def load(data: ScnDataReader) -> List[Effect]:
"""
Read all effects from here
"""
data.mark("effects")
num_effects = data.uint32()
return [Effect.read(data) for _ in range(0, num_effects)]
def load(data: ScnDataReader) -> List[ColorTable]:
"""
Read in all of the colors
"""
data.mark(name='colors')
num_color_tables = data.uint16(debug='num_color_tables')
return [ColorTable.read(data) for _ in range(0, num_color_tables)]
def load(data: ScnDataReader) -> List[Technology]:
"""
Read all technologies from here
"""
data.mark('technologies')
num_techs = data.int16(debug='num_techs')
return [Technology.read(data) for _ in range(0, num_techs)]
def load(data: ScnDataReader) -> List[Civilization]:
"""
Read all civilizations from here
"""
data.mark("civilizations")
num_civs = data.int16(debug='num_civs')
for i in range(0, num_civs):
data.uint8(debug='civ_type {}'.format(i))
data.string_fixed(size=20, debug='civ_name {}'.format(i))
civ_num_attributes = data.uint16(
debug='civ_num_attributes {}'.format(i))
civ_effect = data.int16(debug='civ_effect {}'.format(i))
# civ_bonus_effect = data.int16(debug='civ_bonus_effect {}'.format(i)) # Might not exist in AOE1 dat.
civ_attributes = [
data.float32(debug='civ_attribute {} {}'.format(i, x))
for x in range(0, civ_num_attributes)
]
civ_icon_set = data.uint8(debug='civ_icon_set {}'.format(i))
civ_num_units = data.uint16(debug='civ_num_units {}'.format(i))
civ_unit_available = [
data.boolean32(debug='civ_unit_available {} {}'.format(i, x))
for x in range(0, civ_num_units)
]
for j in range(0, civ_num_units):
if not civ_unit_available[j]:
continue
read_unit(data)
return []
def discard_extra_map_stuff(data: ScnDataReader):
data.mark("Extra map stuff")
# NB: Values from genie-rs skip way past random map data in AOE1 files.
# data.int32(debug='_map_row_offset')
# data.float32(debug='_map_min_x')
# data.float32(debug='_map_min_y')
# data.float32(debug='_map_max_x')
# data.float32(debug='_map_max_y')
# data.float32(debug='_map_max_x')
# data.float32(debug='_map_max_y')
# data.uint16(debug='_additional_terrain_count')
# data.uint16(debug='_borders_used')
# data.uint16(debug='_max_terrain')
# data.uint16(debug='_tile_width')
# data.uint16(debug='_tile_height')
# data.uint16(debug='_tile_half_width')
# data.uint16(debug='_tile_half_height')
# data.uint16(debug='_elev_height')
# data.uint16(debug='_current_row')
# data.uint16(debug='_current_column')
# data.uint16(debug='_block_begin_row')
# data.uint16(debug='_block_end_row')
# data.uint16(debug='_block_begin_column')
# data.uint16(debug='_block_end_column')
# data.int32(debug='_seach_map_pointer')
# data.int32(debug='_seach_map_rows_pointer')
# data.uint8(debug='_any_frame_change')
# data.uint8(debug='_map_visible')
# data.uint8(debug='_map_fog_of_war')
# data.read(21 + 157 * 4)
data.read(68)
def load(data: ScnDataReader):
# Terrain
data.mark(name='terrain')
# num_terrains_override = num_terrains
num_terrains_override = 32
for i in range(0, num_terrains_override):
data.boolean8(debug='terrain_enabled {}'.format(i))
data.uint8(debug='terrain_random {}'.format(i)) # always 0?
data.string_fixed(size=13, debug='terrain_name {}'.format(i))
data.string_fixed(size=13, debug='terrain_texture_name {}'.format(
i)) # Maybe read as int and test agains -1?
data.int32(debug='terrain_slp_id {}'.format(i))
data.int32(debug='terrain_slp_pointer {}'.format(i))
data.int32(debug='terrain_sound_id {}'.format(i))
data.uint8(debug='terrain_minimap_color_high {}'.format(
i)) # These colors are off-by-one compared with AGE.
