yyc12345/libcmo21
1
0
Fork 0
Code Activity

refactor: change repo layout

Browse Source
This commit is contained in:
yyc12345
2026-01-24 19:46:23 +08:00
parent 34de35dd31
commit c2dafab217
82 changed files with 0 additions and 170 deletions
Download Patch File Download Diff File Expand all files Collapse all files

364
Assets/BMapBindings/BMapSharp/.editorconfig Normal file
View File

@@ -0,0 +1,364 @@
root = true
# All files
[*]
indent_style = space
# Xml files
[*.xml]
indent_size = 2
# C# files
[*.cs]
#### Core EditorConfig Options ####
# Indentation and spacing
indent_size = 4
tab_width = 4
# New line preferences
end_of_line = crlf
insert_final_newline = false
#### .NET Coding Conventions ####
[*.{cs,vb}]
# Organize usings
dotnet_separate_import_directive_groups = false
dotnet_sort_system_directives_first = false
file_header_template = unset
# this. and Me. preferences
dotnet_style_qualification_for_event = false:silent
dotnet_style_qualification_for_field = false:silent
dotnet_style_qualification_for_method = false:silent
dotnet_style_qualification_for_property = false:silent
# Language keywords vs BCL types preferences
dotnet_style_predefined_type_for_locals_parameters_members = true:silent
dotnet_style_predefined_type_for_member_access = true:silent
# Parentheses preferences
dotnet_style_parentheses_in_arithmetic_binary_operators = always_for_clarity:silent
dotnet_style_parentheses_in_other_binary_operators = always_for_clarity:silent
dotnet_style_parentheses_in_other_operators = never_if_unnecessary:silent
dotnet_style_parentheses_in_relational_binary_operators = always_for_clarity:silent
# Modifier preferences
dotnet_style_require_accessibility_modifiers = for_non_interface_members:silent
# Expression-level preferences
dotnet_style_coalesce_expression = true:suggestion
dotnet_style_collection_initializer = true:suggestion
dotnet_style_explicit_tuple_names = true:suggestion
dotnet_style_null_propagation = true:suggestion
dotnet_style_object_initializer = true:suggestion
dotnet_style_operator_placement_when_wrapping = beginning_of_line
dotnet_style_prefer_auto_properties = true:suggestion
dotnet_style_prefer_compound_assignment = true:suggestion
dotnet_style_prefer_conditional_expression_over_assignment = true:suggestion
dotnet_style_prefer_conditional_expression_over_return = true:suggestion
dotnet_style_prefer_inferred_anonymous_type_member_names = true:suggestion
dotnet_style_prefer_inferred_tuple_names = true:suggestion
dotnet_style_prefer_is_null_check_over_reference_equality_method = true:suggestion
dotnet_style_prefer_simplified_boolean_expressions = true:suggestion
dotnet_style_prefer_simplified_interpolation = true:suggestion
# Field preferences
dotnet_style_readonly_field = true:warning
# Parameter preferences
dotnet_code_quality_unused_parameters = all:suggestion
# Suppression preferences
dotnet_remove_unnecessary_suppression_exclusions = none
#### C# Coding Conventions ####
[*.cs]
# var preferences
csharp_style_var_elsewhere = false:silent
csharp_style_var_for_built_in_types = false:silent
csharp_style_var_when_type_is_apparent = false:silent
# Expression-bodied members
csharp_style_expression_bodied_accessors = true:silent
csharp_style_expression_bodied_constructors = false:silent
csharp_style_expression_bodied_indexers = true:silent
csharp_style_expression_bodied_lambdas = true:suggestion
csharp_style_expression_bodied_local_functions = false:silent
csharp_style_expression_bodied_methods = false:silent
csharp_style_expression_bodied_operators = false:silent
csharp_style_expression_bodied_properties = true:silent
# Pattern matching preferences
csharp_style_pattern_matching_over_as_with_null_check = true:suggestion
csharp_style_pattern_matching_over_is_with_cast_check = true:suggestion
csharp_style_prefer_not_pattern = true:suggestion
csharp_style_prefer_pattern_matching = true:silent
csharp_style_prefer_switch_expression = true:suggestion
# Null-checking preferences
csharp_style_conditional_delegate_call = true:suggestion
# Modifier preferences
csharp_prefer_static_local_function = true:warning
csharp_preferred_modifier_order = public,private,protected,internal,static,extern,new,virtual,abstract,sealed,override,readonly,unsafe,volatile,async:silent
# Code-block preferences
csharp_prefer_braces = true:silent
csharp_prefer_simple_using_statement = true:suggestion
# Expression-level preferences
csharp_prefer_simple_default_expression = true:suggestion
csharp_style_deconstructed_variable_declaration = true:suggestion
csharp_style_inlined_variable_declaration = true:suggestion
csharp_style_pattern_local_over_anonymous_function = true:suggestion
csharp_style_prefer_index_operator = true:suggestion
csharp_style_prefer_range_operator = true:suggestion
csharp_style_throw_expression = true:suggestion
csharp_style_unused_value_assignment_preference = discard_variable:suggestion
csharp_style_unused_value_expression_statement_preference = discard_variable:silent
# 'using' directive preferences
csharp_using_directive_placement = outside_namespace:silent
#### C# Formatting Rules ####
# New line preferences
csharp_new_line_before_catch = false
csharp_new_line_before_else = false
csharp_new_line_before_finally = false
csharp_new_line_before_members_in_anonymous_types = true
csharp_new_line_before_members_in_object_initializers = true
csharp_new_line_before_open_brace = none
csharp_new_line_between_query_expression_clauses = true
# Indentation preferences
csharp_indent_block_contents = true
csharp_indent_braces = false
csharp_indent_case_contents = true
csharp_indent_case_contents_when_block = true
csharp_indent_labels = one_less_than_current
csharp_indent_switch_labels = true
# Space preferences
csharp_space_after_cast = false
csharp_space_after_colon_in_inheritance_clause = true
csharp_space_after_comma = true
csharp_space_after_dot = false
csharp_space_after_keywords_in_control_flow_statements = true
csharp_space_after_semicolon_in_for_statement = true
csharp_space_around_binary_operators = before_and_after
csharp_space_around_declaration_statements = false
csharp_space_before_colon_in_inheritance_clause = true
csharp_space_before_comma = false
csharp_space_before_dot = false
csharp_space_before_open_square_brackets = false
csharp_space_before_semicolon_in_for_statement = false
csharp_space_between_empty_square_brackets = false
csharp_space_between_method_call_empty_parameter_list_parentheses = false
csharp_space_between_method_call_name_and_opening_parenthesis = false
csharp_space_between_method_call_parameter_list_parentheses = false
csharp_space_between_method_declaration_empty_parameter_list_parentheses = false
csharp_space_between_method_declaration_name_and_open_parenthesis = false
csharp_space_between_method_declaration_parameter_list_parentheses = false
csharp_space_between_parentheses = false
csharp_space_between_square_brackets = false
# Wrapping preferences
csharp_preserve_single_line_blocks = true
csharp_preserve_single_line_statements = true
#### Naming styles ####
[*.{cs,vb}]
# Naming rules
dotnet_naming_rule.types_and_namespaces_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.types_and_namespaces_should_be_pascalcase.symbols = types_and_namespaces
dotnet_naming_rule.types_and_namespaces_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.interfaces_should_be_ipascalcase.severity = suggestion
dotnet_naming_rule.interfaces_should_be_ipascalcase.symbols = interfaces
dotnet_naming_rule.interfaces_should_be_ipascalcase.style = ipascalcase
dotnet_naming_rule.type_parameters_should_be_tpascalcase.severity = suggestion
dotnet_naming_rule.type_parameters_should_be_tpascalcase.symbols = type_parameters
dotnet_naming_rule.type_parameters_should_be_tpascalcase.style = tpascalcase
dotnet_naming_rule.methods_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.methods_should_be_pascalcase.symbols = methods
dotnet_naming_rule.methods_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.properties_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.properties_should_be_pascalcase.symbols = properties
dotnet_naming_rule.properties_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.events_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.events_should_be_pascalcase.symbols = events
dotnet_naming_rule.events_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.local_variables_should_be_camelcase.severity = suggestion
dotnet_naming_rule.local_variables_should_be_camelcase.symbols = local_variables
dotnet_naming_rule.local_variables_should_be_camelcase.style = camelcase
dotnet_naming_rule.local_constants_should_be_camelcase.severity = suggestion
dotnet_naming_rule.local_constants_should_be_camelcase.symbols = local_constants
dotnet_naming_rule.local_constants_should_be_camelcase.style = camelcase
dotnet_naming_rule.parameters_should_be_camelcase.severity = suggestion
dotnet_naming_rule.parameters_should_be_camelcase.symbols = parameters
dotnet_naming_rule.parameters_should_be_camelcase.style = camelcase
dotnet_naming_rule.public_fields_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.public_fields_should_be_pascalcase.symbols = public_fields
dotnet_naming_rule.public_fields_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.private_fields_should_be__camelcase.severity = suggestion
dotnet_naming_rule.private_fields_should_be__camelcase.symbols = private_fields
dotnet_naming_rule.private_fields_should_be__camelcase.style = _camelcase
dotnet_naming_rule.private_static_fields_should_be_s_camelcase.severity = suggestion
dotnet_naming_rule.private_static_fields_should_be_s_camelcase.symbols = private_static_fields
dotnet_naming_rule.private_static_fields_should_be_s_camelcase.style = s_camelcase
dotnet_naming_rule.public_constant_fields_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.public_constant_fields_should_be_pascalcase.symbols = public_constant_fields
dotnet_naming_rule.public_constant_fields_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.private_constant_fields_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.private_constant_fields_should_be_pascalcase.symbols = private_constant_fields
dotnet_naming_rule.private_constant_fields_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.public_static_readonly_fields_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.public_static_readonly_fields_should_be_pascalcase.symbols = public_static_readonly_fields
dotnet_naming_rule.public_static_readonly_fields_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.private_static_readonly_fields_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.private_static_readonly_fields_should_be_pascalcase.symbols = private_static_readonly_fields
dotnet_naming_rule.private_static_readonly_fields_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.enums_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.enums_should_be_pascalcase.symbols = enums
dotnet_naming_rule.enums_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.local_functions_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.local_functions_should_be_pascalcase.symbols = local_functions
dotnet_naming_rule.local_functions_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.non_field_members_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.non_field_members_should_be_pascalcase.symbols = non_field_members
dotnet_naming_rule.non_field_members_should_be_pascalcase.style = pascalcase
# Symbol specifications
dotnet_naming_symbols.interfaces.applicable_kinds = interface
dotnet_naming_symbols.interfaces.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.interfaces.required_modifiers =
dotnet_naming_symbols.enums.applicable_kinds = enum
dotnet_naming_symbols.enums.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.enums.required_modifiers =
dotnet_naming_symbols.events.applicable_kinds = event
dotnet_naming_symbols.events.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.events.required_modifiers =
dotnet_naming_symbols.methods.applicable_kinds = method
dotnet_naming_symbols.methods.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.methods.required_modifiers =
dotnet_naming_symbols.properties.applicable_kinds = property
dotnet_naming_symbols.properties.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.properties.required_modifiers =
dotnet_naming_symbols.public_fields.applicable_kinds = field
dotnet_naming_symbols.public_fields.applicable_accessibilities = public, internal
dotnet_naming_symbols.public_fields.required_modifiers =
dotnet_naming_symbols.private_fields.applicable_kinds = field
dotnet_naming_symbols.private_fields.applicable_accessibilities = private, protected, protected_internal, private_protected
dotnet_naming_symbols.private_fields.required_modifiers =
dotnet_naming_symbols.private_static_fields.applicable_kinds = field
dotnet_naming_symbols.private_static_fields.applicable_accessibilities = private, protected, protected_internal, private_protected
dotnet_naming_symbols.private_static_fields.required_modifiers = static
dotnet_naming_symbols.types_and_namespaces.applicable_kinds = namespace, class, struct, interface, enum
dotnet_naming_symbols.types_and_namespaces.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.types_and_namespaces.required_modifiers =
dotnet_naming_symbols.non_field_members.applicable_kinds = property, event, method
dotnet_naming_symbols.non_field_members.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.non_field_members.required_modifiers =
dotnet_naming_symbols.type_parameters.applicable_kinds = namespace
dotnet_naming_symbols.type_parameters.applicable_accessibilities = *
dotnet_naming_symbols.type_parameters.required_modifiers =
dotnet_naming_symbols.private_constant_fields.applicable_kinds = field
dotnet_naming_symbols.private_constant_fields.applicable_accessibilities = private, protected, protected_internal, private_protected
dotnet_naming_symbols.private_constant_fields.required_modifiers = const
dotnet_naming_symbols.local_variables.applicable_kinds = local
dotnet_naming_symbols.local_variables.applicable_accessibilities = local
dotnet_naming_symbols.local_variables.required_modifiers =
dotnet_naming_symbols.local_constants.applicable_kinds = local
dotnet_naming_symbols.local_constants.applicable_accessibilities = local
dotnet_naming_symbols.local_constants.required_modifiers = const
dotnet_naming_symbols.parameters.applicable_kinds = parameter
dotnet_naming_symbols.parameters.applicable_accessibilities = *
dotnet_naming_symbols.parameters.required_modifiers =
dotnet_naming_symbols.public_constant_fields.applicable_kinds = field
dotnet_naming_symbols.public_constant_fields.applicable_accessibilities = public, internal
dotnet_naming_symbols.public_constant_fields.required_modifiers = const
dotnet_naming_symbols.public_static_readonly_fields.applicable_kinds = field
dotnet_naming_symbols.public_static_readonly_fields.applicable_accessibilities = public, internal
dotnet_naming_symbols.public_static_readonly_fields.required_modifiers = readonly, static
dotnet_naming_symbols.private_static_readonly_fields.applicable_kinds = field
dotnet_naming_symbols.private_static_readonly_fields.applicable_accessibilities = private, protected, protected_internal, private_protected
dotnet_naming_symbols.private_static_readonly_fields.required_modifiers = readonly, static
dotnet_naming_symbols.local_functions.applicable_kinds = local_function
dotnet_naming_symbols.local_functions.applicable_accessibilities = *
dotnet_naming_symbols.local_functions.required_modifiers =
# Naming styles
dotnet_naming_style.pascalcase.required_prefix =
dotnet_naming_style.pascalcase.required_suffix =
dotnet_naming_style.pascalcase.word_separator =
dotnet_naming_style.pascalcase.capitalization = pascal_case
dotnet_naming_style.ipascalcase.required_prefix = I
dotnet_naming_style.ipascalcase.required_suffix =
dotnet_naming_style.ipascalcase.word_separator =
dotnet_naming_style.ipascalcase.capitalization = pascal_case
dotnet_naming_style.tpascalcase.required_prefix = T
dotnet_naming_style.tpascalcase.required_suffix =
dotnet_naming_style.tpascalcase.word_separator =
dotnet_naming_style.tpascalcase.capitalization = pascal_case
dotnet_naming_style._camelcase.required_prefix = _
dotnet_naming_style._camelcase.required_suffix =
dotnet_naming_style._camelcase.word_separator =
dotnet_naming_style._camelcase.capitalization = camel_case
dotnet_naming_style.camelcase.required_prefix =
dotnet_naming_style.camelcase.required_suffix =
dotnet_naming_style.camelcase.word_separator =
dotnet_naming_style.camelcase.capitalization = camel_case
dotnet_naming_style.s_camelcase.required_prefix = s_
dotnet_naming_style.s_camelcase.required_suffix =
dotnet_naming_style.s_camelcase.word_separator =
dotnet_naming_style.s_camelcase.capitalization = camel_case

