._NextForLines()
|
1171 |
|
1172 | if self.tok_id not in (Id.J8_Newline, Id.Eol_Tok):
|
1173 | raise self._ParseError('Unexpected text after J8 Line (%s)' %
|
1174 | Id_str(self.tok_id))
|
1175 |
|
1176 | self._NextForLines()
|
1177 | return
|
1178 |
|
1179 | # Unquoted line
|
1180 | if self.tok_id == Id.Lit_Chars:
|
1181 | # ' unquoted "" text on line ' # read every token until end
|
1182 | string_start = self.start_pos
|
1183 | while True:
|
1184 | # for stripping whitespace
|
1185 | prev_id = self.tok_id
|
1186 | prev_start = self.start_pos
|
1187 |
|
1188 | self._NextForLines()
|
1189 |
|
1190 | # It would be nicer if "middle" Id.WS_Space tokens didn't have
|
1191 | # \r, but we're sticking with the JSON spec definition of
|
1192 | # whitespace. (As another data point, CPython on Unix allows
|
1193 | # \r in the middle of expressions, treating it as whitespace.)
|
1194 | if self.tok_id in (Id.J8_Newline, Id.Eol_Tok):
|
1195 | break
|
1196 |
|
1197 | if prev_id == Id.WS_Space:
|
1198 | string_end = prev_start # remove trailing whitespace
|
1199 | else:
|
1200 | string_end = self.start_pos
|
1201 |
|
1202 | out.append(self.s[string_start:string_end])
|
1203 |
|
1204 | self._NextForLines() # past newline
|
1205 | return
|
1206 |
|
1207 | raise AssertionError(Id_str(self.tok_id))
|
1208 |
|
1209 | def Parse(self):
|
1210 | # type: () -> List[str]
|
1211 | """ Raises error.Decode. """
|
1212 | self._NextForLines()
|
1213 |
|
1214 | lines = [] # type: List[str]
|
1215 | while self.tok_id != Id.Eol_Tok:
|
1216 | self._ParseLine(lines)
|
1217 |
|
1218 | if self.tok_id != Id.Eol_Tok:
|
1219 | raise self._ParseError('Unexpected trailing input in J8 Lines')
|
1220 |
|
1221 | return lines
|
1222 |
|
1223 |
|
1224 | def SplitJ8Lines(s):
|
1225 | # type: (str) -> List[str]
|
1226 | """Used by @(echo split command sub)
|
1227 |
|
1228 | Raises:
|
1229 | error.Decode
|
1230 |
|
1231 | 3 Errors:
|
1232 | - J8 string syntax error inside quotes
|
1233 | - Extra input on line
|
1234 | - unquoted line isn't utf-8
|
1235 | """
|
1236 | p = J8LinesParser(s)
|
1237 | return p.Parse()
|
1238 |
|
1239 |
|
1240 | # vim: sw=4
|