data.uint8(debug='terrain_minimap_color_medium {}'.format(i))
data.uint8(debug='terrain_minimap_color_low {}'.format(i))
data.uint8(debug='terrain_minimap_color_cliff_lt {}'.format(i))
data.uint8(debug='terrain_minimap_color_cliff_rt {}'.format(i))
data.int8(debug='terrain_passable_id {}'.format(i))
data.int8(debug='terrain_impassable_id {}'.format(i))
# Animation
data.boolean8(debug='terrain_animation_enabled {}'.format(i))
data.int16(debug='terrain_anim_num_frames {}'.format(i))
data.int16(debug='terrain_anim_num_pause_frames {}'.format(i))
data.float32(debug='terrain_anim_frame_interval {}'.format(i))
data.float32(debug='terrain_anim_replay_delay {}'.format(i))
data.int16(debug='terrain_anim_frame {}'.format(i))
data.int16(debug='terrain_anim_draw_frame {}'.format(i))
data.float32(debug='terrain_anim_animate_last {}'.format(i))
data.boolean8(debug='terrain_anim_frame_changed {}'.format(i))
data.boolean8(debug='terrain_anim_drawn {}'.format(i))
# Elevation sprites
for j in range(0, 19):
data.uint16(debug="terrain_elevation_sprite_frames {} {}".format(
i, j)) # frames
data.uint16(debug="terrain_elevation_sprite_facets {} {}".format(
i, j)) # facets
data.uint16(debug="terrain_elevation_sprite_frame_id {} {}".format(
i, j)) # frame_id
data.int16(debug="terrain_to_draw {}".format(i))
data.uint16(debug="terrain_rows {}".format(i))
data.uint16(debug="terrain_cols {}".format(i))
# Borders
for j in range(0, num_terrains_override):
data.uint16(debug="terrain_border {} {}".format(i, j))
# Objects
for j in range(0, 30):
data.uint16(debug="terrain_object_id {} {}".format(i, j))
for j in range(0, 30):
data.int16(debug="terrain_density {} {}".format(i, j))
for j in range(0, 30):
data.int8(debug="terrain_placement_flag {} {}".format(
i, j)) # 0 for random, 1 for central
data.uint16(debug="terrain_object_count {}".format(i))
data.uint16(debug="padding {}".format(i))
return []
def read(data: ScnDataReader):
data.mark('random maps')
num_random_maps = data.uint32(debug='num_random_maps')
random_maps_pointer = data.uint32(debug='random_maps_pointer') # 39845000 in empires_up.dat
random_map_meta = [RandomMapMeta.read(data) for _ in range(0, num_random_maps)]
# Data from random_map_meta repeats here
random_maps = [RandomMap.read(data) for _ in range(0, num_random_maps)]
return RandomMapListWrapper(
num_random_maps,
random_maps_pointer,
random_map_meta,
random_maps
)
def load(data: ScnDataReader) -> List[Sprite]:
"""
Read all the sprites
"""
data.mark(name='sprites')
num_sprites = data.uint16(debug='num_sprites')
sprites_exist = [data.uint32() for _ in range(0, num_sprites)]
sprites = []
for sprite_id in range(0, num_sprites):
if sprites_exist[sprite_id] == 0:
continue
sprite = Sprite.read(data, sprite_id)
sprites.append(sprite)
return sprites
def discard_first_map_stuff(data: ScnDataReader):
data.mark(name='map tiles')
data.uint32(debug='__vfptr')
data.uint32(debug='map_pointer')
data.uint32(debug='map_width')
data.uint32(debug='map_height')
data.uint32(debug='world_width')
data.uint32(debug='world_height')
# Advanced Genie Editor describes these as "19 x (Width, Height, Delta Y) 1st is flat tile, then 2x8 elevation ties, then 2 1:1 tiles"
for i in range(0, 19):
data.int16(debug='tile width {}'.format(i))
data.int16(debug='tile height {}'.format(i))
data.int16(debug='tile delta_y {}'.format(i))
data.uint16(debug="padding?")
