Update README.md

README.md

@@ -2,20 +2,29 @@
 
 ### Formalizing Value Distribution Theory
 
-This project aims to formalize value distribution theory for meromorphic functions in the complex plane, roughly following the sections on Nevanlinna Theory in Serge Lang's "Introduction to Complex Hyperbolic Spaces". The project uses the lean4 computer language and builds on the lean mathematical library.
+This project aims to formalize value distribution theory for meromorphic
+functions in the complex plane, roughly following the sections on Nevanlinna
+Theory in Serge Lang's "Introduction to Complex Hyperbolic Spaces". The project
+uses the lean4 computer language and builds on the lean mathematical library.
 
-We are looking for collaborators. Please be in touch if you would like to join the fun!
+We are looking for collaborators. Please be in touch if you would like to join
+the fun!
 
 ## State of Affairs and Future Plans
 
-With the formalization of "Nevanlinna's First Main Theorem", the project has recently reached its first milestone. The current lean code has "proof of concept" quality: It compiles fine but needs refactoring and documentation. The next goals are as follows.
+With the formalization of "Nevanlinna's First Main Theorem", the project has
+recently reached its first milestone. The current code has "proof of concept"
+quality: It compiles fine but needs refactoring and documentation. The next
+goals are as follows.
 
-- Clean up the existing codebase and feed many of the intermediate results into the lean mathematical library
+- Clean up the existing codebase and feed intermediate results into the lean
+  mathematical library
 - Formalize the Theorem on Logarithmic Differentials
-- Formalize the Second Main Theorem of Nevanlinna Theory
+- Formalize the Second Main Theorem of value distribution theory
 - Establish some of the more immediate applications
 
-These plans might change, depending on feedback from the community and specific interests of project participants.
+These plans might change, depending on feedback from the community and specific
+interests of project participants.
 
 ## Material Covered
 
@@ -25,23 +34,27 @@ We touched on the following subjects.
     - Laplace operator and associated API
     - Definition and elementary properties of harmonic functions
     - Mean value properties of harmonic functions
-    - Real and imaginary parts of holomorphic functions as examples of harmonic functions
+    - Real and imaginary parts of holomorphic functions as examples of harmonic
+      functions
 - Holomorphic functions in the complex plane
-    - Existence of primitives
+    - Existence of primitives [duplication of work already under review at
+      mathlib]
     - Existence of holomorphic functions with given real part
 - Meromorphic Functions in the complex plane
-    - API for continuous extension of meromorphic functions and resolution of resolvable singularities, normal form of meromorphic functions up to changes along a discrete set
+    - API for continuous extension of meromorphic functions, normal form of
+      meromorphic functions up to changes along a discrete set
     - Behavior of pole/zero orders under standard operations
     - Zero/pole divisors attached to meromorphic functions and associated API
     - Extraction of zeros and poles
 - Integrals and integrability of special functions
-    - Interval integrals and integrability of the logarithm and its combinations with trigonometric functions; circle integrability of log ‖z-a‖
+    - Interval integrals and integrability of the logarithm and its combinations
+      with trigonometric functions; circle integrability of log ‖z-a‖
     - Circle integrability of log ‖meromorphic‖
 - Basic functions of Value Distribution Theory
-    - The positive part of the logarithm, API, standard inequalities and estimates
-    - Definition and main properties of the (logarithmic) counting function of a divisor
-    - Definition and main properties of the characteristic function (=Nevanlinna height function) for an entire meromorphic function
-    - Definition and main properties of the proximity function (=Nevanlinna height function) for entire meromorphic functions
+    - The positive part of the logarithm, API, standard inequalities and
+      estimates
+    - Logarithmic counting functions of divisors
+    - Nevanlinna heights of entire meromorphic functions
+    - Proximity functions for entire meromorphic functions
 - Jensen's formula
 - The First Main Theorem
-