398
Assets/BMapBindings/BMapSharp/.gitignore vendored Normal file
View File

@@ -0,0 +1,398 @@
## Ignore Visual Studio temporary files, build results, and
## files generated by popular Visual Studio add-ons.
##
## Get latest from https://github.com/github/gitignore/blob/main/VisualStudio.gitignore
# User-specific files
*.rsuser
*.suo
*.user
*.userosscache
*.sln.docstates
# User-specific files (MonoDevelop/Xamarin Studio)
*.userprefs
# Mono auto generated files
mono_crash.*
# Build results
[Dd]ebug/
[Dd]ebugPublic/
[Rr]elease/
[Rr]eleases/
x64/
x86/
[Ww][Ii][Nn]32/
[Aa][Rr][Mm]/
[Aa][Rr][Mm]64/
bld/
[Bb]in/
[Oo]bj/
[Ll]og/
[Ll]ogs/
# Visual Studio 2015/2017 cache/options directory
.vs/
# Uncomment if you have tasks that create the project's static files in wwwroot
#wwwroot/
# Visual Studio 2017 auto generated files
Generated\ Files/
# MSTest test Results
[Tt]est[Rr]esult*/
[Bb]uild[Ll]og.*
# NUnit
*.VisualState.xml
TestResult.xml
nunit-*.xml
# Build Results of an ATL Project
[Dd]ebugPS/
[Rr]eleasePS/
dlldata.c
# Benchmark Results
BenchmarkDotNet.Artifacts/
# .NET Core
project.lock.json
project.fragment.lock.json
artifacts/
# ASP.NET Scaffolding
ScaffoldingReadMe.txt
# StyleCop
StyleCopReport.xml
# Files built by Visual Studio
*_i.c
*_p.c
*_h.h
*.ilk
*.meta
*.obj
*.iobj
*.pch
*.pdb
*.ipdb
*.pgc
*.pgd
*.rsp
*.sbr
*.tlb
*.tli
*.tlh
*.tmp
*.tmp_proj
*_wpftmp.csproj
*.log
*.tlog
*.vspscc
*.vssscc
.builds
*.pidb
*.svclog
*.scc
# Chutzpah Test files
_Chutzpah*
# Visual C++ cache files
ipch/
*.aps
*.ncb
*.opendb
*.opensdf
*.sdf
*.cachefile
*.VC.db
*.VC.VC.opendb
# Visual Studio profiler
*.psess
*.vsp
*.vspx
*.sap
# Visual Studio Trace Files
*.e2e
# TFS 2012 Local Workspace
$tf/
# Guidance Automation Toolkit
*.gpState
# ReSharper is a .NET coding add-in
_ReSharper*/
*.[Rr]e[Ss]harper
*.DotSettings.user
# TeamCity is a build add-in
_TeamCity*
# DotCover is a Code Coverage Tool
*.dotCover
# AxoCover is a Code Coverage Tool
.axoCover/*
!.axoCover/settings.json
# Coverlet is a free, cross platform Code Coverage Tool
coverage*.json
coverage*.xml
coverage*.info
# Visual Studio code coverage results
*.coverage
*.coveragexml
# NCrunch
_NCrunch_*
.*crunch*.local.xml
nCrunchTemp_*
# MightyMoose
*.mm.*
AutoTest.Net/
# Web workbench (sass)
.sass-cache/
# Installshield output folder
[Ee]xpress/
# DocProject is a documentation generator add-in
DocProject/buildhelp/
DocProject/Help/*.HxT
DocProject/Help/*.HxC
DocProject/Help/*.hhc
DocProject/Help/*.hhk
DocProject/Help/*.hhp
DocProject/Help/Html2
DocProject/Help/html
# Click-Once directory
publish/
# Publish Web Output
*.[Pp]ublish.xml
*.azurePubxml
# Note: Comment the next line if you want to checkin your web deploy settings,
# but database connection strings (with potential passwords) will be unencrypted
*.pubxml
*.publishproj
# Microsoft Azure Web App publish settings. Comment the next line if you want to
# checkin your Azure Web App publish settings, but sensitive information contained
# in these scripts will be unencrypted
PublishScripts/
# NuGet Packages
*.nupkg
# NuGet Symbol Packages
*.snupkg
# The packages folder can be ignored because of Package Restore
**/[Pp]ackages/*
# except build/, which is used as an MSBuild target.
!**/[Pp]ackages/build/
# Uncomment if necessary however generally it will be regenerated when needed
#!**/[Pp]ackages/repositories.config
# NuGet v3's project.json files produces more ignorable files
*.nuget.props
*.nuget.targets
# Microsoft Azure Build Output
csx/
*.build.csdef
# Microsoft Azure Emulator
ecf/
rcf/
# Windows Store app package directories and files
AppPackages/
BundleArtifacts/
Package.StoreAssociation.xml
_pkginfo.txt
*.appx
*.appxbundle
*.appxupload
# Visual Studio cache files
# files ending in .cache can be ignored
*.[Cc]ache
# but keep track of directories ending in .cache
!?*.[Cc]ache/
# Others
ClientBin/
~$*
*~
*.dbmdl
*.dbproj.schemaview
*.jfm
*.pfx
*.publishsettings
orleans.codegen.cs
# Including strong name files can present a security risk
# (https://github.com/github/gitignore/pull/2483#issue-259490424)
#*.snk
# Since there are multiple workflows, uncomment next line to ignore bower_components
# (https://github.com/github/gitignore/pull/1529#issuecomment-104372622)
#bower_components/
# RIA/Silverlight projects
Generated_Code/
# Backup & report files from converting an old project file
# to a newer Visual Studio version. Backup files are not needed,
# because we have git ;-)
_UpgradeReport_Files/
Backup*/
UpgradeLog*.XML
UpgradeLog*.htm
ServiceFabricBackup/
*.rptproj.bak
# SQL Server files
*.mdf
*.ldf
*.ndf
# Business Intelligence projects
*.rdl.data
*.bim.layout
*.bim_*.settings
*.rptproj.rsuser
*- [Bb]ackup.rdl
*- [Bb]ackup ([0-9]).rdl
*- [Bb]ackup ([0-9][0-9]).rdl
# Microsoft Fakes
FakesAssemblies/
# GhostDoc plugin setting file
*.GhostDoc.xml
# Node.js Tools for Visual Studio
.ntvs_analysis.dat
node_modules/
# Visual Studio 6 build log
*.plg
# Visual Studio 6 workspace options file
*.opt
# Visual Studio 6 auto-generated workspace file (contains which files were open etc.)
*.vbw
# Visual Studio 6 auto-generated project file (contains which files were open etc.)
*.vbp
# Visual Studio 6 workspace and project file (working project files containing files to include in project)
*.dsw
*.dsp
# Visual Studio 6 technical files
*.ncb
*.aps
# Visual Studio LightSwitch build output
**/*.HTMLClient/GeneratedArtifacts
**/*.DesktopClient/GeneratedArtifacts
**/*.DesktopClient/ModelManifest.xml
**/*.Server/GeneratedArtifacts
**/*.Server/ModelManifest.xml
_Pvt_Extensions
# Paket dependency manager
.paket/paket.exe
paket-files/
# FAKE - F# Make
.fake/
# CodeRush personal settings
.cr/personal
# Python Tools for Visual Studio (PTVS)
__pycache__/
*.pyc
# Cake - Uncomment if you are using it
# tools/**
# !tools/packages.config
# Tabs Studio
*.tss
# Telerik's JustMock configuration file
*.jmconfig
# BizTalk build output
*.btp.cs
*.btm.cs
*.odx.cs
*.xsd.cs
# OpenCover UI analysis results
OpenCover/
# Azure Stream Analytics local run output
ASALocalRun/
# MSBuild Binary and Structured Log
*.binlog
# NVidia Nsight GPU debugger configuration file
*.nvuser
# MFractors (Xamarin productivity tool) working folder
.mfractor/
# Local History for Visual Studio
.localhistory/
# Visual Studio History (VSHistory) files
.vshistory/
# BeatPulse healthcheck temp database
healthchecksdb
# Backup folder for Package Reference Convert tool in Visual Studio 2017
MigrationBackup/
# Ionide (cross platform F# VS Code tools) working folder
.ionide/
# Fody - auto-generated XML schema
FodyWeavers.xsd
# VS Code files for those working on multiple tools
.vscode/*
!.vscode/settings.json
!.vscode/tasks.json
!.vscode/launch.json
!.vscode/extensions.json
*.code-workspace
# Local History for Visual Studio Code
.history/
# Windows Installer files from build outputs
*.cab
*.msi
*.msix
*.msm
*.msp
# JetBrains Rider
*.sln.iml

28
Assets/BMapBindings/BMapSharp/BMapSharp.sln Normal file
View File

@@ -0,0 +1,28 @@
Microsoft Visual Studio Solution File, Format Version 12.00
# Visual Studio Version 17
VisualStudioVersion = 17.0.31903.59
MinimumVisualStudioVersion = 10.0.40219.1
Project("{FAE04EC0-301F-11D3-BF4B-00C04F79EFBC}") = "BMapSharp", "BMapSharp\BMapSharp.csproj", "{604F426A-EC91-4E17-BE58-74565B24946C}"
EndProject
Project("{FAE04EC0-301F-11D3-BF4B-00C04F79EFBC}") = "BMapSharpTestbench", "BMapSharpTestbench\BMapSharpTestbench.csproj", "{3490D77F-119B-48EF-AA0B-E715EBE80DAA}"
EndProject
Global
GlobalSection(SolutionConfigurationPlatforms) = preSolution
Debug|Any CPU = Debug|Any CPU
Release|Any CPU = Release|Any CPU
EndGlobalSection
GlobalSection(SolutionProperties) = preSolution
HideSolutionNode = FALSE
EndGlobalSection
GlobalSection(ProjectConfigurationPlatforms) = postSolution
{604F426A-EC91-4E17-BE58-74565B24946C}.Debug|Any CPU.ActiveCfg = Debug|Any CPU
{604F426A-EC91-4E17-BE58-74565B24946C}.Debug|Any CPU.Build.0 = Debug|Any CPU
{604F426A-EC91-4E17-BE58-74565B24946C}.Release|Any CPU.ActiveCfg = Release|Any CPU
{604F426A-EC91-4E17-BE58-74565B24946C}.Release|Any CPU.Build.0 = Release|Any CPU
{3490D77F-119B-48EF-AA0B-E715EBE80DAA}.Debug|Any CPU.ActiveCfg = Debug|Any CPU
{3490D77F-119B-48EF-AA0B-E715EBE80DAA}.Debug|Any CPU.Build.0 = Debug|Any CPU
{3490D77F-119B-48EF-AA0B-E715EBE80DAA}.Release|Any CPU.ActiveCfg = Release|Any CPU
{3490D77F-119B-48EF-AA0B-E715EBE80DAA}.Release|Any CPU.Build.0 = Release|Any CPU
EndGlobalSection
EndGlobal

