Theory Rank
section‹Rank of a matrix›
theory Rank
imports
Rank_Nullity_Theorem.Dim_Formula
begin
subsection‹Row rank, column rank and rank›
text‹Definitions of row rank, column rank and rank›
definition row_rank :: "'a::{field}^'n^'m=>nat"
where "row_rank A = vec.dim (row_space A)"
definition col_rank :: "'a::{field}^'n^'m=>nat"
where "col_rank A = vec.dim (col_space A)"
lemma rank_def: "rank A = row_rank A"
by (auto simp: row_rank_def row_rank_def_gen row_space_def)
subsection‹Properties›
lemma rrk_is_preserved:
fixes A::"'a::{field}^'cols^'rows::{finite, wellorder}"
and P::"'a::{field}^'rows::{finite, wellorder}^'rows::{finite, wellorder}"
assumes inv_P: "invertible P"
shows "row_rank A = row_rank (P**A)"
by (metis row_space_is_preserved row_rank_def inv_P)
lemma crk_is_preserved:
fixes A::"'a::{field}^'cols::{finite, wellorder}^'rows"
and P::"'a::{field}^'rows^'rows"
assumes inv_P: "invertible P"
shows "col_rank A = col_rank (P**A)"
using rank_nullity_theorem_matrices unfolding ncols_def
by (metis col_rank_def inv_P add_left_cancel null_space_is_preserved)
end