commit 75087e5fdb00156dec73c35290684e1f225326c9
Author: redxef <federanko.manuel@gmail.com>
Date:   Thu Oct 20 03:32:45 2022 +0200

    Initial implementation and readme.

diff --git a/README.md b/README.md
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+# i3toolwait
+
+Launch a program and move it to the correct workspace.
+
+## Filtering
+
+The program allows to match the window or container based on the returned IPC data.
+Some programs might open multiple windows (looking at you, Discord).
+
+In order to move the correct window to the desired workspace a filter can be defined.
+
+The syntax for the filter is lisp-like. To view all spawned containers run the program
+with `--debug --filter=False` which will not match any windows and print their properties.
+
+It is then possible to construct a filter for any program.
+
+Available Operators:
+
+- and: `&`
+- or: `|`
+- eq: `=`
+- neq: `!=`
+- gt: `>`
+- lt: `<`
+
+The filter usually operates on the dictionary, and thus the *first* argument to every normal filter
+is the dictionary element, in `.` notation, as might be customary in `jq`.
+
+For example: `(> ".container.geometry.width" 300)` would match the first window where the width is greater than 300.
+
+Multiple filters are combined via nesting: `(& (> ".container.geometry.width" 300) (= ".container.window_properties.class" "discord"))`.
+
diff --git a/i3toolwait b/i3toolwait
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+#!/usr/bin/env python3
+# -*- coding: utf-8 -*-
+
+import enum
+import functools
+import itertools
+import json
+
+import click
+import i3ipc
+
+class Expression:
+    def __init__(self):
+        pass
+    def reduce(self, ipc_data):
+        return functools.reduce(self.reduce_function(ipc_data), self.children)
+    @property
+    def children(self):
+        raise NotImplemented('TODO: implement in subclass')
+    def reduce_function(self, ipc_data):
+        raise NotImplemented('TODO: implement in subclass')
+
+class LiteralExpression(Expression):
+    def __init__(self, value):
+        self._value = value
+    def __repr__(self) -> str:
+        return f'"{self._value}"'
+    @property
+    def children(self):
+        return [self._value]
+    def reduce_function(self, ipc_data):
+        def reduce(a, b):
+            raise NotImplemented('I should never be called')
+
+class IntLiteralExpression(LiteralExpression):
+    def __repr__(self) -> str:
+        return str(self._value)
+
+class BoolLiteralExpression(LiteralExpression):
+    def __repr__(self) -> str:
+        return str(self._value)
+
+class AndExpression(Expression):
+    def __init__(self, children, *args, **kwargs):
+        self._children = children
+        super().__init__(*args, **kwargs)
+    def __repr__(self) -> str:
+        cs = ' '.join([repr(c) for c in self.children])
+        return f'(& {cs})'
+    @property
+    def children(self):
+        return self._children
+    def reduce_function(self, ipc_data):
+        return lambda a, b: a.reduce(ipc_data) and b.reduce(ipc_data)
+
+class OrExpression(Expression):
+    def __init__(self, children, *args, **kwargs):
+        self._children = children
+        super().__init__(*args, **kwargs)
+    def __repr__(self) -> str:
+        cs = ' '.join([repr(c) for c in self.children])
+        return f'(| {cs})'
+    @property
+    def children(self):
+        return self._children
+    def reduce_function(self, ipc_data):
+        return lambda a, b: a.reduce(ipc_data) or b.reduce(ipc_data)
+
+class EqExpression(Expression):
+    def __init__(self, children, *args, **kwargs):
+        self._children = children
+        super().__init__(*args, **kwargs)
+    def __repr__(self) -> str:
+        cs = ' '.join([repr(c) for c in self.children])
+        return f'(= {cs})'
+    @property
+    def children(self):
+        return self._children
+    def reduce_function(self, ipc_data):
+        def reduce(key, value):
+            ipc_value = ipc_data
+            for k in key.reduce(ipc_data).strip('.').split('.'):
+                ipc_value = ipc_value[k]
+            return ipc_value == value.reduce(ipc_data)
+        return reduce
+
+class NeqExpression(Expression):
+    def __init__(self, children, *args, **kwargs):
+        self._children = children
+        super().__init__(*args, **kwargs)
+    def __repr__(self) -> str:
+        cs = ' '.join([repr(c) for c in self.children])
+        return f'(!= {cs})'
+    @property
+    def children(self):
+        return self._children
+    def reduce_function(self, ipc_data):
+        def reduce(key, value):
+            ipc_value = ipc_data
+            for k in key.reduce(ipc_data).strip('.').split('.'):
+                ipc_value = ipc_value[k]
+            return ipc_value != value.reduce(ipc_data)
+        return reduce
+
+class GtExpression(Expression):
+    def __init__(self, children, *args, **kwargs):
+        self._children = children
+        super().__init__(*args, **kwargs)
+    def __repr__(self) -> str:
+        cs = ' '.join([repr(c) for c in self.children])
+        return f'(> {cs})'
+    @property
+    def children(self):
+        return self._children
+    def reduce_function(self, ipc_data):
+        def reduce(key, value):
+            ipc_value = ipc_data