364
Assets/BMapBindings/BMapSharp/BMapSharp/.editorconfig Normal file
View File

@@ -0,0 +1,364 @@
root = true
# All files
[*]
indent_style = space
# Xml files
[*.xml]
indent_size = 2
# C# files
[*.cs]
#### Core EditorConfig Options ####
# Indentation and spacing
indent_size = 4
tab_width = 4
# New line preferences
end_of_line = crlf
insert_final_newline = false
#### .NET Coding Conventions ####
[*.{cs,vb}]
# Organize usings
dotnet_separate_import_directive_groups = false
dotnet_sort_system_directives_first = false
file_header_template = unset
# this. and Me. preferences
dotnet_style_qualification_for_event = false:silent
dotnet_style_qualification_for_field = false:silent
dotnet_style_qualification_for_method = false:silent
dotnet_style_qualification_for_property = false:silent
# Language keywords vs BCL types preferences
dotnet_style_predefined_type_for_locals_parameters_members = true:silent
dotnet_style_predefined_type_for_member_access = true:silent
# Parentheses preferences
dotnet_style_parentheses_in_arithmetic_binary_operators = always_for_clarity:silent
dotnet_style_parentheses_in_other_binary_operators = always_for_clarity:silent
dotnet_style_parentheses_in_other_operators = never_if_unnecessary:silent
dotnet_style_parentheses_in_relational_binary_operators = always_for_clarity:silent
# Modifier preferences
dotnet_style_require_accessibility_modifiers = for_non_interface_members:silent
# Expression-level preferences
dotnet_style_coalesce_expression = true:suggestion
dotnet_style_collection_initializer = true:suggestion
dotnet_style_explicit_tuple_names = true:suggestion
dotnet_style_null_propagation = true:suggestion
dotnet_style_object_initializer = true:suggestion
dotnet_style_operator_placement_when_wrapping = beginning_of_line
dotnet_style_prefer_auto_properties = true:suggestion
dotnet_style_prefer_compound_assignment = true:suggestion
dotnet_style_prefer_conditional_expression_over_assignment = true:suggestion
dotnet_style_prefer_conditional_expression_over_return = true:suggestion
dotnet_style_prefer_inferred_anonymous_type_member_names = true:suggestion
dotnet_style_prefer_inferred_tuple_names = true:suggestion
dotnet_style_prefer_is_null_check_over_reference_equality_method = true:suggestion
dotnet_style_prefer_simplified_boolean_expressions = true:suggestion
dotnet_style_prefer_simplified_interpolation = true:suggestion
# Field preferences
dotnet_style_readonly_field = true:warning
# Parameter preferences
dotnet_code_quality_unused_parameters = all:suggestion
# Suppression preferences
dotnet_remove_unnecessary_suppression_exclusions = none
#### C# Coding Conventions ####
[*.cs]
# var preferences
csharp_style_var_elsewhere = false:silent
csharp_style_var_for_built_in_types = false:silent
csharp_style_var_when_type_is_apparent = false:silent
# Expression-bodied members
csharp_style_expression_bodied_accessors = true:silent
csharp_style_expression_bodied_constructors = false:silent
csharp_style_expression_bodied_indexers = true:silent
csharp_style_expression_bodied_lambdas = true:suggestion
csharp_style_expression_bodied_local_functions = false:silent
csharp_style_expression_bodied_methods = false:silent
csharp_style_expression_bodied_operators = false:silent
csharp_style_expression_bodied_properties = true:silent
# Pattern matching preferences
csharp_style_pattern_matching_over_as_with_null_check = true:suggestion
csharp_style_pattern_matching_over_is_with_cast_check = true:suggestion
csharp_style_prefer_not_pattern = true:suggestion
csharp_style_prefer_pattern_matching = true:silent
csharp_style_prefer_switch_expression = true:suggestion
# Null-checking preferences
csharp_style_conditional_delegate_call = true:suggestion
# Modifier preferences
csharp_prefer_static_local_function = true:warning
csharp_preferred_modifier_order = public,private,protected,internal,static,extern,new,virtual,abstract,sealed,override,readonly,unsafe,volatile,async:silent
# Code-block preferences
csharp_prefer_braces = true:silent
csharp_prefer_simple_using_statement = true:suggestion
# Expression-level preferences
csharp_prefer_simple_default_expression = true:suggestion
csharp_style_deconstructed_variable_declaration = true:suggestion
csharp_style_inlined_variable_declaration = true:suggestion
csharp_style_pattern_local_over_anonymous_function = true:suggestion
csharp_style_prefer_index_operator = true:suggestion
csharp_style_prefer_range_operator = true:suggestion
csharp_style_throw_expression = true:suggestion
csharp_style_unused_value_assignment_preference = discard_variable:suggestion
csharp_style_unused_value_expression_statement_preference = discard_variable:silent
# 'using' directive preferences
csharp_using_directive_placement = outside_namespace:silent
#### C# Formatting Rules ####
# New line preferences
csharp_new_line_before_catch = false
csharp_new_line_before_else = false
csharp_new_line_before_finally = false
csharp_new_line_before_members_in_anonymous_types = true
csharp_new_line_before_members_in_object_initializers = true
csharp_new_line_before_open_brace = none
csharp_new_line_between_query_expression_clauses = true
# Indentation preferences
csharp_indent_block_contents = true
csharp_indent_braces = false
csharp_indent_case_contents = true
csharp_indent_case_contents_when_block = true
csharp_indent_labels = one_less_than_current
csharp_indent_switch_labels = true
# Space preferences
csharp_space_after_cast = false
csharp_space_after_colon_in_inheritance_clause = true
csharp_space_after_comma = true
csharp_space_after_dot = false
csharp_space_after_keywords_in_control_flow_statements = true
csharp_space_after_semicolon_in_for_statement = true
csharp_space_around_binary_operators = before_and_after
csharp_space_around_declaration_statements = false
csharp_space_before_colon_in_inheritance_clause = true
csharp_space_before_comma = false
csharp_space_before_dot = false
csharp_space_before_open_square_brackets = false
csharp_space_before_semicolon_in_for_statement = false
csharp_space_between_empty_square_brackets = false
csharp_space_between_method_call_empty_parameter_list_parentheses = false
csharp_space_between_method_call_name_and_opening_parenthesis = false
csharp_space_between_method_call_parameter_list_parentheses = false
csharp_space_between_method_declaration_empty_parameter_list_parentheses = false
csharp_space_between_method_declaration_name_and_open_parenthesis = false
csharp_space_between_method_declaration_parameter_list_parentheses = false
csharp_space_between_parentheses = false
csharp_space_between_square_brackets = false
# Wrapping preferences
csharp_preserve_single_line_blocks = true
csharp_preserve_single_line_statements = true
#### Naming styles ####
[*.{cs,vb}]
# Naming rules
dotnet_naming_rule.types_and_namespaces_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.types_and_namespaces_should_be_pascalcase.symbols = types_and_namespaces
dotnet_naming_rule.types_and_namespaces_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.interfaces_should_be_ipascalcase.severity = suggestion
dotnet_naming_rule.interfaces_should_be_ipascalcase.symbols = interfaces
dotnet_naming_rule.interfaces_should_be_ipascalcase.style = ipascalcase
dotnet_naming_rule.type_parameters_should_be_tpascalcase.severity = suggestion
dotnet_naming_rule.type_parameters_should_be_tpascalcase.symbols = type_parameters
dotnet_naming_rule.type_parameters_should_be_tpascalcase.style = tpascalcase
dotnet_naming_rule.methods_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.methods_should_be_pascalcase.symbols = methods
dotnet_naming_rule.methods_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.properties_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.properties_should_be_pascalcase.symbols = properties
dotnet_naming_rule.properties_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.events_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.events_should_be_pascalcase.symbols = events
dotnet_naming_rule.events_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.local_variables_should_be_camelcase.severity = suggestion
dotnet_naming_rule.local_variables_should_be_camelcase.symbols = local_variables
dotnet_naming_rule.local_variables_should_be_camelcase.style = camelcase
dotnet_naming_rule.local_constants_should_be_camelcase.severity = suggestion
dotnet_naming_rule.local_constants_should_be_camelcase.symbols = local_constants
dotnet_naming_rule.local_constants_should_be_camelcase.style = camelcase
dotnet_naming_rule.parameters_should_be_camelcase.severity = suggestion
dotnet_naming_rule.parameters_should_be_camelcase.symbols = parameters
dotnet_naming_rule.parameters_should_be_camelcase.style = camelcase
dotnet_naming_rule.public_fields_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.public_fields_should_be_pascalcase.symbols = public_fields
dotnet_naming_rule.public_fields_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.private_fields_should_be__camelcase.severity = suggestion
dotnet_naming_rule.private_fields_should_be__camelcase.symbols = private_fields
dotnet_naming_rule.private_fields_should_be__camelcase.style = _camelcase
dotnet_naming_rule.private_static_fields_should_be_s_camelcase.severity = suggestion
dotnet_naming_rule.private_static_fields_should_be_s_camelcase.symbols = private_static_fields
dotnet_naming_rule.private_static_fields_should_be_s_camelcase.style = s_camelcase
dotnet_naming_rule.public_constant_fields_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.public_constant_fields_should_be_pascalcase.symbols = public_constant_fields
dotnet_naming_rule.public_constant_fields_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.private_constant_fields_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.private_constant_fields_should_be_pascalcase.symbols = private_constant_fields
dotnet_naming_rule.private_constant_fields_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.public_static_readonly_fields_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.public_static_readonly_fields_should_be_pascalcase.symbols = public_static_readonly_fields
dotnet_naming_rule.public_static_readonly_fields_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.private_static_readonly_fields_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.private_static_readonly_fields_should_be_pascalcase.symbols = private_static_readonly_fields
dotnet_naming_rule.private_static_readonly_fields_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.enums_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.enums_should_be_pascalcase.symbols = enums
dotnet_naming_rule.enums_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.local_functions_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.local_functions_should_be_pascalcase.symbols = local_functions
dotnet_naming_rule.local_functions_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.non_field_members_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.non_field_members_should_be_pascalcase.symbols = non_field_members
dotnet_naming_rule.non_field_members_should_be_pascalcase.style = pascalcase
# Symbol specifications
dotnet_naming_symbols.interfaces.applicable_kinds = interface
dotnet_naming_symbols.interfaces.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.interfaces.required_modifiers =
dotnet_naming_symbols.enums.applicable_kinds = enum
dotnet_naming_symbols.enums.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.enums.required_modifiers =
dotnet_naming_symbols.events.applicable_kinds = event
dotnet_naming_symbols.events.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.events.required_modifiers =
dotnet_naming_symbols.methods.applicable_kinds = method
dotnet_naming_symbols.methods.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.methods.required_modifiers =
dotnet_naming_symbols.properties.applicable_kinds = property
dotnet_naming_symbols.properties.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.properties.required_modifiers =
dotnet_naming_symbols.public_fields.applicable_kinds = field
dotnet_naming_symbols.public_fields.applicable_accessibilities = public, internal
dotnet_naming_symbols.public_fields.required_modifiers =
dotnet_naming_symbols.private_fields.applicable_kinds = field
dotnet_naming_symbols.private_fields.applicable_accessibilities = private, protected, protected_internal, private_protected
dotnet_naming_symbols.private_fields.required_modifiers =
dotnet_naming_symbols.private_static_fields.applicable_kinds = field
dotnet_naming_symbols.private_static_fields.applicable_accessibilities = private, protected, protected_internal, private_protected
dotnet_naming_symbols.private_static_fields.required_modifiers = static
dotnet_naming_symbols.types_and_namespaces.applicable_kinds = namespace, class, struct, interface, enum
dotnet_naming_symbols.types_and_namespaces.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.types_and_namespaces.required_modifiers =
dotnet_naming_symbols.non_field_members.applicable_kinds = property, event, method
dotnet_naming_symbols.non_field_members.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.non_field_members.required_modifiers =
dotnet_naming_symbols.type_parameters.applicable_kinds = namespace
dotnet_naming_symbols.type_parameters.applicable_accessibilities = *
dotnet_naming_symbols.type_parameters.required_modifiers =
dotnet_naming_symbols.private_constant_fields.applicable_kinds = field
dotnet_naming_symbols.private_constant_fields.applicable_accessibilities = private, protected, protected_internal, private_protected
dotnet_naming_symbols.private_constant_fields.required_modifiers = const
dotnet_naming_symbols.local_variables.applicable_kinds = local
dotnet_naming_symbols.local_variables.applicable_accessibilities = local
dotnet_naming_symbols.local_variables.required_modifiers =
dotnet_naming_symbols.local_constants.applicable_kinds = local
dotnet_naming_symbols.local_constants.applicable_accessibilities = local
dotnet_naming_symbols.local_constants.required_modifiers = const
dotnet_naming_symbols.parameters.applicable_kinds = parameter
dotnet_naming_symbols.parameters.applicable_accessibilities = *
dotnet_naming_symbols.parameters.required_modifiers =
dotnet_naming_symbols.public_constant_fields.applicable_kinds = field
dotnet_naming_symbols.public_constant_fields.applicable_accessibilities = public, internal
dotnet_naming_symbols.public_constant_fields.required_modifiers = const
dotnet_naming_symbols.public_static_readonly_fields.applicable_kinds = field
dotnet_naming_symbols.public_static_readonly_fields.applicable_accessibilities = public, internal
dotnet_naming_symbols.public_static_readonly_fields.required_modifiers = readonly, static
dotnet_naming_symbols.private_static_readonly_fields.applicable_kinds = field
dotnet_naming_symbols.private_static_readonly_fields.applicable_accessibilities = private, protected, protected_internal, private_protected
dotnet_naming_symbols.private_static_readonly_fields.required_modifiers = readonly, static
dotnet_naming_symbols.local_functions.applicable_kinds = local_function
dotnet_naming_symbols.local_functions.applicable_accessibilities = *
dotnet_naming_symbols.local_functions.required_modifiers =
# Naming styles
dotnet_naming_style.pascalcase.required_prefix =
dotnet_naming_style.pascalcase.required_suffix =
dotnet_naming_style.pascalcase.word_separator =
dotnet_naming_style.pascalcase.capitalization = pascal_case
dotnet_naming_style.ipascalcase.required_prefix = I
dotnet_naming_style.ipascalcase.required_suffix =
dotnet_naming_style.ipascalcase.word_separator =
dotnet_naming_style.ipascalcase.capitalization = pascal_case
dotnet_naming_style.tpascalcase.required_prefix = T
dotnet_naming_style.tpascalcase.required_suffix =
dotnet_naming_style.tpascalcase.word_separator =
dotnet_naming_style.tpascalcase.capitalization = pascal_case
dotnet_naming_style._camelcase.required_prefix = _
dotnet_naming_style._camelcase.required_suffix =
dotnet_naming_style._camelcase.word_separator =
dotnet_naming_style._camelcase.capitalization = camel_case
dotnet_naming_style.camelcase.required_prefix =
dotnet_naming_style.camelcase.required_suffix =
dotnet_naming_style.camelcase.word_separator =
dotnet_naming_style.camelcase.capitalization = camel_case
dotnet_naming_style.s_camelcase.required_prefix = s_
dotnet_naming_style.s_camelcase.required_suffix =
dotnet_naming_style.s_camelcase.word_separator =
dotnet_naming_style.s_camelcase.capitalization = camel_case

