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Linted test files
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@ -1,14 +1,11 @@
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gem 'minitest'
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require 'minitest/autorun'
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require 'minitest/unit'
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require_relative '../lib/n65.rb'
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require_relative '../lib/n65'
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class TestArithmeticSymbols < MiniTest::Test
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include N65
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def test_identify_plain_symbol
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re = Regexp.new(Regexes::Sym)
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assert_match(re, 'dog')
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@ -16,14 +13,12 @@ class TestArithmeticSymbols < MiniTest::Test
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assert_match(re, 'global.animal.dog')
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end
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def test_symbol_values
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st = SymbolTable.new
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st.define_symbol('variable', 0xff)
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assert_equal(0xff, st.resolve_symbol('variable'))
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end
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def test_perform_symbolic_arithmetic
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st = SymbolTable.new
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st.define_symbol('variable', 0x20)
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@ -31,7 +26,6 @@ class TestArithmeticSymbols < MiniTest::Test
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assert_equal(0x40, st.resolve_symbol('variable*2'))
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end
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def test_symbol_addition
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program = <<-ASM
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.ines {"prog": 1, "char": 0, "mapper": 0, "mirror": 0}
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@ -72,7 +66,4 @@ class TestArithmeticSymbols < MiniTest::Test
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]
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assert_equal(binary, correct)
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end
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end
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@ -1,82 +1,77 @@
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# frozen_string_literal: true
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gem 'minitest'
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require 'minitest/autorun'
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require 'minitest/unit'
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require_relative '../lib/n65/memory_space.rb'
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require_relative '../lib/n65/memory_space'
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class TestMemorySpace < MiniTest::Test
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include N65
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def test_create_prog_rom
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## First just try to read alll of it
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# First just try to read alll of it
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space = MemorySpace.create_prog_rom
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contents = space.read(0x8000, 0x4000)
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assert_equal(contents.size, 0x4000)
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assert(contents.all?{|byte| byte.zero?})
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assert(contents.all?(&:zero?))
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## It is mirrored so this should also work
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# It is mirrored so this should also work
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space = MemorySpace.create_prog_rom
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contents = space.read(0xC000, 0x4000)
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assert_equal(contents.size, 0x4000)
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assert(contents.all?{|byte| byte.zero?})
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assert(contents.all?(&:zero?))
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end
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def test_writing
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## Write some bytes into prog 2 area
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# Write some bytes into prog 2 area
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space = MemorySpace.create_prog_rom
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space.write(0xC000, "hi there".bytes)
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space.write(0xC000, 'hi there'.bytes)
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## Read them back..
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# Read them back..
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contents = space.read(0xC000, 8)
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assert_equal('hi there', contents.pack('C*'))
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## Should be mirrored in prog 1
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# Should be mirrored in prog 1
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contents = space.read(0x8000, 8)
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assert_equal('hi there', contents.pack('C*'))
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end
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def test_reading_out_of_bounds
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space = MemorySpace.create_prog_rom
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assert_raises(MemorySpace::AccessOutsideProgRom) do
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space.read(0x200, 10)
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end
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## But that is valid char rom area, so no explody
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# But that is valid char rom area, so no explody
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space = MemorySpace.create_char_rom
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space.read(0x200, 10)
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## But something like this should explode
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# But something like this should explode
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space = MemorySpace.create_char_rom
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assert_raises(MemorySpace::AccessOutsideCharRom) do
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space.read(0x8001, 10)
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end
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end
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####
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## There seem to be problems writing bytes right to
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## the end of the memory map, specifically where the
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## vector table is in prog rom, so let's test that.
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# There seem to be problems writing bytes right to
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# the end of the memory map, specifically where the
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# vector table is in prog rom, so let's test that.
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def test_writing_to_end
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space = MemorySpace.create_prog_rom
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bytes = [0xDE, 0xAD]
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## Write the NMI address to FFFA
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# Write the NMI address to FFFA
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space.write(0xFFFA, bytes)
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## Write the entry point to FFFC
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# Write the entry point to FFFC
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space.write(0xFFFC, bytes)
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## Write the irq to FFFE, and this fails, saying
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## I'm trying to write to $10000 for some reason.
