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3 | 3 | <leo_file> |
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4 | 4 | <leo_header file_format="2" tnodes="0" max_tnode_index="0" clone_windows="0"/> |
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5 | 5 | <globals body_outline_ratio="0.5"> |
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6 |
<global_window_position top="1 |
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6 | <global_window_position top="165" left="26" height="621" width="1280"/> | |
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7 | 7 | <global_log_window_position top="0" left="0" height="0" width="0"/> |
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8 | 8 | </globals> |
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9 | 9 | <preferences/> |
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11 | 11 | <vnodes> |
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12 | 12 | <v t="vivainio.20080218184525"><vh>@chapters</vh></v> |
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13 | 13 | <v t="vivainio.20080218184540" a="E"><vh>@ipy-startup</vh> |
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14 |
<v t="vivainio.20080218184613.1" |
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15 |
<v t="vivainio.20080218200031" |
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14 | <v t="vivainio.20080218184613.1"><vh>b</vh></v> | |
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15 | <v t="vivainio.20080218200031"><vh>Some classes P</vh> | |
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16 | 16 | <v t="vivainio.20080218190816"><vh>File-like access</vh></v> |
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17 | 17 | <v t="vivainio.20080218200106"><vh>csv data</vh></v> |
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18 | 18 | <v t="vivainio.20080219225120"><vh>String list</vh></v> |
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26 | 26 | <v t="vivainio.20080219225804"><vh>strlist</vh></v> |
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27 | 27 | </v> |
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28 | 28 | <v t="vivainio.20080218201219"><vh>Direct variables</vh> |
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29 |
<v t="vivainio.200802 |
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29 | <v t="vivainio.20080222201226"><vh>NewHeadline</vh></v> | |
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30 | <v t="vivainio.20080218201219.2"><vh>bar</vh></v> | |
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30 | 31 | </v> |
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32 | <v t="vivainio.20080222193236" a="E"><vh>Docs</vh> | |
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33 | <v t="vivainio.20080222193236.1" a="TV"><vh>Quick intro</vh></v> | |
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34 | </v> | |
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35 | <v t="vivainio.20080222202211"><vh>test stuff</vh></v> | |
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36 | <v t="vivainio.20080222202211.1"><vh>spam</vh></v> | |
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37 | <v t="vivainio.20080222202211.2"><vh>NewHeadline</vh></v> | |
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31 | 38 | </vnodes> |
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32 | 39 | <tnodes> |
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33 | 40 | <t tx="vivainio.20080218184525">?</t> |
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95 | 102 | def format_slist(obj): |
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96 | 103 | return "@cl slist\n" + obj.n |
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97 | 104 | </t> |
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105 | <t tx="vivainio.20080222193236"></t> | |
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106 | <t tx="vivainio.20080222193236.1">@wrap | |
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107 | @nocolor | |
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108 | ||
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109 | Introduction | |
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110 | ============ | |
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111 | ||
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112 | The purpose of ILeo, or leo-ipython bridge, is being a two-way communication | |
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113 | channel between Leo and IPython. The level of integration is much deeper than | |
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114 | conventional integration in IDEs; most notably, you are able to store *data* in | |
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115 | Leo nodes, in addition to mere program code. The possibilities of this are | |
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116 | endless, and this degree of integration has not been seen previously in the python | |
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117 | world. | |
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118 | ||
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119 | IPython users are accustomed to using things like %edit to produce non-trivial | |
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120 | functions/classes (i.e. something that they don't want to enter directly on the | |
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121 | interactive prompt, but creating a proper script/module involves too much | |
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122 | overhead). In ILeo, this task consists just going to the Leo window, creating a node | |
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123 | and writing the code there, and pressing alt+I (push-to-ipython). | |
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124 | ||
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125 | Obviously, you can save the Leo document as usual - this is a great advantage | |
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126 | of ILeo over using %edit, you can save your experimental scripts all at one | |
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127 | time, without having to organize them into script/module files (before you | |
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128 | really want to, of course!) | |
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129 | ||
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130 | ||
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131 | Installation | |
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132 | ============ | |
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133 | ||
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134 | You need the latest version of Leo, and the development version of IPython (ILeo | |
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135 | will be incorporated to IPython 0.8.3. | |
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136 | ||
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137 | You can get IPython from Launchpad by installing bzr and doing | |
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138 | ||
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139 | bzr branch lp:ipython | |
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140 | ||
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141 | and running "setup.py install". | |
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142 | ||
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143 | You need to enable the 'ipython.py' plugin in Leo: | |
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144 | ||
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145 | - Help -> Open LeoSettings.leo | |
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146 | ||
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147 | - Edit @settings-->Plugins-->@enabled-plugins, add/uncomment 'ipython.py' | |
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148 | ||
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149 | - Restart Leo. Be sure that you have the console window open (start leo.py from console, or double-click leo.py on windows) | |
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150 | ||
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151 | - Press alt+5 OR alt-x start-ipython to launch IPython in the console that | |
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152 | started leo. You can start entering IPython commands normally, and Leo will keep | |
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153 | running in the same time. | |
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154 | ||
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155 | Accessing IPython from Leo | |
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156 | ========================== | |
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157 | ||
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158 | IPython code | |
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159 | ------------ | |
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160 | ||
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161 | Just enter IPython commands on a Leo node and press alt-I to execute | |