1375
Assets/BMapBindings/BMapSharp/BMapSharp/BMap.cs Normal file
View File

File diff suppressed because it is too large Load Diff

23
Assets/BMapBindings/BMapSharp/BMapSharp/BMapSharp.csproj Normal file
View File

@@ -0,0 +1,23 @@
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<TargetFramework>net8.0</TargetFramework>
<ImplicitUsings>enable</ImplicitUsings>
<PackageId>BMapSharp</PackageId>
<Version>1.0.0</Version>
<Authors>yyc12345</Authors>
<Company>BearKidsTeam</Company>
</PropertyGroup>
<PropertyGroup Condition="$([System.OperatingSystem]::IsWindows())">
<DefineConstants>BMAP_OS_WINDOWS</DefineConstants>
</PropertyGroup>
<PropertyGroup Condition="$([System.OperatingSystem]::IsLinux()) Or $([System.OperatingSystem]::IsFreeBSD())">
<DefineConstants>BMAP_OS_LINUX</DefineConstants>
</PropertyGroup>
<PropertyGroup Condition="$([System.OperatingSystem]::IsMacOS())">
<DefineConstants>BMAP_OS_MACOS</DefineConstants>
</PropertyGroup>
</Project>

617
Assets/BMapBindings/BMapSharp/BMapSharp/BMapWrapper.cs Normal file
View File

@@ -0,0 +1,617 @@
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using BMapSharp.VirtoolsTypes;
namespace BMapSharp.BMapWrapper {
/// <summary>
/// The guard of native BMap environment.
/// This class initialize native BMap environment when constructing and free it when destructing.
/// </summary>
internal sealed class BMapGuard : SafeHandle {
private static readonly IntPtr MAGIC_HANDLE = (IntPtr)61;
internal BMapGuard() : base(Utils.INVALID_PTR, true) {
BMapException.ThrowIfFailed(BMap.BMInit());
this.handle = MAGIC_HANDLE;
}
public override bool IsInvalid => this.handle == Utils.INVALID_PTR;
protected override bool ReleaseHandle() {
return BMap.BMDispose();
}
}
public static class Utils {
#region Constant Values
/// <summary>The representation of invalid raw pointer.</summary>
internal static readonly IntPtr INVALID_PTR = IntPtr.Zero;
/// <summary>The representation of invalid CK_ID.</summary>
internal static readonly uint INVALID_CKID = 0u;
/// <summary>
/// The function used as callback for BMap.
/// It just writes the data in console.
/// </summary>
internal static void BMapSharpCallback(string msg) {
Console.WriteLine($"[BMapSharp] {msg}");
}
#endregion
#region Help Functions
private static void StructAssigner<T>(IntPtr pstruct, uint count, IEnumerable<T> iem) {
var stride = Marshal.SizeOf<T>();
var itor = iem.GetEnumerator();
for (uint i = 0; i < count; ++i) {
if (!itor.MoveNext()) throw new BMapException("The length of given data is too short when assigning struct array.");
Marshal.StructureToPtr<T>(itor.Current, pstruct, false);
pstruct += stride;
}
}
internal static void VxVector3Assigner(IntPtr pstruct, uint count, IEnumerable<VxVector3> iem)
=> StructAssigner<VxVector3>(pstruct, count, iem);
internal static void VxVector2Assigner(IntPtr pstruct, uint count, IEnumerable<VxVector2> iem)
=> StructAssigner<VxVector2>(pstruct, count, iem);
internal static void CKFaceIndicesAssigner(IntPtr pstruct, uint count, IEnumerable<CKFaceIndices> iem)
=> StructAssigner<CKFaceIndices>(pstruct, count, iem);
internal static void CKShortFaceIndicesAssigner(IntPtr pstruct, uint count, IEnumerable<CKShortFaceIndices> iem)
=> StructAssigner<CKShortFaceIndices>(pstruct, count, iem);
internal static void ShortAssigner(IntPtr pstruct, uint count, IEnumerable<short> iem)
=> StructAssigner<short>(pstruct, count, iem);
internal static void CKIDAssigner(IntPtr pstruct, uint count, IEnumerable<uint> iem)
=> StructAssigner<uint>(pstruct, count, iem);
internal static void CKDWORDAssigner(IntPtr pstruct, uint count, IEnumerable<uint> iem)
=> StructAssigner<uint>(pstruct, count, iem);
private static IEnumerable<T> StructIterator<T>(IntPtr pstruct, uint count) {
var stride = Marshal.SizeOf<T>();
for (uint i = 0; i < count; ++i) {
yield return Marshal.PtrToStructure<T>(pstruct);
pstruct += stride;
}
}
internal static IEnumerable<VxVector3> VxVector3Iterator(IntPtr pstruct, uint count)
=> StructIterator<VxVector3>(pstruct, count);
internal static IEnumerable<VxVector2> VxVector2Iterator(IntPtr pstruct, uint count)
=> StructIterator<VxVector2>(pstruct, count);
internal static IEnumerable<CKFaceIndices> CKFaceIndicesIterator(IntPtr pstruct, uint count)
=> StructIterator<CKFaceIndices>(pstruct, count);
internal static IEnumerable<CKShortFaceIndices> CKShortFaceIndicesIterator(IntPtr pstruct, uint count)
=> StructIterator<CKShortFaceIndices>(pstruct, count);
internal static IEnumerable<short> ShortIterator(IntPtr pstruct, uint count)
=> StructIterator<short>(pstruct, count);
internal static IEnumerable<uint> CKIDIterator(IntPtr pstruct, uint count)
=> StructIterator<uint>(pstruct, count);
internal static IEnumerable<uint> CKDWORDIterator(IntPtr pstruct, uint count)
=> StructIterator<uint>(pstruct, count);
#endregion
#region End User Exposed
private static readonly BMapGuard Singleton = new BMapGuard();
public static bool IsBMapAvailable() {
return !Singleton.IsInvalid;
}
#endregion
}
// TODO: Maybe I need to implement IEquatable, IComparable<T>, and IComparable for AbstractPointer and AbstractCKObject.
// But I give it up. I am lazy. What I have written barely works for me now.
public abstract class AbstractPointer : SafeHandle, IEquatable<AbstractPointer> {
internal AbstractPointer(IntPtr raw_pointer) : base(Utils.INVALID_PTR, true) {
this.handle = raw_pointer;
}
public override bool IsInvalid => this.handle == Utils.INVALID_PTR;
protected override bool ReleaseHandle() => throw new NotImplementedException();
internal bool isValid() => this.handle != Utils.INVALID_PTR;
internal IntPtr getPointer() => this.handle;
#region IEquatable
public override bool Equals(object obj) => this.Equals(obj as AbstractPointer);
public bool Equals(AbstractPointer obj) {
if (obj is null) return false;
// Optimization for a common success case
if (Object.ReferenceEquals(this, obj)) return true;
// If run-time types are not exactly the same, return false.
if (this.GetType() != obj.GetType()) return false;
// Return true if the fields match.
return this.handle == obj.handle;
}
public override int GetHashCode() => this.handle.GetHashCode();
public static bool operator ==(AbstractPointer lhs, AbstractPointer rhs) {
if (lhs is null) {
if (rhs is null) return true;
// Only left side is null.
return false;
}
// Equals handles case of null on right side
return lhs.Equals(rhs);
}
public static bool operator !=(AbstractPointer lhs, AbstractPointer rhs) => !(lhs == rhs);
#endregion
#region Misc
public override string ToString() => this.handle.ToString();
#endregion
}
public abstract class AbstractCKObject : SafeHandle, IEquatable<AbstractCKObject> {
// Same as AbstractPointer, but not own this handle.
internal AbstractCKObject(IntPtr raw_pointer, uint ckid) : base(Utils.INVALID_PTR, false) {
this.handle = raw_pointer;
m_CKID = ckid;
}
public override bool IsInvalid => this.handle == Utils.INVALID_PTR;
protected override bool ReleaseHandle() => throw new NotImplementedException();
private readonly uint m_CKID;
internal bool isValid() => this.handle != Utils.INVALID_PTR && m_CKID != Utils.INVALID_CKID;
internal IntPtr getPointer() => this.handle;
internal uint getCKID() => m_CKID;
#region IEquatable
public override bool Equals(object obj) => this.Equals(obj as AbstractCKObject);
public bool Equals(AbstractCKObject obj) {
if (obj is null) return false;
// Optimization for a common success case
if (Object.ReferenceEquals(this, obj)) return true;
// If run-time types are not exactly the same, return false.
if (this.GetType() != obj.GetType()) return false;
// Return true if the fields match.
return (this.m_CKID == obj.m_CKID) && (this.handle == obj.handle);
}
public override int GetHashCode() => HashCode.Combine(this.handle, m_CKID);
public static bool operator ==(AbstractCKObject lhs, AbstractCKObject rhs) {
if (lhs is null) {
if (rhs is null) return true;
// Only left side is null.
return false;
}
// Equals handles case of null on right side
return lhs.Equals(rhs);
}
public static bool operator !=(AbstractCKObject lhs, AbstractCKObject rhs) => !(lhs == rhs);
#endregion
#region Misc
public override string ToString() => $"{this.handle}, {m_CKID}";
#endregion
#region Subclass Utilities
protected delegate bool FctGenericValueGetter<T>(IntPtr bmf, uint id, out T val);
protected delegate bool FctGenericValueSetter<T>(IntPtr bmf, uint id, T val);
[MethodImpl(MethodImplOptions.AggressiveInlining)]
protected T getGenericValue<T>(FctGenericValueGetter<T> fct) {
BMapException.ThrowIfFailed(fct(getPointer(), getCKID(), out T out_val));
return out_val;
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
protected void setGenericValue<T>(FctGenericValueSetter<T> fct, T val) {
BMapException.ThrowIfFailed(fct(getPointer(), getCKID(), val));
}
#endregion
}
public class BMObject : AbstractCKObject {
internal BMObject(IntPtr raw_pointer, uint ckid) : base(raw_pointer, ckid) { }
public string GetName() => getGenericValue<string>(BMap.BMObject_GetName);
public void SetName(string name) => setGenericValue<string>(BMap.BMObject_SetName, name);
}
public class BMTexture : BMObject {
internal BMTexture(IntPtr raw_pointer, uint ckid) : base(raw_pointer, ckid) { }
public string GetFileName() => getGenericValue<string>(BMap.BMTexture_GetFileName);
public void LoadImage(string filepath) {
BMapException.ThrowIfFailed(BMap.BMTexture_LoadImage(getPointer(), getCKID(), filepath));
}
public void SaveImage(string filepath) {
BMapException.ThrowIfFailed(BMap.BMTexture_SaveImage(getPointer(), getCKID(), filepath));
}
public CK_TEXTURE_SAVEOPTIONS GetSaveOptions() => getGenericValue<CK_TEXTURE_SAVEOPTIONS>(BMap.BMTexture_GetSaveOptions);
public void SetSaveOptions(CK_TEXTURE_SAVEOPTIONS opt) => setGenericValue<CK_TEXTURE_SAVEOPTIONS>(BMap.BMTexture_SetSaveOptions, opt);
public VX_PIXELFORMAT GetVideoFormat() => getGenericValue<VX_PIXELFORMAT>(BMap.BMTexture_GetVideoFormat);
public void SetVideoFormat(VX_PIXELFORMAT vfmt) => setGenericValue<VX_PIXELFORMAT>(BMap.BMTexture_SetVideoFormat, vfmt);
}
public class BMMaterial : BMObject {