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# Write the irq to FFFE, and this fails, saying
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# I'm trying to write to $10000 for some reason.
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space.write(0xFFFE, bytes)
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## Write to the very first
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# Write to the very first
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space.write(0x8000, bytes)
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end
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end
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@ -1,25 +1,23 @@
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# frozen_string_literal: true
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gem 'minitest'
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require 'minitest/autorun'
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require 'minitest/unit'
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require_relative '../lib/n65/symbol_table.rb'
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require_relative '../lib/n65.rb'
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require_relative '../lib/n65/symbol_table'
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require_relative '../lib/n65'
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class TestSymbolTable < MiniTest::Test
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include N65
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####
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## Test that we can make simple global symbols
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# Test that we can make simple global symbols
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def test_define_global_symbols
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st = SymbolTable.new
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st.define_symbol('dog', 'woof')
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assert_equal('woof', st.resolve_symbol('dog'))
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end
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####
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## Test entering into a sub scope, and setting and retrieving values
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# Test entering into a sub scope, and setting and retrieving values
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def test_enter_scope
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st = SymbolTable.new
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st.enter_scope('animals')
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@ -27,9 +25,7 @@ class TestSymbolTable < MiniTest::Test
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assert_equal('woof', st.resolve_symbol('dog'))
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end
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####
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## Access something from an outer scope without dot syntax
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# Access something from an outer scope without dot syntax
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def test_outer_scope
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st = SymbolTable.new
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st.enter_scope('outer')
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@ -39,9 +35,7 @@ class TestSymbolTable < MiniTest::Test
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assert_equal('woof', st.resolve_symbol('dog'))
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end
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####
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## Access something from an outer scope without dot syntax
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# Access something from an outer scope without dot syntax
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def test_shadow
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st = SymbolTable.new
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st.enter_scope('outer')
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@ -55,9 +49,7 @@ class TestSymbolTable < MiniTest::Test
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assert_equal('bark', st.resolve_symbol('outer.inner.dog'))
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end
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####
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## Test exiting a sub scope, and seeing that the variable is unavailable by simple name
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# Test exiting a sub scope, and seeing that the variable is unavailable by simple name
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def test_exit_scope
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st = SymbolTable.new
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st.enter_scope('animals')
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@ -71,9 +63,7 @@ class TestSymbolTable < MiniTest::Test
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end
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end
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####
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## Test exiting a sub scope, and being able to access a symbol through a full path
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# Test exiting a sub scope, and being able to access a symbol through a full path
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def test_exit_scope_full_path
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st = SymbolTable.new
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st.enter_scope('animals')
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@ -85,9 +75,7 @@ class TestSymbolTable < MiniTest::Test
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assert_equal('woof', st.resolve_symbol('animals.dog'))
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end
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####
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## Have two symbols that are the same but are in different scopes
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# Have two symbols that are the same but are in different scopes
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def test_two_scopes_same_symbol
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st = SymbolTable.new
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st.define_symbol('dog', 'woof')
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@ -104,10 +92,7 @@ class TestSymbolTable < MiniTest::Test
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assert_equal('woofwoof', st.resolve_symbol('animals.dog'))
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end
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####
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## How do you get stuff out of the global scope when you are in
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## a sub scope?
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# How do you get stuff out of the global scope when you are in a sub scope?