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162 | push-to-ipython to execute the script in IPython. 'commands' is interpreted | |
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163 | loosely here - you can enter function and class definitions, in addition to the | |
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164 | things you would usually enter at IPython prompt - calculations, system commands etc. | |
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165 | ||
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166 | Everything that would be legal to enter on IPython prompt is legal to execute | |
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167 | from ILeo. | |
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168 | ||
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169 | Results will be shows in Leo log window for convenience, in addition to the console. | |
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170 | ||
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171 | Suppose that a node had the following contents: | |
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172 | {{{ | |
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173 | 1+2 | |
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174 | print "hello" | |
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175 | 3+4 | |
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176 | ||
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177 | def f(x): | |
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178 | return x.upper() | |
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179 | ||
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180 | f('hello world') | |
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181 | }}} | |
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182 | ||
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183 | If you press alt+I on that done, you will see the following in Leo log window (IPython tab): | |
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184 | ||
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185 | {{{ | |
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186 | In: 1+2 | |
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187 | <2> 3 | |
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188 | In: 3+4 | |
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189 | <4> 7 | |
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190 | In: f('hello world') | |
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191 | <6> 'HELLO WORLD' | |
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192 | }}} | |
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193 | ||
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194 | (numbers like <6> mean IPython output history indices). | |
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195 | ||
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196 | ||
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197 | Plain Python code | |
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198 | ----------------- | |
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199 | ||
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200 | If the headline of the node ends with capital P, alt-I will not run the code | |
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201 | through IPython translation mechanism but use the direct python 'exec' statement | |
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202 | (in IPython user namespace) to execute the code. It wont be shown in IPython | |
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203 | history, and sometimes it is safer (and more efficient) to execute things as | |
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204 | plain Python statements. Large class definitions are good candidates for P | |
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205 | nodes. | |
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206 | ||
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207 | Accessing Leo nodes from IPython | |
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208 | ================================ | |
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209 | ||
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210 | The real fun starts when you start entering text to leo nodes, and are using | |
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211 | that as data (input/output) for your IPython work. | |
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212 | ||
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213 | Accessing Leo nodes happens through the variable 'wb' (short for "WorkBook") | |
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214 | that exist in the IPython user namespace. Nodes that are directly accessible are | |
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215 | the ones that have simple names which could also be Python variable names; | |
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216 | 'foo_1' will be accessible directly from IPython, whereas 'my scripts' will not. | |
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217 | If you want to access a node with arbitrary headline, add a child node '@a foo' | |
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218 | (@a stands for 'anchor'). Then, the parent of '@a foo' is accessible through | |
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219 | 'wb.foo'. | |
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220 | ||
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221 | You can see what nodes are accessible be entering (in IPython) wb.<TAB>. Example: | |
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222 | ||
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223 | [C:leo/src]|12> wb. | |
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224 | wb.b wb.tempfile wb.rfile wb.NewHeadline | |
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225 | wb.bar wb.Docs wb.strlist wb.csvr | |
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226 | ||
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227 | Suppose that we had a node with headline 'spam' and body: | |
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228 | ||
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229 | ['12',2222+32] | |
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230 | ||
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231 | we can access it from IPython (or from scripts entered into other Leo nodes!) by doing: | |
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232 | ||
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233 | C:leo/src]|19> wb.spam.v | |
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234 | <19> ['12', 2254] | |
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235 | ||
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236 | 'v' attribute stands for 'value', which means the node contents will be run | |
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237 | through 'eval' and everything you would be able to enter into IPython prompt | |
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238 | will be converted to objects. This mechanism can be extended far beyond direct | |
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239 | evaluation (see '@cl definitions'). | |
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240 | ||
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241 | 'v' attribute also has a setter, i.e. you can do: | |
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242 | ||
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243 | wb.spam.v = "mystring" | |
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244 | ||
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245 | Which will result in the node 'spam' having the following text: | |
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246 | ||
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247 | 'mystring' | |
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248 | ||
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249 | What assignment to 'v' does can be configured through generic functions | |
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250 | (simplegeneric module, will be explained later). | |
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251 | ||
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252 | Besides v, you can set the body text directly through wb.spam.b = | |
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253 | "some\nstring", headline by wb.spam.h = 'new_headline' (obviously you must | |
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254 | access the node through wb.new_headline from that point onwards), and access the | |
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255 | contents as string list (IPython SList) through 'wb.spam.l'. | |
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256 | ||
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257 | If you do 'wb.foo.v = 12' when node named 'foo' does not exist, the node titled | |
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258 | 'foo' will be automatically created and assigned body 12. | |
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259 | ||
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260 | @cl definitions | |
