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didericis
2026-04-15 20:23:44 -04:00
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README.md
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# math-research
Personal mathematics research repository by Eric Bauerfeld. Papers are written in AMS-LaTeX using the `amsart` document class.
## Papers
### `kempe_style_search_for_smaller_contradiction`
**Humans Suffice: A Novel Proof of the Four Color Theorem**
An in-progress proof of the Four Color Theorem via a minimal counterexample argument. The paper builds on Kempe's 1879 strategy — establishing valid cases for vertices of degree ≤ 4, then extending the argument to the degree-5 case using properties of non-adjacent degree-5 vertices, merged subgraphs, and locked colorings.
### `plane_depth_labelling`
**Plane Depth Labelling**
Early-stage paper. Title and author information set; content in progress.
## Creating a New Paper
Use `run.sh` to scaffold a new paper from the AMS-LaTeX template:
```sh
./run.sh init_paper "Your Paper Title"
```
This creates a new directory (name derived from the title) containing a `paper.tex` pre-filled with the title and author.
## Setup
The Python library code in `lib/` requires SageMath. To set up the linting environment, run:
```sh
./run.sh setup
```
This creates a `.venv` using the SageMath Python interpreter and installs `pylint` into it.
## Linting
To lint the `lib/` directory:
```sh
./run.sh lint
```
This runs `pyright` (via `npx`) and `pylint` using the SageMath Python interpreter.
## Building
Papers are compiled with LaTeX. From within a paper directory:
```sh
latexmk -pdf paper.tex
```
lib/coloring.py
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"""Utilities for converting integer colorings to named colors."""
from typing import Any
COLORS = ['blue', 'red', 'green', 'yellow', 'purple']
def convert_coloring(
coloring: dict[Any, int],
vertices: list[Any] | None = None
) -> dict[str, list[Any]]:
"""Convert an integer coloring dict to a dict mapping color names to vertex lists."""
colors: dict[str, list[Any]] = {}
for k, v in coloring.items():
if vertices and k not in vertices:
continue
color = COLORS[v]
if color not in colors:
colors[color] = []
colors[color].append(k)
return colors
lib/dual_graph.py
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"""Utilities for working with planar dual graphs."""
from typing import Any
from sage.all import Graph
def find_vertex_for_dual_face(dual_face: Any) -> Any | None:
"""Return the primal vertex shared by all faces in the dual face, or None."""
shared_vertices = None
for dual_edge in dual_face:
vertices = set(map(lambda e: e[0], dual_edge[0]))
if shared_vertices:
shared_vertices.intersection_update(vertices)
else:
shared_vertices = vertices
if len(shared_vertices) == 1:
return shared_vertices.pop()
return None
def _dual_edge_has_vertex(dual_edge: Any, vertex: Any) -> bool:
return any(vertex in edge for dual_vertex in dual_edge for edge in dual_vertex)
def find_dual_face_for_removed_vertex(planar_dual: Graph, vertex: Any) -> Any | None:
"""Return the dual face of length 5 whose every dual edge contains the given vertex."""
for dual_face in list[Any](planar_dual.faces()): # type: ignore[call-arg]
if len(dual_face) == 5 and all(_dual_edge_has_vertex(de, vertex) for de in dual_face):
return dual_face
return None
lib/edge_for_dual_edge.py
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"""Utilities for finding primal edges corresponding to dual edges."""
from typing import Any, cast
def get_edge_for_dual_edge(dual_edge: Any) -> tuple[int, int, None]:
"""Return the primal edge shared by both faces of the given dual edge."""
edges: list[set[Any]] = []
for e in (dual_edge[0] + dual_edge[1]):
edge = set(e)
if edge in edges:
return cast(tuple[int, int, None], e)
edges.append(edge)
raise ValueError(f"Error finding edge for {dual_edge}")
lib/edge_graph.py
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"""Utilities for constructing edge graphs from planar graphs."""
from typing import Any, cast
from sage.all import Graph
def get_edge_graph_pos(edge_graph: Graph, pos_src: dict[Any, Any]) -> dict[Any, tuple[Any, Any]]:
"""Return a position dict for edge graph vertices, using midpoints of the source positions."""
pos: dict[Any, tuple[Any, Any]] = {}
for e in cast(list[Any], edge_graph.vertices()): # type: ignore
pos[e] = (
(pos_src[e[0]][0] + pos_src[e[1]][0]) / 2,
(pos_src[e[0]][1] + pos_src[e[1]][1]) / 2
)
return pos
def get_edge_graph(graph: Graph, set_pos: bool = True) -> Graph:
"""Return the edge graph of the given graph, optionally setting vertex positions."""
pos_src: dict[Any, Any] | None = None
pos: dict[Any, tuple[Any, Any]] = {}
if set_pos:
pos_src = cast(dict[Any, Any], graph.get_pos()) # type: ignore
g = Graph()
for e in cast(list[Any], graph.edges()): # type: ignore
g.add_vertex(e) # type: ignore
if pos_src:
pos[e] = (
(pos_src[e[0]][0] + pos_src[e[1]][0]) / 2,
(pos_src[e[0]][1] + pos_src[e[1]][1]) / 2
)
for v in cast(list[Any], graph.vertices()): # type: ignore
incident_edges = cast(list[Any], graph.edges_incident(v)) # type: ignore
if len(incident_edges) == 1:
continue
for i, e1 in enumerate(incident_edges):
e2 = incident_edges[(i + 1) % len(incident_edges)]
g.add_edge(e1, e2) # type: ignore
if set_pos:
g.set_pos(pos) # type: ignore
return g
lib/tait_coloring.py
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"""Utilities for computing Tait colorings from vertex colorings of the dual graph."""