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def test_access_global_scope
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st = SymbolTable.new
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st.define_symbol('dog', 'woof')
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@ -117,13 +102,11 @@ class TestSymbolTable < MiniTest::Test
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st.define_symbol('pig', 'oink')
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assert_equal('oink', st.resolve_symbol('pig'))
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## Ok, now I want to access global.dog basically from the previous scope
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# Ok, now I want to access global.dog basically from the previous scope
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assert_equal('woof', st.resolve_symbol('global.dog'))
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end
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####
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## Now I want to just test making an anonymous scope
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# Now I want to just test making an anonymous scope
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def test_anonymous_scope
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st = SymbolTable.new
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st.define_symbol('dog', 'woof')
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@ -133,19 +116,17 @@ class TestSymbolTable < MiniTest::Test
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st.define_symbol('pig', 'oink')
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assert_equal('oink', st.resolve_symbol('pig'))
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## Ok, now I want to access global.dog basically from the previous scope
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# Ok, now I want to access global.dog basically from the previous scope
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assert_equal('woof', st.resolve_symbol('global.dog'))
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## Now exit the anonymous scope and get dog
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# Now exit the anonymous scope and get dog
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st.exit_scope
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assert_equal('woof', st.resolve_symbol('global.dog'))
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assert_equal('woof', st.resolve_symbol('dog'))
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end
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####
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## Now I want to test that I cannot exist the outer-most
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## global scope by mistake
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# Now I want to test that I cannot exist the outer-most
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# global scope by mistake
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def test_cant_exit_global
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st = SymbolTable.new
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assert_raises(SymbolTable::CantExitScope) do
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@ -153,10 +134,8 @@ class TestSymbolTable < MiniTest::Test
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end
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end
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####
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## I would like the name of the scope to take on the
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## value of the program counter at that location.
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# I would like the name of the scope to take on the
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# value of the program counter at that location.
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def test_scope_as_symbol
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program = <<-ASM
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.ines {"prog": 1, "char": 0, "mapper": 0, "mirror": 0}
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@ -172,7 +151,7 @@ class TestSymbolTable < MiniTest::Test
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jmp global.main
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ASM
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#### There really should be an evaluate string method
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# There really should be an evaluate string method
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assembler = Assembler.new
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program.split(/\n/).each do |line|
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assembler.assemble_one_line(line)
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@ -181,9 +160,7 @@ class TestSymbolTable < MiniTest::Test
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assert_equal(0x8000, assembler.symbol_table.resolve_symbol('global.main'))
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end
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####
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## Fix a bug where we can't see a forward declared symbol in a scope
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# Fix a bug where we can't see a forward declared symbol in a scope
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def test_foward_declaration_in_scope
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program = <<-ASM
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;;;;
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@ -208,7 +185,7 @@ class TestSymbolTable < MiniTest::Test
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.
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ASM
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#### There really should be an evaluate string method
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# There really should be an evaluate string method
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assembler = Assembler.new
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program.split(/\n/).each do |line|
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assembler.assemble_one_line(line)
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@ -216,23 +193,22 @@ class TestSymbolTable < MiniTest::Test
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puts YAML.dump(assembler.symbol_table)
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assembler.fulfill_promises
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#### The forward symbol should have been resolved to +3, and the ROM should look like this:
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correct_rom = [0x4e, 0x45, 0x53, 0x1a, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0,
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0x78, # SEI
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0xd8, # CLD
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0xa9, 0x0, # LDA immediate 0
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0xd0, 0x3, # BNE +3
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0xea, # NOP
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0xea, # NOP
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0xea, # NOP
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0x60 # RTS forward_symbol
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# The forward symbol should have been resolved to +3, and the ROM should look like this:
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correct_rom = [
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0x4e, 0x45, 0x53, 0x1a, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0,
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0x78, # SEI
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0xd8, # CLD
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0xa9, 0x0, # LDA immediate 0
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0xd0, 0x3, # BNE +3
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0xea, # NOP
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0xea, # NOP
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0xea, # NOP
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0x60 # RTS forward_symbol
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]
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#### Grab the first 26 bytes of the rom and make sure they assemble to the above
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# Grab the first 26 bytes of the rom and make sure they assemble to the above
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emitted_rom = assembler.emit_binary_rom.bytes[0...26]
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assert_equal(correct_rom, emitted_rom)
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#### Yup it is fixed now.
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# Yup it is fixed now.
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end
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end
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