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261 | =============== | |
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262 | ||
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263 | If the first line in the body text is of the form '@cl sometext', IPython will | |
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264 | will evaluate 'sometext' and call the result with the rest of the body when you | |
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265 | do 'wb.foo.v'. An example is in place here. Suppose that we have defined a class | |
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266 | (I use the term class in a non-python sense here) | |
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267 | ||
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268 | {{{ | |
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269 | def rfile(body,n): | |
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270 | """ @cl rfile | |
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271 | ||
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272 | produces a StringIO (file like obj) of the rest of the body """ | |
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273 | ||
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274 | import StringIO | |
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275 | return StringIO.StringIO(body) | |
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276 | }}} | |
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277 | ||
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278 | Now, let's say you node 'spam' with text | |
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279 | ||
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280 | {{{ | |
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281 | @cl rfile | |
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282 | hello | |
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283 | world | |
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284 | and whatever | |
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285 | }}} | |
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286 | ||
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287 | Now, on IPython, we can do this: | |
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288 | ||
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289 | {{{ | |
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290 | [C:leo/src]|22> f = wb.spam.v | |
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291 | [C:leo/src]|23> f | |
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292 | <23> <StringIO.StringIO instance at 0x04E7E490> | |
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293 | [C:leo/src]|24> f.readline() | |
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294 | <24> u'hello\n' | |
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295 | [C:leo/src]|25> f.readline() | |
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296 | <25> u'world\n' | |
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297 | [C:leo/src]|26> f.readline() | |
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298 | <26> u'and whatever' | |
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299 | [C:leo/src]|27> f.readline() | |
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300 | <27> u'' | |
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301 | }}} | |
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302 | ||
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303 | You should declare new @cl types to make ILeo as convenient your problem domain as possible. For example, a "@cl etree" could return the elementtree object for xml content, or | |
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304 | ||
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305 | Special node types | |
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306 | ================== | |
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307 | ||
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308 | @ipy-startup | |
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309 | ------------ | |
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310 | ||
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311 | If this node exist, the *direct children* of this will be pushed to IPython when | |
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312 | ILeo is started (you press alt+5). Use it to push your own @cl definitions etc. | |
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313 | The contents of of the node itself will be ignored. | |
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314 | ||
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315 | @ipy-results | |
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316 | ------------ | |
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317 | ||
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318 | When you create a new node (wb.foo.v = 'stuff'), the node foo will be created as | |
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319 | a child of this node. If @ipy-results does not exist, the new node will be created after the currently selected node. | |
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320 | ||
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321 | @a nodes | |
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322 | -------- | |
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323 | ||
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324 | You can attach these as children of existing nodes to provide a way to access | |
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325 | nodes with arbitrary headlines, or to provide aliases to other nodes. If | |
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326 | multiple @a nodes are attached as children of a node, all the names can be used | |
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327 | to access the same object. | |
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328 | ||
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329 | Acknowledgements & History | |
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330 | ========================== | |
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331 | ||
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332 | This idea got started when I (Ville) saw this post by Edward Ream (the author of | |
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333 | Leo) on IPython developer mailing list: | |
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334 | ||
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335 | http://lists.ipython.scipy.org/pipermail/ipython-dev/2008-January/003551.html | |
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336 | ||
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337 | I was using FreeMind as mind mapping software, and so I had an immediate use | |
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338 | case for Leo (which, incidentally, is superior to FreeMind as mind mapper). The | |
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339 | wheels started rolling, I got obsessed with the power of this concept | |
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340 | (everything clicked together), and Edwards excitement paralleled mine. | |
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341 | Everything was mind-bogglingly easy/trivial, something that is typical of all | |
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342 | revolutionary technologies (think Python here). | |
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343 | ||
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344 | The discussion that "built" ILeo is here: | |
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345 | http://sourceforge.net/forum/forum.php?thread_id=1911662&forum_id=10226 | |
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346 | ||
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347 | </t> | |
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348 | <t tx="vivainio.20080222201226">1+2 | |
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349 | print "hello" | |
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350 | 3+4 | |
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351 | ||
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352 | def f(x): | |
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353 | return x.upper() | |
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354 | ||
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355 | f('hello world')</t> | |
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356 | <t tx="vivainio.20080222202211"></t> | |
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357 | <t tx="vivainio.20080222202211.1">@cl rfile | |
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358 | hello | |
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359 | world | |
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360 | and whatever</t> | |
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361 | <t tx="vivainio.20080222202211.2"></t> | |
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98 | 362 | </tnodes> |
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99 | 363 | </leo_file> |
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