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302 lines
11 KiB
Markdown
302 lines
11 KiB
Markdown
This document describes how to use the main Anselme modules. This is generated automatically from the source files.
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Note that this file only describes the `anselme` and `state.State` modules, which are only a selection of what I consider to be the "public API" of Anselme that I will try to keep stable.
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If you need more advanced control on Anselme, feel free to look into the other source files to find more; the most useful functions should all be reasonably commented.
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# anselme
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The main module.
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Usage:
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```lua
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local anselme = require("anselme")
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-- create a new state
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local state = anselme.new()
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state:load_stdlib()
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-- read an anselme script file
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local f = assert(io.open("script.ans"))
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local script = anselme.parse(f:read("a"), "script.ans")
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f:close()
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-- load the script in a new branch
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local run_state = state:branch()
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run_state:run(script)
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-- run the script
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while run_state:active() do
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local e, data = run_state:step()
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if e == "text" then
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for _, l in ipairs(data) do
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print(l:format(run_state))
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end
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elseif e == "choice" then
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for i, l in ipairs(data) do
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print(("%s> %s"):format(i, l:format(run_state)))
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end
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local choice = tonumber(io.read("l"))
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data:choose(choice)
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elseif e == "return" then
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run_state:merge()
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elseif e == "error" then
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error(data)
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end
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end
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```
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If `require("anselme")` fails with an error similar to `module 'anselme' not found`, you might need to redefine `package.path` before the require:
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```lua
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package.path = "path/?/init.lua;path/?.lua;" .. package.path -- where path is the directory where anselme is located
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require("anselme")
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```
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Anselme expects that `require("anselme.module")` will try loading both `anselme/module/init.lua` and `anselme/module.lua`, which may not be the case without the above code as `package.path`'s default value is system dependent, i.e. not my problem.
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### .version
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Global version string. Follow semver.
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_defined at line 57 of [anselme/init.lua](../anselme/init.lua):_ `version = "2.0.0-beta",`
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### .versions
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Table containing per-category version numbers. Incremented by one for any change that may break compatibility.
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_defined at line 60 of [anselme/init.lua](../anselme/init.lua):_ `versions = {`
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#### .language
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Version number for language and standard library changes.
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_defined at line 62 of [anselme/init.lua](../anselme/init.lua):_ `language = 29,`
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#### .save
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Version number for save/AST format changes.
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_defined at line 64 of [anselme/init.lua](../anselme/init.lua):_ `save = 6,`
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#### .api
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Version number for Lua API changes.
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_defined at line 66 of [anselme/init.lua](../anselme/init.lua):_ `api = 9`
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### .parse (code, source)
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Parse a `code` string and return the generated AST.
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`source` is an optional string; it will be used as the code source name in error messages.
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Usage:
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```lua
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local ast = anselme.parse("1 + 2", "test")
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ast:eval(state)
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```
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_defined at line 78 of [anselme/init.lua](../anselme/init.lua):_ `parse = function(code, source)`
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### .parse_file (path)
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Same as `:parse`, but read the code from a file.
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`source` will be set as the file path.
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_defined at line 83 of [anselme/init.lua](../anselme/init.lua):_ `parse_file = function(path)`
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### .new ()
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Return a new [State](#state).
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_defined at line 90 of [anselme/init.lua](../anselme/init.lua):_ `new = function()`
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---
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_file generated at 2024-01-17T13:39:30Z_
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# State
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Contains all state relative to an Anselme interpreter. Each State is fully independant from each other.
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Each State can run a single script at a time, and variable changes are isolated between each State (see [branching](#branching-and-merging)).
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### :load_stdlib (language)
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Load standard library.
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You will probably want to call this on every State right after creation.
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Optionally, you can specify `language` (string) to instead load a translated version of the standaring library. Available translations:
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* `"frFR"`
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_defined at line 48 of [anselme/state/State.lua](../anselme/state/State.lua):_ `load_stdlib = function(self, language)`
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## Branching and merging
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### .branch_id
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Name of the branch associated to this State.
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_defined at line 76 of [anselme/state/State.lua](../anselme/state/State.lua):_ `branch_id = "main",`
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### .source_branch
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State this State was branched from.
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_defined at line 78 of [anselme/state/State.lua](../anselme/state/State.lua):_ `source_branch = nil,`
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### :branch (branch_id)
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Return a new branch of this State.
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Branches act as indepent copies of this State where any change will not be reflected in the source State until it is merged back into the source branch.
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Note: probably makes the most sense to create branches from the main State only.
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_defined at line 84 of [anselme/state/State.lua](../anselme/state/State.lua):_ `branch = function(self, branch_id)`
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### :merge ()
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Merge everything that was changed in this branch back into the main State branch.
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Recommendation: only merge if you know that the state of the variables is consistent, for example at the end of the script, checkpoints, ...
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If your script errored or was interrupted at an unknown point in the script, you might be in the middle of a calculation and variables won't contain
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values you want to merge.
