Linted utils

.rubocop.yml

@@ -13,6 +13,9 @@ Style/Documentation:
 Lint/MissingSuper:
   Enabled: false
 
+Style/ParallelAssignment:
+  Enabled: false
+
 Layout/EmptyLinesAroundAttributeAccessor:
   Enabled: true
 

utils/opcode_table_to_yaml.rb

@@ -1,91 +1,89 @@
 #!/usr/bin/env ruby
+# frozen_string_literal: true
 
-###############################################################################
-##  http://www.6502.org/tutorials/6502opcodes.html
-##  This web page has information about each and every 6502 instruction
-##  Specifically:
-##
-##  - Description of what each of the instructions do
-##  - Which modes are supported by which instructions, immediate, zero page
-##    zero page x, and y, absolute, indirect, relative etc.
-##  - The hex codes each instruction assembles to, in each mode.
-##  - The lengths in bytes of each instruction, by mode
-##  - The possibly variable number of cycles each instruction takes.
-##
-##  There are 56 of them, and in my programmer laziness I just wrote this
-##  script to parse the page into the data structure that you see in
-##  opcodes.yaml.  This really helped in creating the assembler, and
-##  it had basically everything I needed to know, and sped up writing
-##  this by huge factor.  So, yay to this page, and this script!
+##############################################################################
+# From http://www.6502.org/tutorials/6502opcodes.html
+# This web page has information about each and every 6502 instruction
+# Specifically:
+#
+# - Description of what each of the instructions do
+# - Which modes are supported by which instructions, immediate, zero page
+#   zero page x, and y, absolute, indirect, relative etc.
+# - The hex codes each instruction assembles to, in each mode.
+# - The lengths in bytes of each instruction, by mode
+# - The possibly variable number of cycles each instruction takes.
+#
+# There are 56 of them, and in my programmer laziness I just wrote this
+# script to parse the page into the data structure that you see in
+# opcodes.yaml.  This really helped in creating the assembler, and
+# it had basically everything I needed to know, and sped up writing
+# this by huge factor.  So, yay to this page, and this script!
 
 require 'yaml'
 
-##  Instruction name, and output structure to fill in.
+# Instruction name, and output structure to fill in.
 name = :adc
-output = {name => {}}
+output = { name: {} }
 
-##  Copy paste the tables from that website into this heredoc:
-text =<<-TEXT
-Immediate     ADC #$44      $69  2   2
-Zero Page     ADC $44       $65  2   3
-Zero Page,X   ADC $44,X     $75  2   4
-Absolute      ADC $4400     $6D  3   4
-Absolute,X    ADC $4400,X   $7D  3   4+
-Absolute,Y    ADC $4400,Y   $79  3   4+
-Indirect,X    ADC ($44,X)   $61  2   6
-Indirect,Y    ADC ($44),Y   $71  2   5+
+# Copy paste the tables from that website into this heredoc:
+text = <<~'TEXT'
+  Immediate     ADC #$44      $69  2   2
+  Zero Page     ADC $44       $65  2   3
+  Zero Page,X   ADC $44,X     $75  2   4
+  Absolute      ADC $4400     $6D  3   4
+  Absolute,X    ADC $4400,X   $7D  3   4+
+  Absolute,Y    ADC $4400,Y   $79  3   4+
+  Indirect,X    ADC ($44,X)   $61  2   6
+  Indirect,Y    ADC ($44),Y   $71  2   5+
 TEXT
 
-
-##  And now iterate over each line to extract the info
+# And now iterate over each line to extract the info
 lines = text.split(/\n/)
 lines.each do |line|
-
-  ##  Grab out the values we care about
+  # Grab out the values we care about
   parts = line.split
   cycles, len, hex = parts[-1], parts[-2], parts[-3]
-  hex = "0x%X" % hex.gsub('$', '').to_i(16)
+  hex = format('0x%X', hex.gsub('$', '').to_i(16))
 
   match_data = cycles.match(/([0-9]+)(\+?)/)
   cycles = match_data[1]
   boundary = match_data[2]
-  hash = {:hex => hex, :len => len, :cycles => cycles, :boundry_add => boundary != ""}
+  hash = { hex: hex, len: len, cycles: cycles, boundry_add: boundary != '' }
 
-  ##  And now decide which mode the line belongs to, collecting each listed mode
+  # And now decide which mode the line belongs to, collecting each listed mode
   hash = case line
-  when /^Accumulator/
-    {:accumulator => hash}
-  when /^Immediate/
-    {:immediate => hash}
-  when /^Zero Page,X/
-    {:zero_page_x => hash}
-  when /^Zero Page,Y/
-    {:zero_page_y => hash}
-  when /^Zero Page/
-    {:zero_page => hash}
-  when /^Absolute,X/
-    {:absolute_x => hash}
-  when /^Absolute,Y/
-    {:absolute_y => hash}
-  when /^Absolute/
-    {:absolute => hash}
-  when /^Indirect,X/
-    {:indirect_x => hash}
-  when /^Indirect,Y/
-    {:indirect_y => hash}
-  when /^Indirect/
-    {:indirect => hash}
-  when /^Implied/
-    {:implied => hash}
-  else
-    {}
-  end
+         when /^Accumulator/
+           { accumulator: hash }
+         when /^Immediate/
+           { immediate: hash }
+         when /^Zero Page,X/
+           { zero_page_x: hash }
+         when /^Zero Page,Y/
+           { zero_page_y: hash }
+         when /^Zero Page/
+           { zero_page: hash }
+         when /^Absolute,X/
+           { absolute_x: hash }
+         when /^Absolute,Y/
+           { absolute_y: hash }
+         when /^Absolute/
+           { absolute: hash }
+         when /^Indirect,X/
+           { indirect_x: hash }
+         when /^Indirect,Y/
+           { indirect_y: hash }
+         when /^Indirect/
+           { indirect: hash }
+         when /^Implied/
+           { implied: hash }
+         else
+           {}
+         end
   output[name].merge!(hash)
 end
 
-##  Now output some yaml, and I only had to do this about 45 times
-##  instead of laboriously and mistak-pronely doing it by hand.
+# Now output some yaml, and I only had to do this about 45 times
+# instead of laboriously and mistak-pronely doing it by hand.
 puts YAML.dump(output).gsub("'", '')
 
-##  See opcodes.yaml
-
+# See opcodes.yaml