internal BMMaterial(IntPtr raw_pointer, uint ckid) : base(raw_pointer, ckid) { }
public VxColor GetDiffuse() => getGenericValue<VxColor>(BMap.BMMaterial_GetDiffuse);
public void SetDiffuse(VxColor col) => setGenericValue<VxColor>(BMap.BMMaterial_SetDiffuse, col);
public VxColor GetAmbient() => getGenericValue<VxColor>(BMap.BMMaterial_GetAmbient);
public void SetAmbient(VxColor col) => setGenericValue<VxColor>(BMap.BMMaterial_SetAmbient, col);
public VxColor GetSpecular() => getGenericValue<VxColor>(BMap.BMMaterial_GetSpecular);
public void SetSpecular(VxColor col) => setGenericValue<VxColor>(BMap.BMMaterial_SetSpecular, col);
public VxColor GetEmissive() => getGenericValue<VxColor>(BMap.BMMaterial_GetEmissive);
public void SetEmissive(VxColor col) => setGenericValue<VxColor>(BMap.BMMaterial_SetEmissive, col);
public float GetSpecularPower() => getGenericValue<float>(BMap.BMMaterial_GetSpecularPower);
public void SetSpecularPower(float val) => setGenericValue<float>(BMap.BMMaterial_SetSpecularPower, val);
public VxColor GetTextureBorderColor() {
BMapException.ThrowIfFailed(BMap.BMMaterial_GetTextureBorderColor(getPointer(), getCKID(), out uint out_val));
return new VxColor(out_val);
}
public void SetTextureBorderColor(VxColor col) {
BMapException.ThrowIfFailed(BMap.BMMaterial_SetTextureBorderColor(getPointer(), getCKID(), col.ToDword()));
}
public VXTEXTURE_BLENDMODE GetTextureBlendMode() => getGenericValue<VXTEXTURE_BLENDMODE>(BMap.BMMaterial_GetTextureBlendMode);
public void SetTextureBlendMode(VXTEXTURE_BLENDMODE val) => setGenericValue<VXTEXTURE_BLENDMODE>(BMap.BMMaterial_SetTextureBlendMode, val);
public VXTEXTURE_FILTERMODE GetTextureMinMode() => getGenericValue<VXTEXTURE_FILTERMODE>(BMap.BMMaterial_GetTextureMinMode);
public void SetTextureMinMode(VXTEXTURE_FILTERMODE val) => setGenericValue<VXTEXTURE_FILTERMODE>(BMap.BMMaterial_SetTextureMinMode, val);
public VXTEXTURE_FILTERMODE GetTextureMagMode() => getGenericValue<VXTEXTURE_FILTERMODE>(BMap.BMMaterial_GetTextureMagMode);
public void SetTextureMagMode(VXTEXTURE_FILTERMODE val) => setGenericValue<VXTEXTURE_FILTERMODE>(BMap.BMMaterial_SetTextureMagMode, val);
public VXTEXTURE_ADDRESSMODE GetTextureAddressMode() => getGenericValue<VXTEXTURE_ADDRESSMODE>(BMap.BMMaterial_GetTextureAddressMode);
public void SetTextureAddressMode(VXTEXTURE_ADDRESSMODE val) => setGenericValue<VXTEXTURE_ADDRESSMODE>(BMap.BMMaterial_SetTextureAddressMode, val);
public VXBLEND_MODE GetSourceBlend() => getGenericValue<VXBLEND_MODE>(BMap.BMMaterial_GetSourceBlend);
public void SetSourceBlend(VXBLEND_MODE val) => setGenericValue<VXBLEND_MODE>(BMap.BMMaterial_SetSourceBlend, val);
public VXBLEND_MODE GetDestBlend() => getGenericValue<VXBLEND_MODE>(BMap.BMMaterial_GetDestBlend);
public void SetDestBlend(VXBLEND_MODE val) => setGenericValue<VXBLEND_MODE>(BMap.BMMaterial_SetDestBlend, val);
public VXFILL_MODE GetFillMode() => getGenericValue<VXFILL_MODE>(BMap.BMMaterial_GetFillMode);
public void SetFillMode(VXFILL_MODE val) => setGenericValue<VXFILL_MODE>(BMap.BMMaterial_SetFillMode, val);
public VXSHADE_MODE GetShadeMode() => getGenericValue<VXSHADE_MODE>(BMap.BMMaterial_GetShadeMode);
public void SetShadeMode(VXSHADE_MODE val) => setGenericValue<VXSHADE_MODE>(BMap.BMMaterial_SetShadeMode, val);
public bool GetAlphaTestEnabled() => getGenericValue<bool>(BMap.BMMaterial_GetAlphaTestEnabled);
public void SetAlphaTestEnabled(bool val) => setGenericValue<bool>(BMap.BMMaterial_SetAlphaTestEnabled, val);
public bool GetAlphaBlendEnabled() => getGenericValue<bool>(BMap.BMMaterial_GetAlphaBlendEnabled);
public void SetAlphaBlendEnabled(bool val) => setGenericValue<bool>(BMap.BMMaterial_SetAlphaBlendEnabled, val);
public bool GetPerspectiveCorrectionEnabled() => getGenericValue<bool>(BMap.BMMaterial_GetPerspectiveCorrectionEnabled);
public void SetPerspectiveCorrectionEnabled(bool val) => setGenericValue<bool>(BMap.BMMaterial_SetPerspectiveCorrectionEnabled, val);
public bool GetZWriteEnabled() => getGenericValue<bool>(BMap.BMMaterial_GetZWriteEnabled);
public void SetZWriteEnabled(bool val) => setGenericValue<bool>(BMap.BMMaterial_SetZWriteEnabled, val);
public bool GetTwoSidedEnabled() => getGenericValue<bool>(BMap.BMMaterial_GetTwoSidedEnabled);
public void SetTwoSidedEnabled(bool val) => setGenericValue<bool>(BMap.BMMaterial_SetTwoSidedEnabled, val);
public byte GetAlphaRef() => getGenericValue<byte>(BMap.BMMaterial_GetAlphaRef);
public void SetAlphaRef(byte val) => setGenericValue<byte>(BMap.BMMaterial_SetAlphaRef, val);
public VXCMPFUNC GetAlphaFunc() => getGenericValue<VXCMPFUNC>(BMap.BMMaterial_GetAlphaFunc);
public void SetAlphaFunc(VXCMPFUNC val) => setGenericValue<VXCMPFUNC>(BMap.BMMaterial_SetAlphaFunc, val);
public VXCMPFUNC GetZFunc() => getGenericValue<VXCMPFUNC>(BMap.BMMaterial_GetZFunc);
public void SetZFunc(VXCMPFUNC val) => setGenericValue<VXCMPFUNC>(BMap.BMMaterial_SetZFunc, val);
}
public class BMMesh : BMObject {
internal BMMesh(IntPtr raw_pointer, uint ckid) : base(raw_pointer, ckid) { }
public VXMESH_LITMODE GetLitMode() => getGenericValue<VXMESH_LITMODE>(BMap.BMMesh_GetLitMode);
public void SetLitMode(VXMESH_LITMODE mode) => setGenericValue<VXMESH_LITMODE>(BMap.BMMesh_SetLitMode, mode);
public uint GetVertexCount() => getGenericValue<uint>(BMap.BMMesh_GetVertexCount);
public void SetVertexCount(uint count) => setGenericValue<uint>(BMap.BMMesh_SetVertexCount, count);
public IEnumerable<VxVector3> GetVertexPositions() {
BMapException.ThrowIfFailed(BMap.BMMesh_GetVertexPositions(getPointer(), getCKID(), out IntPtr out_mem));
return Utils.VxVector3Iterator(out_mem, GetVertexCount());
}
public void SetVertexPositions(IEnumerable<VxVector3> iem) {
BMapException.ThrowIfFailed(BMap.BMMesh_GetVertexPositions(getPointer(), getCKID(), out IntPtr out_mem));
Utils.VxVector3Assigner(out_mem, GetVertexCount(), iem);
}
public IEnumerable<VxVector3> GetVertexNormals() {
BMapException.ThrowIfFailed(BMap.BMMesh_GetVertexNormals(getPointer(), getCKID(), out IntPtr out_mem));
return Utils.VxVector3Iterator(out_mem, GetVertexCount());
}
public void SetVertexNormals(IEnumerable<VxVector3> iem) {
BMapException.ThrowIfFailed(BMap.BMMesh_GetVertexNormals(getPointer(), getCKID(), out IntPtr out_mem));
Utils.VxVector3Assigner(out_mem, GetVertexCount(), iem);
}
public IEnumerable<VxVector2> GetVertexUVs() {
BMapException.ThrowIfFailed(BMap.BMMesh_GetVertexUVs(getPointer(), getCKID(), out IntPtr out_mem));
return Utils.VxVector2Iterator(out_mem, GetVertexCount());
}
public void SetVertexUVs(IEnumerable<VxVector2> iem) {
BMapException.ThrowIfFailed(BMap.BMMesh_GetVertexUVs(getPointer(), getCKID(), out IntPtr out_mem));
Utils.VxVector2Assigner(out_mem, GetVertexCount(), iem);
}
public uint GetFaceCount() => getGenericValue<uint>(BMap.BMMesh_GetFaceCount);
public void SetFaceCount(uint count) => setGenericValue<uint>(BMap.BMMesh_SetFaceCount, count);
public IEnumerable<CKShortFaceIndices> GetFaceIndices() {
BMapException.ThrowIfFailed(BMap.BMMesh_GetFaceIndices(getPointer(), getCKID(), out IntPtr out_mem));
return Utils.CKShortFaceIndicesIterator(out_mem, GetFaceCount());
}
public void SetFaceIndices(IEnumerable<CKShortFaceIndices> iem) {
BMapException.ThrowIfFailed(BMap.BMMesh_GetFaceIndices(getPointer(), getCKID(), out IntPtr out_mem));
Utils.CKShortFaceIndicesAssigner(out_mem, GetFaceCount(), iem);
}
public IEnumerable<short> GetFaceMaterialSlotIndexs() {
BMapException.ThrowIfFailed(BMap.BMMesh_GetFaceMaterialSlotIndexs(getPointer(), getCKID(), out IntPtr out_mem));
return Utils.ShortIterator(out_mem, GetFaceCount());
}
public void SetFaceMaterialSlotIndexs(IEnumerable<short> iem) {
BMapException.ThrowIfFailed(BMap.BMMesh_GetFaceMaterialSlotIndexs(getPointer(), getCKID(), out IntPtr out_mem));
Utils.ShortAssigner(out_mem, GetFaceCount(), iem);
}
public uint GetMaterialSlotCount() => getGenericValue<uint>(BMap.BMMesh_GetMaterialSlotCount);
public void SetMaterialSlotCount(uint count) => setGenericValue<uint>(BMap.BMMesh_SetMaterialSlotCount, count);
public IEnumerable<BMMaterial> GetMaterialSlots() {
uint count = GetMaterialSlotCount();
for (uint i = 0; i < count; ++i) {
BMapException.ThrowIfFailed(BMap.BMMesh_GetMaterialSlot(getPointer(), getCKID(), i, out uint out_mtlid));
if (out_mtlid == Utils.INVALID_CKID) yield return null;
else yield return new BMMaterial(getPointer(), out_mtlid);
}
}
public void SetMaterialSlots(IEnumerable<BMMaterial> iem) {
uint count = GetMaterialSlotCount();
var itor = iem.GetEnumerator();
for (uint i = 0; i < count; ++i) {
if (!itor.MoveNext()) throw new BMapException("The length of given material array is too short when assigning material slots.");
uint mtlid = itor.Current is null ? Utils.INVALID_CKID : itor.Current.getCKID();
BMapException.ThrowIfFailed(BMap.BMMesh_SetMaterialSlot(getPointer(), getCKID(), i, mtlid));
}
}
}
public class BM3dEntity : BMObject {
internal BM3dEntity(IntPtr raw_pointer, uint ckid) : base(raw_pointer, ckid) { }
public VxMatrix GetWorldMatrix() => getGenericValue<VxMatrix>(BMap.BM3dEntity_GetWorldMatrix);
public void SetWorldMatrix(VxMatrix mat) => setGenericValue<VxMatrix>(BMap.BM3dEntity_SetWorldMatrix, mat);
public BMMesh GetCurrentMesh() {
BMapException.ThrowIfFailed(BMap.BM3dEntity_GetCurrentMesh(getPointer(), getCKID(), out uint out_meshid));
if (out_meshid == Utils.INVALID_CKID) return null;
else return new BMMesh(getPointer(), out_meshid);
}
public void SetCurrentMesh(BMMesh mesh) {
uint meshid = (mesh is null) ? Utils.INVALID_CKID : mesh.getCKID();
BMapException.ThrowIfFailed(BMap.BM3dEntity_SetCurrentMesh(getPointer(), getCKID(), meshid));
}
public bool GetVisibility() => getGenericValue<bool>(BMap.BM3dEntity_GetVisibility);
public void SetVisibility(bool visb) => setGenericValue<bool>(BMap.BM3dEntity_SetVisibility, visb);
}
public class BM3dObject : BM3dEntity {
internal BM3dObject(IntPtr raw_pointer, uint ckid) : base(raw_pointer, ckid) { }
}
public class BMLight : BM3dEntity {
internal BMLight(IntPtr raw_pointer, uint ckid) : base(raw_pointer, ckid) { }
// Name `GetType` is conflict with C# base class function name.