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_defined at line 93 of [anselme/state/State.lua](../anselme/state/State.lua):_ `merge = function(self)`
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## Variable definition
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### :define (name, value, func, raw_mode)
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Define a value in the global scope, converting it from Lua to Anselme if needed.
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* for lua functions: `define("name", "(x, y, z=5)", function(x, y, z) ... end)`, where arguments and return values of the function are automatically converted between anselme and lua values
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* for other lua values: `define("name", value)`
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* for anselme AST: `define("name", value)`
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`name` can be prefixed with symbol modifiers, for example "@name" for an exported variable.
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If `raw_mode` is true, no anselme-to/from-lua conversion will be performed in the function.
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The function will receive the state followed by AST nodes as arguments, and is expected to return an AST node.
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_defined at line 111 of [anselme/state/State.lua](../anselme/state/State.lua):_ `define = function(self, name, value, func, raw_mode)`
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### :define_local (name, value, func, raw_mode)
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Same as `:define`, but define the expression in the current scope.
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_defined at line 117 of [anselme/state/State.lua](../anselme/state/State.lua):_ `define_local = function(self, name, value, func, raw_mode)`
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### :defined (name)
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Returns false otherwise.
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_defined at line 122 of [anselme/state/State.lua](../anselme/state/State.lua):_ `defined = function(self, name)`
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### :defined_local (name)
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Same as `:defined`, but check if the variable is defined in the current scope.
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_defined at line 129 of [anselme/state/State.lua](../anselme/state/State.lua):_ `defined_local = function(self, name)`
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For anything more advanced, you can directly access the current scope stack stored in `state.scope`.
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See [state/ScopeStack.lua](../state/ScopeStack.lua) for details; the documentation is not as polished as this file but you should still be able to find your way around.
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## Saving and loading persistent variables
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### :save ()
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Return a serialized (string) representation of all persistent variables in this State.
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This can be loaded back later using `:load`.
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_defined at line 141 of [anselme/state/State.lua](../anselme/state/State.lua):_ `save = function(self)`
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### :load (save)
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Load a string generated by `:save`.
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Variables that already exist will be overwritten with the loaded data.
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_defined at line 148 of [anselme/state/State.lua](../anselme/state/State.lua):_ `load = function(self, save)`
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## Current script state
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### :active ()
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Indicate if a script is currently loaded in this branch.
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_defined at line 163 of [anselme/state/State.lua](../anselme/state/State.lua):_ `active = function(self)`
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### :state ()
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Returns `"running`" if a script is currently loaded and running (i.e. this was called from the script).
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Returns `"active"` if a script is loaded but not currently running (i.e. the script has not started or is waiting on an event).
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Returns `"inactive"` if no script is loaded.
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_defined at line 171 of [anselme/state/State.lua](../anselme/state/State.lua):_ `state = function(self)`
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### :run (code, source)
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Load a script in this branch. It will become the active script.
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`code` is the code string or AST to run. If `code` is a string, `source` is the source name string to show in errors (optional).
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Note that this will only load the script; execution will only start by using the `:step` method. Will error if a script is already active in this State.
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_defined at line 183 of [anselme/state/State.lua](../anselme/state/State.lua):_ `run = function(self, code, source)`
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### :run_file (path)
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Same as `:run`, but read the code from a file.
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`source` will be set as the file path.
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_defined at line 194 of [anselme/state/State.lua](../anselme/state/State.lua):_ `run_file = function(self, path)`
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### :step ()
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When a script is active, will resume running it until the next event.
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Will error if no script is active.
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Returns `event type string, event data`.
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_defined at line 205 of [anselme/state/State.lua](../anselme/state/State.lua):_ `step = function(self)`
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### :interrupt (code, source)
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Stops the currently active script.
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Will error if no script is active.
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If `code` is given, the script will not be disabled but instead will be immediately replaced with this new script.
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The new script will then be started on the next `:step` and will preserve the current scope. This can be used to trigger an exit function or similar in the active script.
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If this is called from within a running script, this will raise an `interrupt` event in order to stop the current script execution.
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_defined at line 225 of [anselme/state/State.lua](../anselme/state/State.lua):_ `interrupt = function(self, code, source)`
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### :eval (code, source)
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Evaluate an expression in the global scope.
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This can be called from outside a running script, but an error will be triggered the expression raise any event other than return.
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* returns AST in case of success. Run `:to_lua(state)` on it to convert to a Lua value.
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* returns `nil, error message` in case of error.
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_defined at line 249 of [anselme/state/State.lua](../anselme/state/State.lua):_ `eval = function(self, code, source)`
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### :eval_local (code, source)
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Same as `:eval`, but evaluate the expression in the current scope.
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_defined at line 256 of [anselme/state/State.lua](../anselme/state/State.lua):_ `eval_local = function(self, code, source)`
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If you want to perform more advanced manipulation of the resulting AST nodes, look at the `ast` modules.
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In particular, every Node inherits the methods from [ast.abstract.Node](../ast/abstract/Node.lua).
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Otherwise, each Node has its own module file defined in the [ast/](../ast) directory.
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---
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_file generated at 2024-01-17T13:39:30Z_
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