from typing import Any, cast
from sage.all import Graph
from lib.edge_for_dual_edge import get_edge_for_dual_edge
def get_tait_coloring(planar_dual: Graph, coloring: dict[Any, int]) -> dict[Any, int]:
"""Return a Tait (edge 3-coloring) from a vertex 4-coloring of the dual graph."""
tait_coloring: dict[Any, int] = {}
for dual_edge in cast(list[Any], planar_dual.edges()): # type: ignore
edge = get_edge_for_dual_edge(dual_edge)
colors = {coloring[edge[0]], coloring[edge[1]]}
if colors in ({0, 1}, {2, 3}):
tait_coloring[dual_edge] = 0
elif colors in ({1, 2}, {0, 3}):
tait_coloring[dual_edge] = 1
else:
tait_coloring[dual_edge] = 2
return tait_coloring
lib/tutte_embedding.py
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"""Module for performing tutte embeddings"""
from typing import Iterable, cast, Any
from sage.all import vector, Graph, cos, pi, sin # type: ignore
def create_tutte_embedding(
graph: Graph,
outer_face: list[Any],
max_iter: int=50,
set_pos: bool = True) -> dict[Any, Any]:
"""
Performs a tutte force embedding with a prescribed outer face on
a given sage graph.
For a description on tutte embeddings, see the video [here](\
https://www.youtube.com/watch?v=mEzPPMhR8XE).
"""
radius = 1000
pos: dict[Any, Any] = {}
num_outer_points = len(outer_face)
for i, v in enumerate(outer_face):
pos[v] = (
radius * cos((i / num_outer_points) * 2 * pi),
radius * sin((i / num_outer_points) * 2 * pi)
)
# start off setting all other points to (0, 0)
num_inner_points = cast(int, graph.order()) - num_outer_points
for i, v in enumerate(cast(Iterable[Any], graph.vertices())): # type: ignore
if v in pos:
continue
pos[v] = (
radius/3 * cos((i / num_inner_points) * 2 * pi),
radius/3 * sin((i / num_inner_points) * 2 * pi)
)
i = 0
while i < max_iter:
for v in cast(Iterable[Any], graph.vertices()): # type: ignore
if v in outer_face:
continue
neighbors = cast(list[Any], graph.neighbors(v)) # type: ignore
deg = len(neighbors)
x_desired = sum(map(lambda n: pos[n][0], neighbors)) / deg
y_desired = sum(map(lambda n: pos[n][1], neighbors)) / deg
pos[v] = tuple(
vector(pos[v]) - vector([ # type: ignore
pos[v][0] - x_desired, pos[v][1] - y_desired
])
)
i += 1
if set_pos:
graph.set_pos(pos) # type: ignore
return pos
lib/vertex_coloring.py
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"""Utilities for verifying vertex colorings."""
from typing import Any, cast
from sage.all import Graph
def check_vertex_coloring(graph: Graph, vertex_coloring: dict[Any, int]) -> bool:
"""Raise ValueError if any two adjacent vertices share a color."""
for v in cast(list[Any], graph.vertices()): # type: ignore
for nv in cast(list[Any], graph.neighbors(v)): # type: ignore
if vertex_coloring[nv] == vertex_coloring[v]:
raise ValueError(f"Color {nv} equal to color {v}")
return True
pyrightconfig.json
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{
"extraPaths": [
"/Applications/SageMath-10-8.app/Contents/Frameworks/Sage.framework/Versions/10.8/local/lib/python3.13/site-packages"
],
"reportUnknownMemberType": "warning",
"reportUnknownArgumentType": "warning",
"reportUnknownParameterType": "warning",
"reportMissingParameterType": "warning",
"reportUnknownVariableType": "warning"
}
run.sh
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set -euo pipefail
SCRIPT_DIR="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
PYTHON_PATH="/Applications/SageMath-10-8.app/Contents/Frameworks/Sage.framework/Versions/10.8/local/bin/python3"
SAGE_SITE_PACKAGES="/Applications/SageMath-10-8.app/Contents/Frameworks/Sage.framework/Versions/10.8/local/lib/python3.13/site-packages"
VENV_PYTHON="$SCRIPT_DIR/.venv/bin/python3"
init_paper() {
local raw="${1:-.}"
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echo "Initialized paper.tex in $dest"
}
setup() {
"$PYTHON_PATH" -m venv "$SCRIPT_DIR/.venv"
"$VENV_PYTHON" -m pip install pylint
}
lint() {
npx pyright lib/ --pythonpath "$PYTHON_PATH"
"$VENV_PYTHON" -m pylint lib/ \
--init-hook="import sys; sys.path.insert(0, '${SAGE_SITE_PACKAGES}'); sys.path.insert(0, '${SCRIPT_DIR}')" \
--disable=fixme
}
case "${1:-}" in
init_paper)
shift
init_paper "$@"
;;
setup)
setup
;;
lint)
lint
;;
*)
echo "Usage: $0 {init_paper} [dest_dir]" >&2
echo "Usage: $0 {init_paper|setup|lint} [args]" >&2
exit 1
;;
esac