// So we add a `Light` prefix for it.
public VXLIGHT_TYPE GetLightType() => getGenericValue<VXLIGHT_TYPE>(BMap.BMLight_GetType);
public void SetLightType(VXLIGHT_TYPE val) => setGenericValue<VXLIGHT_TYPE>(BMap.BMLight_SetType, val);
public VxColor GetColor() => getGenericValue<VxColor>(BMap.BMLight_GetColor);
public void SetColor(VxColor col) => setGenericValue<VxColor>(BMap.BMLight_SetColor, col);
public float GetConstantAttenuation() => getGenericValue<float>(BMap.BMLight_GetConstantAttenuation);
public void SetConstantAttenuation(float val) => setGenericValue<float>(BMap.BMLight_SetConstantAttenuation, val);
public float GetLinearAttenuation() => getGenericValue<float>(BMap.BMLight_GetLinearAttenuation);
public void SetLinearAttenuation(float val) => setGenericValue<float>(BMap.BMLight_SetLinearAttenuation, val);
public float GetQuadraticAttenuation() => getGenericValue<float>(BMap.BMLight_GetQuadraticAttenuation);
public void SetQuadraticAttenuation(float val) => setGenericValue<float>(BMap.BMLight_SetQuadraticAttenuation, val);
public float GetRange() => getGenericValue<float>(BMap.BMLight_GetRange);
public void SetRange(float val) => setGenericValue<float>(BMap.BMLight_SetRange, val);
public float GetHotSpot() => getGenericValue<float>(BMap.BMLight_GetHotSpot);
public void SetHotSpot(float val) => setGenericValue<float>(BMap.BMLight_SetHotSpot, val);
public float GetFalloff() => getGenericValue<float>(BMap.BMLight_GetFalloff);
public void SetFalloff(float val) => setGenericValue<float>(BMap.BMLight_SetFalloff, val);
public float GetFalloffShape() => getGenericValue<float>(BMap.BMLight_GetFalloffShape);
public void SetFalloffShape(float val) => setGenericValue<float>(BMap.BMLight_SetFalloffShape, val);
}
public class BMTargetLight : BMLight {
internal BMTargetLight(IntPtr raw_pointer, uint ckid) : base(raw_pointer, ckid) { }
}
public class BMGroup : BMObject {
internal BMGroup(IntPtr raw_pointer, uint ckid) : base(raw_pointer, ckid) { }
public void AddObject(BM3dObject member) {
BMapException.ThrowIfFailed(BMap.BMGroup_AddObject(getPointer(), getCKID(), member.getCKID()));
}
public uint GetObjectCount() => getGenericValue<uint>(BMap.BMGroup_GetObjectCount);
public IEnumerable<BM3dObject> GetObjects() {
var size = GetObjectCount();
for (uint i = 0; i < size; ++i) {
BMapException.ThrowIfFailed(BMap.BMGroup_GetObject(getPointer(), getCKID(), i, out uint out_objid));
yield return new BM3dObject(getPointer(), out_objid);
}
}
}
public sealed class BMFileReader : AbstractPointer {
private static IntPtr allocateHandle(string file_name, string temp_folder, string texture_folder, string[] encodings) {
BMapException.ThrowIfFailed(BMap.BMFile_Load(
file_name, temp_folder, texture_folder,
Utils.BMapSharpCallback,
(uint)encodings.Length, encodings,
out IntPtr out_file
));
return out_file;
}
protected override bool ReleaseHandle() {
return BMap.BMFile_Free(this.getPointer());
}
public BMFileReader(string file_name, string temp_folder, string texture_folder, string[] encodings)
: base(allocateHandle(file_name, temp_folder, texture_folder, encodings)) { }
private delegate bool FctProtoGetCount(IntPtr bmf, out uint cnt);
private delegate bool FctProtoGetObject(IntPtr bmf, uint idx, out uint id);
private delegate T FctProtoCreateInstance<T>(IntPtr bmf, uint id);
private uint getCKObjectCount(FctProtoGetCount fct_cnt) {
BMapException.ThrowIfFailed(fct_cnt(this.getPointer(), out uint out_count));
return out_count;
}
private IEnumerable<T> getCKObjects<T>(FctProtoGetCount fct_cnt, FctProtoGetObject fct_obj, FctProtoCreateInstance<T> fct_crt) {
uint count = getCKObjectCount(fct_cnt);
for (uint i = 0; i < count; ++i) {
BMapException.ThrowIfFailed(fct_obj(this.getPointer(), i, out uint out_id));
yield return fct_crt(this.getPointer(), out_id);
}
}
public uint GetTextureCount() =>
getCKObjectCount(BMap.BMFile_GetTextureCount);
public IEnumerable<BMTexture> GetTextures() =>
getCKObjects<BMTexture>(BMap.BMFile_GetTextureCount, BMap.BMFile_GetTexture, (bmf, id) => new BMTexture(bmf, id));
public uint GetMaterialCount() =>
getCKObjectCount(BMap.BMFile_GetMaterialCount);
public IEnumerable<BMMaterial> GetMaterials() =>
getCKObjects<BMMaterial>(BMap.BMFile_GetMaterialCount, BMap.BMFile_GetMaterial, (bmf, id) => new BMMaterial(bmf, id));
public uint GetMeshCount() =>
getCKObjectCount(BMap.BMFile_GetMeshCount);
public IEnumerable<BMMesh> GetMeshes() =>
getCKObjects<BMMesh>(BMap.BMFile_GetMeshCount, BMap.BMFile_GetMesh, (bmf, id) => new BMMesh(bmf, id));
public uint Get3dObjectCount() =>
getCKObjectCount(BMap.BMFile_Get3dObjectCount);
public IEnumerable<BM3dObject> Get3dObjects() =>
getCKObjects<BM3dObject>(BMap.BMFile_Get3dObjectCount, BMap.BMFile_Get3dObject, (bmf, id) => new BM3dObject(bmf, id));
public uint GetGroupCount() =>
getCKObjectCount(BMap.BMFile_GetGroupCount);
public IEnumerable<BMGroup> GetGroups() =>
getCKObjects<BMGroup>(BMap.BMFile_GetGroupCount, BMap.BMFile_GetGroup, (bmf, id) => new BMGroup(bmf, id));
public uint GetTargetLightCount() =>
getCKObjectCount(BMap.BMFile_GetTargetLightCount);
public IEnumerable<BMTargetLight> GetTargetLights() =>
getCKObjects<BMTargetLight>(BMap.BMFile_GetTargetLightCount, BMap.BMFile_GetTargetLight, (bmf, id) => new BMTargetLight(bmf, id));
}
public sealed class BMFileWriter : AbstractPointer {
private static IntPtr allocateHandle(string temp_folder, string texture_folder, string[] encodings) {
BMapException.ThrowIfFailed(BMap.BMFile_Create(
temp_folder, texture_folder,
Utils.BMapSharpCallback,
(uint)encodings.Length, encodings,
out IntPtr out_file
));
return out_file;
}
protected override bool ReleaseHandle() {
return BMap.BMFile_Free(this.getPointer());
}
public BMFileWriter(string temp_folder, string texture_folder, string[] encodings)
: base(allocateHandle(temp_folder, texture_folder, encodings)) { }
public void Save(string filename, CK_TEXTURE_SAVEOPTIONS texture_save_opt, bool use_compress, int compress_level) {
BMapException.ThrowIfFailed(BMap.BMFile_Save(
getPointer(),
filename,
texture_save_opt,
use_compress,
compress_level
));
}
private delegate bool FctProtoCreateObject(IntPtr bmf, out uint id);
private delegate T FctProtoCreateInstance<T>(IntPtr bmf, uint id);
private T createCKObject<T>(FctProtoCreateObject fct_crt, FctProtoCreateInstance<T> fct_inst) {
BMapException.ThrowIfFailed(fct_crt(this.getPointer(), out uint out_id));
return fct_inst(this.getPointer(), out_id);
}
public BMTexture CreateTexture() => createCKObject<BMTexture>(BMap.BMFile_CreateTexture, (bmf, id) => new BMTexture(bmf, id));
public BMMaterial CreateMaterial() => createCKObject<BMMaterial>(BMap.BMFile_CreateMaterial, (bmf, id) => new BMMaterial(bmf, id));
public BMMesh CreateMesh() => createCKObject<BMMesh>(BMap.BMFile_CreateMesh, (bmf, id) => new BMMesh(bmf, id));
public BM3dObject Create3dObject() => createCKObject<BM3dObject>(BMap.BMFile_Create3dObject, (bmf, id) => new BM3dObject(bmf, id));
public BMGroup CreateGroup() => createCKObject<BMGroup>(BMap.BMFile_CreateGroup, (bmf, id) => new BMGroup(bmf, id));
public BMTargetLight CreateTargetLight() => createCKObject<BMTargetLight>(BMap.BMFile_CreateTargetLight, (bmf, id) => new BMTargetLight(bmf, id));
}
public sealed class BMMeshTrans : AbstractPointer {
private static IntPtr allocateHandle() {
BMapException.ThrowIfFailed(BMap.BMMeshTrans_New(out IntPtr out_trans));
return out_trans;
}
protected override bool ReleaseHandle() {
return BMap.BMMeshTrans_Delete(this.getPointer());
}
public BMMeshTrans() : base(allocateHandle()) { }
public void Parse(BMMesh objmesh) {
BMapException.ThrowIfFailed(BMap.BMMeshTrans_Parse(
getPointer(),
objmesh.getPointer(),
objmesh.getCKID()
));
}
public void PrepareVertex(uint count, IEnumerable<VxVector3> iem) {
// Prepare count first
BMapException.ThrowIfFailed(BMap.BMMeshTrans_PrepareVertexCount(getPointer(), count));
// Then put data
BMapException.ThrowIfFailed(BMap.BMMeshTrans_PrepareVertex(getPointer(), out IntPtr out_mem));
Utils.VxVector3Assigner(out_mem, count, iem);
}
public void PrepareNormal(uint count, IEnumerable<VxVector3> iem) {
// Prepare count first
BMapException.ThrowIfFailed(BMap.BMMeshTrans_PrepareNormalCount(getPointer(), count));
// Then put data
BMapException.ThrowIfFailed(BMap.BMMeshTrans_PrepareNormal(getPointer(), out IntPtr out_mem));
Utils.VxVector3Assigner(out_mem, count, iem);
}
public void PrepareUV(uint count, IEnumerable<VxVector2> iem) {
// Prepare count first
BMapException.ThrowIfFailed(BMap.BMMeshTrans_PrepareUVCount(getPointer(), count));
// Then put data
BMapException.ThrowIfFailed(BMap.BMMeshTrans_PrepareUV(getPointer(), out IntPtr out_mem));
Utils.VxVector2Assigner(out_mem, count, iem);
}
public void PrepareMtlSlot(uint count, IEnumerable<BMMaterial> iem) {
// Prepare count first
BMapException.ThrowIfFailed(BMap.BMMeshTrans_PrepareMtlSlotCount(getPointer(), count));
// Then put data
BMapException.ThrowIfFailed(BMap.BMMeshTrans_PrepareMtlSlot(getPointer(), out IntPtr out_mem));
var cast_iem = iem.Select((mtl) => mtl is null ? Utils.INVALID_CKID : mtl.getCKID());
Utils.CKIDAssigner(out_mem, count, cast_iem);
}
public void PrepareFace(uint count, IEnumerable<CKFaceIndices> vec_idx, IEnumerable<CKFaceIndices> nml_idx, IEnumerable<CKFaceIndices> uv_idx, IEnumerable<uint> mtl_idx) {
// Prepare count first
BMapException.ThrowIfFailed(BMap.BMMeshTrans_PrepareFaceCount(getPointer(), count));
// Get data address
BMapException.ThrowIfFailed(BMap.BMMeshTrans_PrepareFaceVertexIndices(getPointer(), out IntPtr raw_vec_idx));
BMapException.ThrowIfFailed(BMap.BMMeshTrans_PrepareFaceNormalIndices(getPointer(), out IntPtr raw_nml_idx));
BMapException.ThrowIfFailed(BMap.BMMeshTrans_PrepareFaceUVIndices(getPointer(), out IntPtr raw_uv_idx));
BMapException.ThrowIfFailed(BMap.BMMeshTrans_PrepareFaceMtlSlot(getPointer(), out IntPtr raw_mtl_idx));
// Assign data
Utils.CKFaceIndicesAssigner(raw_vec_idx, count, vec_idx);
Utils.CKFaceIndicesAssigner(raw_nml_idx, count, nml_idx);
Utils.CKFaceIndicesAssigner(raw_uv_idx, count, uv_idx);
Utils.CKDWORDAssigner(raw_mtl_idx, count, mtl_idx);
}
}
}