def read(data: ScnDataReader):
# Load header
file_version = data.string_fixed(size=4)
file_version_float = float(file_version)
header_size = data.uint32()
data.mark(name='SCN header', limit=header_size) # header size
header_version = data.uint32(debug='header_version')
if header_version >= 3:
# DE scenario a bit different
timestamp = data.uint32(debug='Timestamp maybe')
string_marker = data.uint16(debug='string_marker') # always 2656
description = data.string16(debug='description')
# Data sometimes here sometimes not. Need to check remaining bytes in header size to see if we can read it.
if header_size - data.bytes_read_since_mark >= 8:
# might not account for all possibilities for these fields
has_single_player_victory_condition = data.boolean32()
player_count = data.uint32()
else:
has_single_player_victory_condition = False
player_count = -1
scenario_header = ScnHeader(file_version=file_version_float,
header_version=header_version,
timestamp=timestamp,
description=description,
has_singleplayer_victory_condition=
has_single_player_victory_condition,
player_count=player_count)
else:
timestamp = data.uint32(debug='timestamp')
scenario_header = ScnHeader(
file_version=file_version_float,
header_version=header_version,
timestamp=timestamp,
description=data.string32(),
has_singleplayer_victory_condition=data.boolean32(),
player_count=data.uint32())
logging.debug(scenario_header)
data.unmark()
data.decompress()
return scenario_header
def load(data: ScnDataReader) -> List[TerrainTable]:
# Read the terrain tables
data.mark(name='terrain tables')
num_terrain_tables = data.uint16(debug='num_terrain_tables')
num_terrains = data.uint16(debug='num_terrains')
unknown_values = []
for terrain_table_id in range(0, num_terrain_tables):
unknown_value = data.uint32(
debug="terrain table {} unknown value".format(terrain_table_id))
unknown_values.append(unknown_value)
terrain_tables = []
for terrain_table_id in range(0, num_terrain_tables):
passable = [
data.float32("passability table={} terrain={}".format(
terrain_table_id, terrain_id))
for terrain_id in range(0, num_terrains)
]
terrain_tables.append(
TerrainTable(unknown_values[terrain_table_id], passable))
return terrain_tables
def load(file_name: str):
if not (file_name.endswith(".slp")):
raise Exception("SLP file must end with .slp")
with open(file_name, 'rb') as f:
all_data = f.read()
data = ScnDataReader(all_data)
header = SlpHeader.read(data)
frames = []
for i in range(0, header.frames):
data.mark('frame {}'.format(i))
frame_info = SlpFrameInfo.read(data)
# Sub-reader for outline data (identified by offset)
outline_region_start = frame_info.outline_table_offset
outline_region_end = outline_region_start + frame_info.height * 4
outline_reader = ScnDataReader(
all_data[outline_region_start:outline_region_end])
frame_outline = SlpOutline.read(outline_reader, frame_info.height)
# Sub-reader for pixel offsets
command_offset_region_start = frame_info.command_table_offset
command_offset_region_end = command_offset_region_start + frame_info.height * 4
command_offset_reader = ScnDataReader(
all_data[command_offset_region_start:command_offset_region_end])
command_offset = SlpCommandOffset.read(command_offset_reader,
frame_info.height)
# Sub-reader for pixel data (very inefficient..)
command_data_reader = ScnDataReader(all_data)
command_data_reader.read(
command_offset.row[0]
) # read and discard so that we don't need to do maths to find in-file offset
rows = []
for y in range(0, frame_info.height):
row = SlpRow.read(command_data_reader, frame_outline.row[y])
rows.append(row)
frames.append(SlpFrame(frame_info, rows))
return SlpFile(header, frames)
def load(data: ScnDataReader) -> List[TerrainBorder]:
"""
Read all of the terrain borders
"""
data.mark(name='terrain borders')
return [TerrainBorder.read(data) for _ in range(0, 16)]
def read_de(data: ScnDataReader):
version = data.float32(debug='version')
for i in range(0, 16):
data.uint16(debug='some number here') # 2656
data.string16(debug='player tribe name')
if version >= 3.13:
# These 16 bytes are not present in some DE scenarios bundled w/ the game, labelled version 3.125.
for i in range(0, 16):
# Guessing its a string ref, have not checked
data.int32(debug="unknown_string_ref for player {}".format(i))
for i in range(0, 16):
player_base_props = ScnPlayerBaseProperties.read(data)
logging.debug(player_base_props)
data.boolean32(debug='conquest maybe')
data.float32(debug='probable check field')
data.uint8(debug='unknown field')
data.uint16(debug='some number here') # 2656
data.string16(debug='scenario_name')
data.uint16(debug='some number here') # 2656
data.string16(debug='scenario_instructions')
data.uint16(debug='some number here') # 2656
data.string16(debug='history_string')
data.uint16(debug='some number here') # 2656
data.string16(debug='victory_string')
data.uint16(debug='some number here') # 2656
data.string16(debug='loss_string')
data.uint16(debug='some number here') # 2656
data.string16(debug='history_string')
data.int32(debug='instructions_string_reference')
data.uint16(debug='some_number_here') # 2656
data.string16(debug='instructions_vox')
data.int32(debug='hints_string_reference')
data.uint16(debug='some_number_here') # 2656
data.string16(debug='hints_vox')
data.int32(debug='victory_string_reference')
data.uint16(debug='some_number_here') # 2656
data.string16(debug='victory_vox')
data.int32(debug='loss_string_reference')
data.uint16(debug='some_number_here') # 2656
data.string16(debug='loss_vox')
data.int32(debug='history_string_reference')
data.uint16(debug='some_number_here') # 2656
data.string16(debug='history_vox')
# Not sure if cinematics or per-player personality, AI, city plans etc
data.uint16(debug='some_number_here') # 2656
data.string16(debug='unidentified_string 1') # ' <None> '
data.uint16(debug='some_number_here') # 2656
data.string16(debug='unidentified_string 2') # ' <None> '
data.uint16(debug='some_number_here') # 2656
data.string16(debug='unidentified_string 3') # ' <None> '
data.uint16(debug='some_number_here') # 2656
data.string16(debug='unidentified_string 4') # ' <None> '
data.uint32(debug='unidentified number 1') # 0
data.uint32(debug='unidentified number 2') # 0
data.uint32(debug='unidentified number 3') # 0
data.uint16(debug='unidentified number 4') # 1
for i in range(0, 16):
data.string16(debug="ai player {}".format(i))
for i in range(0, 16):
data.string16(debug="city plan player {}".format(i))
for i in range(0, 16):
data.string16(debug="personality player {}".format(i))
for i in range(0, 16):
some_length1 = data.uint32(debug='some length maybe')
some_length2 = data.uint32(debug='some length maybe')
some_length3 = data.uint32(debug='some length maybe')
data.string_fixed(some_length1, debug='some string 1')
data.string_fixed(some_length2, debug='some string 2')
data.string_fixed(some_length3, debug='some string 3')
check1 = data.int32(debug='check value 1')
if check1 != -99:
raise Exception("Check value did not match in scenario data, giving up")
if version < 3.13:
data.mark('extra data observed in 3.125 version')
for i in range(0, 32):
data.int32(debug='unknown value 1 {}'.format(i)) # 500
for i in range(0, 32):
data.int32(debug='unknown value 2 {}'.format(i)) # 0
check2 = data.int32(debug='check value 2')
if check2 != -99:
raise Exception("Check value did not match in scenario data, giving up")
rge_scen = ScnEngineProperties(
version
)
logging.debug(rge_scen)
return rge_scen
def load(data: ScnDataReader) -> List[Sound]:
data.mark(name='sounds')
num_sounds = data.uint16(debug='num_sounds')
return [Sound.read(data) for _ in range(0, num_sounds)]
def read_base_unit_props(data: ScnDataReader):
data.mark("base unit")
unit_name_len = data.uint16(debug='unit_name_len')
unit_id = data.int16(debug='unit_id')
unit_name_string_id = data.int16(debug='unit_name_string_id')
unit_creation_string_id = data.int16(debug='unit_creation_string_id')
unit_class = data.int16(debug='unit_class')
standing_sprite = data.int16(
debug='standing_sprite') # no standing sprite #2 here.. ?
dying_sprite = data.int16(debug='dying_sprite')
undead_sprite = data.int16(debug='undead_sprite')
undead_flag = data.int8(debug='undead_flag')
hp = data.uint16(debug='hp')
los = data.float32(debug='los')
garrison_capacity = data.uint8(debug='garrison_capacity')
collision_radius = (data.float32(debug='collision_radius1'),
data.float32(debug='collision_radius2'),
data.float32(debug='collision_radius3'))
unit_train_sound = data.int16(debug='train_sound')
# unit_damage_sound = data.int16(debug='damage_sound')
unit_death_spawn = data.int16(
debug='unit_death_spawn') # no unit_damage_sound here ??