+            for k in key.reduce(ipc_data).strip('.').split('.'):
+                ipc_value = ipc_value[k]
+            return ipc_value > value.reduce(ipc_data)
+        return reduce
+
+class LtExpression(Expression):
+    def __init__(self, children, *args, **kwargs):
+        self._children = children
+        super().__init__(*args, **kwargs)
+    def __repr__(self) -> str:
+        cs = ' '.join([repr(c) for c in self.children])
+        return f'(< {cs})'
+    @property
+    def children(self):
+        return self._children
+    def reduce_function(self, ipc_data):
+        def reduce(key, value):
+            ipc_value = ipc_data
+            for k in key.reduce(ipc_data).strip('.').split('.'):
+                ipc_value = ipc_value[k]
+            return ipc_value < value.reduce(ipc_data)
+        return reduce
+
+expression_mapping = {
+    '&': AndExpression,
+    '|': OrExpression,
+    '=': EqExpression,
+    '!=': NeqExpression,
+    '>': GtExpression,
+    '<': LtExpression,
+}
+
+def group_tokens(tokens: list[str]):
+    groups = []
+    current_group = []
+    
+    brace_count = 0
+    for token in tokens:
+        if token == '(':
+            brace_count += 1
+        elif token == ')':
+            brace_count -= 1
+            if brace_count == 0:
+                groups += [current_group]
+                current_group = []
+        elif brace_count == 0:
+            groups += [[token]]
+        else:
+            current_group += [token]
+    return groups
+
+def build_expression(tokens: list[str]) -> Expression:
+    token_groups = group_tokens(tokens)
+
+    expressions = [build_expression(ts) for ts in token_groups[1:]] if len(token_groups) > 1 else []
+    root_expression = None
+    token = token_groups[0][0]
+    if token in expression_mapping:
+        root_expression = expression_mapping[token](expressions)
+    elif token.startswith('"'):
+        root_expression = LiteralExpression(token[1:-1])
+    elif token.isnumeric():
+        root_expression = IntLiteralExpression(int(token))
+    elif token in ('True', 'False'):
+        root_expression = BoolLiteralExpression(token == 'True')
+    assert isinstance(root_expression, Expression)
+    return root_expression
+    
+def take_space(s: str) -> tuple:
+    if s[0] in ' \n':
+        return None, s[1:]
+    return None, s
+
+def take_operator(s: str) -> tuple:
+    token = ''
+    for c in s:
+        if c in ''.join(set(expression_mapping.keys())): 
+            token += c
+        else:
+            break
+    if token == '':
+        return None, s
+    else:
+        return token, s[len(token):]
+
+def take_brace(s: str) -> tuple:
+    if s[0] in '()':
+        return s[0], s[1:]
+    else:
+        return None, s
+
+def take_literal(s: str) -> tuple:
+    token = '"'
+    if s[0] != '"':
+        return None, s
+    for c in s[1:]:
+        token += c
+        if c == '"':
+            break
+    if not token.endswith('"'):
+        raise ValueError('Missing closing quotes (`"`)')
+    return token, s[len(token):]
+
+def take_int_literal(s: str) -> tuple:
+    token = ''
+    for c in s:
+        if not c.isnumeric():
+            break
+        token += c
+    if token == '':
+        return None, s
+    return token, s[len(token):]
+
+def take_bool_literal(s: str) -> tuple:
+    if s.startswith('True'):
+        return 'True', s[len('True'):]
+    if s.startswith('False'):
+        return 'False', s[len('False'):]
+    return None, s
+
+def tokenize(s: str) -> list[str]:
+    operator_extractors = [
+        take_operator,
+        take_brace,
+        take_literal,
+        take_int_literal,
+        take_bool_literal,
+        take_space,
+    ]
+    tokens = []
+    while s != '':
+        previous_len = len(s)
+        for operator_extractor in operator_extractors:
+            token, s = operator_extractor(s)
+            if token is not None:
+                tokens += [token]
+                break
+        if len(s) == previous_len:
+            raise ValueError(f'Could not tokenize string {s}')
+    return tokens
+
+def parse(s: str) -> Expression:
+    tokens = tokenize(s)
+    return build_expression(tokens)
+
+
+def window_new(filter, *, workspace, debug):
+    def callback(ipc, e):
+        assert e.change == 'new'
+        if debug:
+            print(json.dumps(e.ipc_data))
+        if filter.reduce(e.ipc_data):
+            ipc.command(f'move container to workspace {workspace}')
+            ipc.main_quit()
+    return callback
+
+@click.command()
+@click.option('--filter', '-f', default='True', help="A filter expression for the raw ipc dictionary.")
+@click.option('--debug', '-d', default=False, is_flag=True, help="Enable debug mode, will log ipc dictionary.")
+@click.option('--workspace', '-w', required=True, help="The workspace to move to.")
+@click.argument('program', nargs=-1)
+def main(filter, debug, workspace, program):
+    """
+    Start a program and move it's created window to the desired i3 workspace.
+
+
+    """
+    filter = parse(filter)
+    ipc = i3ipc.Connection()
+    ipc.on('window::new', window_new(filter, workspace=workspace, debug=debug))
+    ipc.command(f'exec {program}')
+    ipc.main(timeout=10)
+
+if __name__ == '__main__':
+    main()