311
Assets/BMapBindings/BMapSharp/BMapSharp/VirtoolsTypes.cs Normal file
View File

@@ -0,0 +1,311 @@
using System;
using System.Runtime.InteropServices;
using System.Numerics;
namespace BMapSharp.VirtoolsTypes {
// NOTE: Structures defined in there is only served for marshaling.
// You should not use them in hash set or anything else,
// because they do not have proper hash function and compare function.
// You should use the managed type generated by them instead.
[StructLayout(LayoutKind.Sequential, Pack = 4, CharSet = CharSet.Ansi)]
public struct VxVector2 {
[MarshalAs(UnmanagedType.R4)]
public float X, Y;
public VxVector2(float _x = 0.0f, float _y = 0.0f) {
X = _x; Y = _y;
}
public VxVector2(Vector2 vec) {
FromManaged(vec);
}
public void FromManaged(Vector2 vec) {
X = vec.X; Y = vec.Y;
}
public Vector2 ToManaged() {
return new Vector2(X, Y);
}
}
[StructLayout(LayoutKind.Sequential, Pack = 4, CharSet = CharSet.Ansi)]
public struct VxVector3 {
[MarshalAs(UnmanagedType.R4)]
public float X, Y, Z;
public VxVector3(float _x = 0.0f, float _y = 0.0f, float _z = 0.0f) {
X = _x; Y = _y; Z = _z;
}
public VxVector3(Vector3 vec) {
FromManaged(vec);
}
public void FromManaged(Vector3 vec) {
X = vec.X; Y = vec.Y; Z = vec.Z;
}
public Vector3 ToManaged() {
return new Vector3(X, Y, Z);
}
}
[StructLayout(LayoutKind.Sequential, Pack = 4, CharSet = CharSet.Ansi)]
public struct VxColor {
[MarshalAs(UnmanagedType.R4)]
public float R, G, B, A;
public VxColor(float _r, float _g, float _b, float _a) {
A = _a; R = _r; G = _g; B = _b;
Regulate();
}
public VxColor(Vector4 col) {
FromManagedRGBA(col);
}
public VxColor(Vector3 col) {
FromManagedRGB(col);
}
public VxColor(uint val) {
FromDword(val);
}
public void FromManagedRGBA(Vector4 col) {
R = col.X; G = col.Y; B = col.Z; A = col.W;
Regulate();
}
public Vector4 ToManagedRGBA() {
return new Vector4(R, G, B, A);
}
public void FromManagedRGB(Vector3 col) {
R = col.X; G = col.Y; B = col.Z; A = 1.0f;
Regulate();
}
public Vector3 ToManagedRGB() {
return new Vector3(R, G, B);
}
public void FromDword(uint val) {
B = (val & 0xFFu) / 255.0f;
val >>= 8;
G = (val & 0xFFu) / 255.0f;
val >>= 8;
R = (val & 0xFFu) / 255.0f;
val >>= 8;
A = (val & 0xFFu) / 255.0f;
}
public uint ToDword() {
// regulate self first
Regulate();
// build result
uint val = 0u;
val |= (uint)(A * 255.0f);
val <<= 8;
val |= (uint)(R * 255.0f);
val <<= 8;
val |= (uint)(G * 255.0f);
val <<= 8;
val |= (uint)(B * 255.0f);
return val;
}
public static float ClampFactor(float factor) {
return System.Math.Clamp(factor, 0.0f, 1.0f);
}
public void Regulate() {
A = ClampFactor(A);
R = ClampFactor(R);
G = ClampFactor(G);
B = ClampFactor(B);
}
}
[StructLayout(LayoutKind.Sequential, Pack = 4, CharSet = CharSet.Ansi)]
public struct VxMatrix {
[MarshalAs(UnmanagedType.R4)]
public float M11, M12, M13, M14;
[MarshalAs(UnmanagedType.R4)]
public float M21, M22, M23, M24;
[MarshalAs(UnmanagedType.R4)]
public float M31, M32, M33, M34;
[MarshalAs(UnmanagedType.R4)]
public float M41, M42, M43, M44;
public VxMatrix(float m11 = 1.0f, float m12 = 0.0f, float m13 = 0.0f, float m14 = 0.0f,
float m21 = 0.0f, float m22 = 1.0f, float m23 = 0.0f, float m24 = 0.0f,
float m31 = 0.0f, float m32 = 0.0f, float m33 = 1.0f, float m34 = 0.0f,
float m41 = 0.0f, float m42 = 0.0f, float m43 = 0.0f, float m44 = 1.0f) {
M11 = m11; M12 = m12; M13 = m13; M14 = m14;
M21 = m21; M22 = m22; M23 = m23; M24 = m24;
M31 = m31; M32 = m32; M33 = m33; M34 = m34;
M41 = m41; M42 = m42; M43 = m43; M44 = m44;
}
public void Reset() {
M11 = 1.0f; M12 = 0.0f; M13 = 0.0f; M14 = 0.0f;
M21 = 0.0f; M22 = 1.0f; M23 = 0.0f; M24 = 0.0f;
M31 = 0.0f; M32 = 0.0f; M33 = 1.0f; M34 = 0.0f;
M41 = 0.0f; M42 = 0.0f; M43 = 0.0f; M44 = 1.0f;
}
public void FromManaged(Matrix4x4 mat) {
M11 = mat.M11; M12 = mat.M12; M13 = mat.M13; M14 = mat.M14;
M21 = mat.M21; M22 = mat.M22; M23 = mat.M23; M24 = mat.M24;
M31 = mat.M31; M32 = mat.M32; M33 = mat.M33; M34 = mat.M34;
M41 = mat.M41; M42 = mat.M42; M43 = mat.M43; M44 = mat.M44;
}
public Matrix4x4 ToManaged() {
return new Matrix4x4(
M11, M12, M13, M14,
M21, M22, M23, M24,
M31, M32, M33, M34,
M41, M42, M43, M44
);
}
}
[StructLayout(LayoutKind.Sequential, Pack = 4, CharSet = CharSet.Ansi)]
public struct CKFaceIndices {
[MarshalAs(UnmanagedType.U4)]
public uint I1, I2, I3;
public CKFaceIndices(uint i1 = 0u, uint i2 = 0u, uint i3 = 0u) {
I1 = i1;
I2 = i2;
I3 = i3;
}
}
[StructLayout(LayoutKind.Sequential, Pack = 4, CharSet = CharSet.Ansi)]
public struct CKShortFaceIndices {
[MarshalAs(UnmanagedType.U2)]
public ushort I1, I2, I3;
public CKShortFaceIndices(ushort i1 = 0, ushort i2 = 0, ushort i3 = 0) {
I1 = i1;
I2 = i2;
I3 = i3;
}
}
public enum CK_TEXTURE_SAVEOPTIONS : uint {
CKTEXTURE_RAWDATA = 0, /**< Save raw data inside file. The bitmap is saved in a raw 32 bit per pixel format. */
CKTEXTURE_EXTERNAL = 1, /**< Store only the file name for the texture. The bitmap file must be present in the bitmap paths when loading the composition. */
CKTEXTURE_IMAGEFORMAT = 2, /**< Save using format specified. The bitmap data will be converted to the specified format by the correspondant bitmap plugin and saved inside file. */
CKTEXTURE_USEGLOBAL = 3, /**< Use Global settings, that is the settings given with CKContext::SetGlobalImagesSaveOptions. (Not valid when using CKContext::SetImagesSaveOptions). */
CKTEXTURE_INCLUDEORIGINALFILE = 4, /**< Insert original image file inside CMO file. The bitmap file that was used originally for the texture or sprite will be append to the composition file and extracted when the file is loaded. */
}
public enum VX_PIXELFORMAT : uint {
UNKNOWN_PF = 0, /**< Unknown pixel format */
_32_ARGB8888 = 1, /**< 32-bit ARGB pixel format with alpha */
_32_RGB888 = 2, /**< 32-bit RGB pixel format without alpha */
_24_RGB888 = 3, /**< 24-bit RGB pixel format */
_16_RGB565 = 4, /**< 16-bit RGB pixel format */
_16_RGB555 = 5, /**< 16-bit RGB pixel format (5 bits per color) */
_16_ARGB1555 = 6, /**< 16-bit ARGB pixel format (5 bits per color + 1 bit for alpha) */
_16_ARGB4444 = 7, /**< 16-bit ARGB pixel format (4 bits per color) */
_8_RGB332 = 8, /**< 8-bit RGB pixel format */
_8_ARGB2222 = 9, /**< 8-bit ARGB pixel format */
_32_ABGR8888 = 10, /**< 32-bit ABGR pixel format */
_32_RGBA8888 = 11, /**< 32-bit RGBA pixel format */
_32_BGRA8888 = 12, /**< 32-bit BGRA pixel format */
_32_BGR888 = 13, /**< 32-bit BGR pixel format */
_24_BGR888 = 14, /**< 24-bit BGR pixel format */
_16_BGR565 = 15, /**< 16-bit BGR pixel format */
_16_BGR555 = 16, /**< 16-bit BGR pixel format (5 bits per color) */
_16_ABGR1555 = 17, /**< 16-bit ABGR pixel format (5 bits per color + 1 bit for alpha) */
_16_ABGR4444 = 18, /**< 16-bit ABGR pixel format (4 bits per color) */
_DXT1 = 19, /**< S3/DirectX Texture Compression 1 */
_DXT2 = 20, /**< S3/DirectX Texture Compression 2 */
_DXT3 = 21, /**< S3/DirectX Texture Compression 3 */
_DXT4 = 22, /**< S3/DirectX Texture Compression 4 */
_DXT5 = 23, /**< S3/DirectX Texture Compression 5 */
_16_V8U8 = 24, /**< 16-bit Bump Map format format (8 bits per color) */
_32_V16U16 = 25, /**< 32-bit Bump Map format format (16 bits per color) */
_16_L6V5U5 = 26, /**< 16-bit Bump Map format format with luminance */
_32_X8L8V8U8 = 27, /**< 32-bit Bump Map format format with luminance */
_8_ABGR8888_CLUT = 28, /**< 8 bits indexed CLUT (ABGR) */
_8_ARGB8888_CLUT = 29, /**< 8 bits indexed CLUT (ARGB) */
_4_ABGR8888_CLUT = 30, /**< 4 bits indexed CLUT (ABGR) */
_4_ARGB8888_CLUT = 31, /**< 4 bits indexed CLUT (ARGB) */
}
public enum VXLIGHT_TYPE : uint {
VX_LIGHTPOINT = 1, /**< The Light is a point of light */
VX_LIGHTSPOT = 2, /**< The light is a spotlight */
VX_LIGHTDIREC = 3, /**< The light is directional light : Lights comes from an infinite point so only direction of light can be given */
// VX_LIGHTPARA = 4UL, /**< Obsolete, do not use */
}
public enum VXTEXTURE_BLENDMODE : uint {
VXTEXTUREBLEND_DECAL = 1, /**< Texture replace any material information */
VXTEXTUREBLEND_MODULATE = 2, /**< Texture and material are combine. Alpha information of the texture replace material alpha component. */
VXTEXTUREBLEND_DECALALPHA = 3, /**< Alpha information in the texture specify how material and texture are combined. Alpha information of the texture replace material alpha component. */
VXTEXTUREBLEND_MODULATEALPHA = 4, /**< Alpha information in the texture specify how material and texture are combined */
VXTEXTUREBLEND_DECALMASK = 5,
VXTEXTUREBLEND_MODULATEMASK = 6,
VXTEXTUREBLEND_COPY = 7, /**< Equivalent to DECAL */
VXTEXTUREBLEND_ADD = 8,
VXTEXTUREBLEND_DOTPRODUCT3 = 9, /**< Perform a Dot Product 3 between texture (normal map) and a referential vector given in VXRENDERSTATE_TEXTUREFACTOR. */
VXTEXTUREBLEND_MAX = 10,
}
public enum VXTEXTURE_FILTERMODE : uint {
VXTEXTUREFILTER_NEAREST = 1, /**< No Filter */
VXTEXTUREFILTER_LINEAR = 2, /**< Bilinear Interpolation */
VXTEXTUREFILTER_MIPNEAREST = 3, /**< Mip mapping */
VXTEXTUREFILTER_MIPLINEAR = 4, /**< Mip Mapping with Bilinear interpolation */
VXTEXTUREFILTER_LINEARMIPNEAREST = 5, /**< Mip Mapping with Bilinear interpolation between mipmap levels. */
VXTEXTUREFILTER_LINEARMIPLINEAR = 6, /**< Trilinear Filtering */
VXTEXTUREFILTER_ANISOTROPIC = 7, /**< Anisotropic filtering */
}
public enum VXTEXTURE_ADDRESSMODE : uint {
VXTEXTURE_ADDRESSWRAP = 1, /**< Default mesh wrap mode is used (see CKMesh::SetWrapMode) */
VXTEXTURE_ADDRESSMIRROR = 2, /**< Texture coordinates outside the range [0..1] are flipped evenly. */
VXTEXTURE_ADDRESSCLAMP = 3, /**< Texture coordinates greater than 1.0 are set to 1.0, and values less than 0.0 are set to 0.0. */
VXTEXTURE_ADDRESSBORDER = 4, /**< When texture coordinates are greater than 1.0 or less than 0.0 texture is set to a color defined in CKMaterial::SetTextureBorderColor. */
VXTEXTURE_ADDRESSMIRRORONCE = 5, /**< */
}
public enum VXBLEND_MODE : uint {
VXBLEND_ZERO = 1, /**< Blend factor is (0, 0, 0, 0). */
VXBLEND_ONE = 2, /**< Blend factor is (1, 1, 1, 1). */
VXBLEND_SRCCOLOR = 3, /**< Blend factor is (Rs, Gs, Bs, As). */
VXBLEND_INVSRCCOLOR = 4, /**< Blend factor is (1-Rs, 1-Gs, 1-Bs, 1-As). */
VXBLEND_SRCALPHA = 5, /**< Blend factor is (As, As, As, As). */
VXBLEND_INVSRCALPHA = 6, /**< Blend factor is (1-As, 1-As, 1-As, 1-As). */
VXBLEND_DESTALPHA = 7, /**< Blend factor is (Ad, Ad, Ad, Ad). */
VXBLEND_INVDESTALPHA = 8, /**< Blend factor is (1-Ad, 1-Ad, 1-Ad, 1-Ad). */
VXBLEND_DESTCOLOR = 9, /**< Blend factor is (Rd, Gd, Bd, Ad). */
VXBLEND_INVDESTCOLOR = 10, /**< Blend factor is (1-Rd, 1-Gd, 1-Bd, 1-Ad). */
VXBLEND_SRCALPHASAT = 11, /**< Blend factor is (f, f, f, 1); f = min(As, 1-Ad). */
// VXBLEND_BOTHSRCALPHA = 12, /**< Source blend factor is (As, As, As, As) and destination blend factor is (1-As, 1-As, 1-As, 1-As) */
// VXBLEND_BOTHINVSRCALPHA = 13, /**< Source blend factor is (1-As, 1-As, 1-As, 1-As) and destination blend factor is (As, As, As, As) */
}
public enum VXFILL_MODE : uint {
VXFILL_POINT = 1, /**< Vertices rendering */
VXFILL_WIREFRAME = 2, /**< Edges rendering */
VXFILL_SOLID = 3, /**< Face rendering */
}
public enum VXSHADE_MODE : uint {
VXSHADE_FLAT = 1, /**< Flat Shading */
VXSHADE_GOURAUD = 2, /**< Gouraud Shading */
VXSHADE_PHONG = 3, /**< Phong Shading (Not yet supported by most implementation) */
}
public enum VXCMPFUNC : uint {
VXCMP_NEVER = 1, /**< Always fail the test. */
VXCMP_LESS = 2, /**< Accept if value if less than current value. */
VXCMP_EQUAL = 3, /**< Accept if value if equal than current value. */
VXCMP_LESSEQUAL = 4, /**< Accept if value if less or equal than current value. */
VXCMP_GREATER = 5, /**< Accept if value if greater than current value. */
VXCMP_NOTEQUAL = 6, /**< Accept if value if different than current value. */
VXCMP_GREATEREQUAL = 7, /**< Accept if value if greater or equal current value. */
VXCMP_ALWAYS = 8, /**< Always accept the test. */
}
public enum VXMESH_LITMODE : uint {
VX_PRELITMESH = 0, /**< Lighting use color information store with vertices */
VX_LITMESH = 1, /**< Lighting is done by renderer using normals and face material information. */
}
}