unit_sort_number = data.uint8(debug='unit_sort_number')
unit_can_be_built_on = data.uint8(debug='unit_can_be_built_on')
unit_button_picture = data.int16(debug='unit_button_picture')
unit_hide_in_scenario_editor = data.boolean8(
debug='unit_hide_in_scenario_editor')
unit_portrait_picture = data.int16(debug='unit_portrait_picture')
unit_enabled = data.boolean8(
debug='unit_enabled') # no unit_disabled here ??
unit_tile_req = (data.int16(debug='unit_tile_req1'),
data.int16(debug='unit_tile_req2')
) # "Placement side terrains"
unit_center_tile_req = (data.int16(debug='unit_center_tile_req1'),
data.int16(debug='unit_center_tile_req1'))
unit_construction_radius = (data.float32(
debug='unit_construction_radius1'),
data.float32(
debug='unit_construction_radius2'))
unit_elevation_flag = data.boolean8(debug='unit_elevation_flag')
unit_fog_flag = data.boolean8(debug='unit_fog_flag')
unit_terrain_restriction_id = data.uint16(
debug='unit_terrain_restriction_id') # "terrain tables"
unit_movement_type = data.uint8(debug='unit_movement_type')
unit_attribute_max_amount = data.uint16(
debug='unit_attribute_max_amount') # resource capacity
unit_attribute_rot = data.float32(debug='unit_attribute_rot') # decay
unit_area_effect_level = data.uint8(debug='unit_area_effect_level')
unit_combat_level = data.uint8(debug='unit_combat_level')
unit_select_level = data.uint8(debug='unit_select_level')
unit_map_draw_level = data.uint8(debug='unit_map_draw_level')
unit_level = data.uint8(debug='unit_level')
unit_multiple_attribute_mod = data.float32(
debug='unit_multiple_attribute_mod')
unit_map_color = data.uint8(debug='unit_map_color')
unit_help_string_id = data.uint32('unit_help_string_id')
unit_help_page_id = data.uint32(debug='unit_help_page_id')
unit_hotkey_id = data.uint32(debug='unit_hotkey_id')
unit_recyclable = data.boolean8(debug='unit_recyclable')
unit_track_as_resource = data.boolean8(debug='unit_track_as_resource')
unit_create_doppleganger = data.boolean8(debug='unit_create_doppleganger')
unit_resource_group = data.uint8(
debug='unit_resource_group') # tree/stone/gold etc
unit_occlusion_mask = data.uint8(
debug='unit_occlusion_mask') # "hill mode" in AGE
unit_obstruction_type = data.uint8(
debug='unit_obstruction_type'
) # dropped unit_selection_shape, unit_civilization, unit_attribute_piece
# # object flags go here in later versions
selection_outline_radius = (
data.float32(debug='selection_outline_radius1'),
data.float32(debug='selection_outline_radius2'),
data.float32(debug='selection_outline_radius3'))
for i in range(0, 3):
attribute_res = data.int16(debug='attribute_res {}'.format(i))
attribute_amount = data.float32(debug='attribute_amount {}'.format(i))
attribute_store_mode = data.int8(
debug='attribute_store_mode {}'.format(i))
num_damage_sprites = data.uint8(debug='num_damage_sprites')
for i in range(0, num_damage_sprites):
damage_sprite = data.uint16(debug='damage_sprite {}'.format(i))
damage_percent = data.uint8(debug='damage_percent {}'.format(i))
damage_apply_mode = data.uint8(debug='damage_apply_mode {}'.format(i))
damage_unused = data.uint8(debug='damage_unused {}'.format(i))
unit_selected_sound = data.int16(debug='unit_selected_sound')
unit_death_sound = data.int16(debug='unit_death_sound')
unit_attack_reaction = data.uint8(debug='unit_attack_reaction')
unit_convert_terrain_flag = data.uint8(debug='unit_convert_terrain_flag')
unit_name = data.string_fixed(size=unit_name_len, debug='unit_name')
data.uint16(debug='unit_copy_id') # dropped unit_copy_id, unit_group
return unit_name