364
Assets/BMapBindings/BMapSharp/BMapSharpTestbench/.editorconfig Normal file
View File

@@ -0,0 +1,364 @@
root = true
# All files
[*]
indent_style = space
# Xml files
[*.xml]
indent_size = 2
# C# files
[*.cs]
#### Core EditorConfig Options ####
# Indentation and spacing
indent_size = 4
tab_width = 4
# New line preferences
end_of_line = crlf
insert_final_newline = false
#### .NET Coding Conventions ####
[*.{cs,vb}]
# Organize usings
dotnet_separate_import_directive_groups = false
dotnet_sort_system_directives_first = false
file_header_template = unset
# this. and Me. preferences
dotnet_style_qualification_for_event = false:silent
dotnet_style_qualification_for_field = false:silent
dotnet_style_qualification_for_method = false:silent
dotnet_style_qualification_for_property = false:silent
# Language keywords vs BCL types preferences
dotnet_style_predefined_type_for_locals_parameters_members = true:silent
dotnet_style_predefined_type_for_member_access = true:silent
# Parentheses preferences
dotnet_style_parentheses_in_arithmetic_binary_operators = always_for_clarity:silent
dotnet_style_parentheses_in_other_binary_operators = always_for_clarity:silent
dotnet_style_parentheses_in_other_operators = never_if_unnecessary:silent
dotnet_style_parentheses_in_relational_binary_operators = always_for_clarity:silent
# Modifier preferences
dotnet_style_require_accessibility_modifiers = for_non_interface_members:silent
# Expression-level preferences
dotnet_style_coalesce_expression = true:suggestion
dotnet_style_collection_initializer = true:suggestion
dotnet_style_explicit_tuple_names = true:suggestion
dotnet_style_null_propagation = true:suggestion
dotnet_style_object_initializer = true:suggestion
dotnet_style_operator_placement_when_wrapping = beginning_of_line
dotnet_style_prefer_auto_properties = true:suggestion
dotnet_style_prefer_compound_assignment = true:suggestion
dotnet_style_prefer_conditional_expression_over_assignment = true:suggestion
dotnet_style_prefer_conditional_expression_over_return = true:suggestion
dotnet_style_prefer_inferred_anonymous_type_member_names = true:suggestion
dotnet_style_prefer_inferred_tuple_names = true:suggestion
dotnet_style_prefer_is_null_check_over_reference_equality_method = true:suggestion
dotnet_style_prefer_simplified_boolean_expressions = true:suggestion
dotnet_style_prefer_simplified_interpolation = true:suggestion
# Field preferences
dotnet_style_readonly_field = true:warning
# Parameter preferences
dotnet_code_quality_unused_parameters = all:suggestion
# Suppression preferences
dotnet_remove_unnecessary_suppression_exclusions = none
#### C# Coding Conventions ####
[*.cs]
# var preferences
csharp_style_var_elsewhere = false:silent
csharp_style_var_for_built_in_types = false:silent
csharp_style_var_when_type_is_apparent = false:silent
# Expression-bodied members
csharp_style_expression_bodied_accessors = true:silent
csharp_style_expression_bodied_constructors = false:silent
csharp_style_expression_bodied_indexers = true:silent
csharp_style_expression_bodied_lambdas = true:suggestion
csharp_style_expression_bodied_local_functions = false:silent
csharp_style_expression_bodied_methods = false:silent
csharp_style_expression_bodied_operators = false:silent
csharp_style_expression_bodied_properties = true:silent
# Pattern matching preferences
csharp_style_pattern_matching_over_as_with_null_check = true:suggestion
csharp_style_pattern_matching_over_is_with_cast_check = true:suggestion
csharp_style_prefer_not_pattern = true:suggestion
csharp_style_prefer_pattern_matching = true:silent
csharp_style_prefer_switch_expression = true:suggestion
# Null-checking preferences
csharp_style_conditional_delegate_call = true:suggestion
# Modifier preferences
csharp_prefer_static_local_function = true:warning
csharp_preferred_modifier_order = public,private,protected,internal,static,extern,new,virtual,abstract,sealed,override,readonly,unsafe,volatile,async:silent
# Code-block preferences
csharp_prefer_braces = true:silent
csharp_prefer_simple_using_statement = true:suggestion
# Expression-level preferences
csharp_prefer_simple_default_expression = true:suggestion
csharp_style_deconstructed_variable_declaration = true:suggestion
csharp_style_inlined_variable_declaration = true:suggestion
csharp_style_pattern_local_over_anonymous_function = true:suggestion
csharp_style_prefer_index_operator = true:suggestion
csharp_style_prefer_range_operator = true:suggestion
csharp_style_throw_expression = true:suggestion
csharp_style_unused_value_assignment_preference = discard_variable:suggestion
csharp_style_unused_value_expression_statement_preference = discard_variable:silent
# 'using' directive preferences
csharp_using_directive_placement = outside_namespace:silent
#### C# Formatting Rules ####
# New line preferences
csharp_new_line_before_catch = false
csharp_new_line_before_else = false
csharp_new_line_before_finally = false
csharp_new_line_before_members_in_anonymous_types = true
csharp_new_line_before_members_in_object_initializers = true
csharp_new_line_before_open_brace = none
csharp_new_line_between_query_expression_clauses = true
# Indentation preferences
csharp_indent_block_contents = true
csharp_indent_braces = false
csharp_indent_case_contents = true
csharp_indent_case_contents_when_block = true
csharp_indent_labels = one_less_than_current
csharp_indent_switch_labels = true
# Space preferences
csharp_space_after_cast = false
csharp_space_after_colon_in_inheritance_clause = true
csharp_space_after_comma = true
csharp_space_after_dot = false
csharp_space_after_keywords_in_control_flow_statements = true
csharp_space_after_semicolon_in_for_statement = true
csharp_space_around_binary_operators = before_and_after
csharp_space_around_declaration_statements = false
csharp_space_before_colon_in_inheritance_clause = true
csharp_space_before_comma = false
csharp_space_before_dot = false
csharp_space_before_open_square_brackets = false
csharp_space_before_semicolon_in_for_statement = false
csharp_space_between_empty_square_brackets = false
csharp_space_between_method_call_empty_parameter_list_parentheses = false
csharp_space_between_method_call_name_and_opening_parenthesis = false
csharp_space_between_method_call_parameter_list_parentheses = false
csharp_space_between_method_declaration_empty_parameter_list_parentheses = false
csharp_space_between_method_declaration_name_and_open_parenthesis = false
csharp_space_between_method_declaration_parameter_list_parentheses = false
csharp_space_between_parentheses = false
csharp_space_between_square_brackets = false
# Wrapping preferences
csharp_preserve_single_line_blocks = true
csharp_preserve_single_line_statements = true
#### Naming styles ####
[*.{cs,vb}]
# Naming rules
dotnet_naming_rule.types_and_namespaces_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.types_and_namespaces_should_be_pascalcase.symbols = types_and_namespaces
dotnet_naming_rule.types_and_namespaces_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.interfaces_should_be_ipascalcase.severity = suggestion
dotnet_naming_rule.interfaces_should_be_ipascalcase.symbols = interfaces
dotnet_naming_rule.interfaces_should_be_ipascalcase.style = ipascalcase
dotnet_naming_rule.type_parameters_should_be_tpascalcase.severity = suggestion
dotnet_naming_rule.type_parameters_should_be_tpascalcase.symbols = type_parameters
dotnet_naming_rule.type_parameters_should_be_tpascalcase.style = tpascalcase
dotnet_naming_rule.methods_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.methods_should_be_pascalcase.symbols = methods
dotnet_naming_rule.methods_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.properties_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.properties_should_be_pascalcase.symbols = properties
dotnet_naming_rule.properties_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.events_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.events_should_be_pascalcase.symbols = events
dotnet_naming_rule.events_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.local_variables_should_be_camelcase.severity = suggestion
dotnet_naming_rule.local_variables_should_be_camelcase.symbols = local_variables
dotnet_naming_rule.local_variables_should_be_camelcase.style = camelcase
dotnet_naming_rule.local_constants_should_be_camelcase.severity = suggestion
dotnet_naming_rule.local_constants_should_be_camelcase.symbols = local_constants
dotnet_naming_rule.local_constants_should_be_camelcase.style = camelcase
dotnet_naming_rule.parameters_should_be_camelcase.severity = suggestion
dotnet_naming_rule.parameters_should_be_camelcase.symbols = parameters
dotnet_naming_rule.parameters_should_be_camelcase.style = camelcase
dotnet_naming_rule.public_fields_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.public_fields_should_be_pascalcase.symbols = public_fields
dotnet_naming_rule.public_fields_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.private_fields_should_be__camelcase.severity = suggestion
dotnet_naming_rule.private_fields_should_be__camelcase.symbols = private_fields
dotnet_naming_rule.private_fields_should_be__camelcase.style = _camelcase
dotnet_naming_rule.private_static_fields_should_be_s_camelcase.severity = suggestion
dotnet_naming_rule.private_static_fields_should_be_s_camelcase.symbols = private_static_fields
dotnet_naming_rule.private_static_fields_should_be_s_camelcase.style = s_camelcase
dotnet_naming_rule.public_constant_fields_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.public_constant_fields_should_be_pascalcase.symbols = public_constant_fields
dotnet_naming_rule.public_constant_fields_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.private_constant_fields_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.private_constant_fields_should_be_pascalcase.symbols = private_constant_fields
dotnet_naming_rule.private_constant_fields_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.public_static_readonly_fields_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.public_static_readonly_fields_should_be_pascalcase.symbols = public_static_readonly_fields
dotnet_naming_rule.public_static_readonly_fields_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.private_static_readonly_fields_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.private_static_readonly_fields_should_be_pascalcase.symbols = private_static_readonly_fields
dotnet_naming_rule.private_static_readonly_fields_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.enums_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.enums_should_be_pascalcase.symbols = enums
dotnet_naming_rule.enums_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.local_functions_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.local_functions_should_be_pascalcase.symbols = local_functions
dotnet_naming_rule.local_functions_should_be_pascalcase.style = pascalcase
dotnet_naming_rule.non_field_members_should_be_pascalcase.severity = suggestion
dotnet_naming_rule.non_field_members_should_be_pascalcase.symbols = non_field_members
dotnet_naming_rule.non_field_members_should_be_pascalcase.style = pascalcase
# Symbol specifications
dotnet_naming_symbols.interfaces.applicable_kinds = interface
dotnet_naming_symbols.interfaces.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.interfaces.required_modifiers =
dotnet_naming_symbols.enums.applicable_kinds = enum
dotnet_naming_symbols.enums.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.enums.required_modifiers =
dotnet_naming_symbols.events.applicable_kinds = event
dotnet_naming_symbols.events.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.events.required_modifiers =
dotnet_naming_symbols.methods.applicable_kinds = method
dotnet_naming_symbols.methods.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.methods.required_modifiers =
dotnet_naming_symbols.properties.applicable_kinds = property
dotnet_naming_symbols.properties.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.properties.required_modifiers =
dotnet_naming_symbols.public_fields.applicable_kinds = field
dotnet_naming_symbols.public_fields.applicable_accessibilities = public, internal
dotnet_naming_symbols.public_fields.required_modifiers =
dotnet_naming_symbols.private_fields.applicable_kinds = field
dotnet_naming_symbols.private_fields.applicable_accessibilities = private, protected, protected_internal, private_protected
dotnet_naming_symbols.private_fields.required_modifiers =
dotnet_naming_symbols.private_static_fields.applicable_kinds = field
dotnet_naming_symbols.private_static_fields.applicable_accessibilities = private, protected, protected_internal, private_protected
dotnet_naming_symbols.private_static_fields.required_modifiers = static
dotnet_naming_symbols.types_and_namespaces.applicable_kinds = namespace, class, struct, interface, enum
dotnet_naming_symbols.types_and_namespaces.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.types_and_namespaces.required_modifiers =
dotnet_naming_symbols.non_field_members.applicable_kinds = property, event, method
dotnet_naming_symbols.non_field_members.applicable_accessibilities = public, internal, private, protected, protected_internal, private_protected
dotnet_naming_symbols.non_field_members.required_modifiers =
dotnet_naming_symbols.type_parameters.applicable_kinds = namespace
dotnet_naming_symbols.type_parameters.applicable_accessibilities = *
dotnet_naming_symbols.type_parameters.required_modifiers =
dotnet_naming_symbols.private_constant_fields.applicable_kinds = field
dotnet_naming_symbols.private_constant_fields.applicable_accessibilities = private, protected, protected_internal, private_protected
dotnet_naming_symbols.private_constant_fields.required_modifiers = const
dotnet_naming_symbols.local_variables.applicable_kinds = local
dotnet_naming_symbols.local_variables.applicable_accessibilities = local
dotnet_naming_symbols.local_variables.required_modifiers =
dotnet_naming_symbols.local_constants.applicable_kinds = local
dotnet_naming_symbols.local_constants.applicable_accessibilities = local
dotnet_naming_symbols.local_constants.required_modifiers = const
dotnet_naming_symbols.parameters.applicable_kinds = parameter
dotnet_naming_symbols.parameters.applicable_accessibilities = *
dotnet_naming_symbols.parameters.required_modifiers =
dotnet_naming_symbols.public_constant_fields.applicable_kinds = field
dotnet_naming_symbols.public_constant_fields.applicable_accessibilities = public, internal
dotnet_naming_symbols.public_constant_fields.required_modifiers = const
dotnet_naming_symbols.public_static_readonly_fields.applicable_kinds = field
dotnet_naming_symbols.public_static_readonly_fields.applicable_accessibilities = public, internal
dotnet_naming_symbols.public_static_readonly_fields.required_modifiers = readonly, static
dotnet_naming_symbols.private_static_readonly_fields.applicable_kinds = field
dotnet_naming_symbols.private_static_readonly_fields.applicable_accessibilities = private, protected, protected_internal, private_protected
dotnet_naming_symbols.private_static_readonly_fields.required_modifiers = readonly, static
dotnet_naming_symbols.local_functions.applicable_kinds = local_function
dotnet_naming_symbols.local_functions.applicable_accessibilities = *
dotnet_naming_symbols.local_functions.required_modifiers =
# Naming styles
dotnet_naming_style.pascalcase.required_prefix =
dotnet_naming_style.pascalcase.required_suffix =
dotnet_naming_style.pascalcase.word_separator =
dotnet_naming_style.pascalcase.capitalization = pascal_case
dotnet_naming_style.ipascalcase.required_prefix = I
dotnet_naming_style.ipascalcase.required_suffix =
dotnet_naming_style.ipascalcase.word_separator =
dotnet_naming_style.ipascalcase.capitalization = pascal_case
dotnet_naming_style.tpascalcase.required_prefix = T
dotnet_naming_style.tpascalcase.required_suffix =
dotnet_naming_style.tpascalcase.word_separator =
dotnet_naming_style.tpascalcase.capitalization = pascal_case
dotnet_naming_style._camelcase.required_prefix = _
dotnet_naming_style._camelcase.required_suffix =
dotnet_naming_style._camelcase.word_separator =
dotnet_naming_style._camelcase.capitalization = camel_case
dotnet_naming_style.camelcase.required_prefix =
dotnet_naming_style.camelcase.required_suffix =
dotnet_naming_style.camelcase.word_separator =
dotnet_naming_style.camelcase.capitalization = camel_case
dotnet_naming_style.s_camelcase.required_prefix = s_
dotnet_naming_style.s_camelcase.required_suffix =
dotnet_naming_style.s_camelcase.word_separator =
dotnet_naming_style.s_camelcase.capitalization = camel_case

17
Assets/BMapBindings/BMapSharp/BMapSharpTestbench/BMapSharpTestbench.csproj Normal file
View File

@@ -0,0 +1,17 @@
<Project Sdk="Microsoft.NET.Sdk">
<ItemGroup>
<ProjectReference Include="..\BMapSharp\BMapSharp.csproj" />
</ItemGroup>
<ItemGroup>
<PackageReference Include="System.CommandLine" Version="2.0.0-beta4.22272.1" />
</ItemGroup>
<PropertyGroup>
<OutputType>Exe</OutputType>
<TargetFramework>net8.0</TargetFramework>
<ImplicitUsings>enable</ImplicitUsings>
</PropertyGroup>
</Project>

219
Assets/BMapBindings/BMapSharp/BMapSharpTestbench/Program.cs Normal file
View File

@@ -0,0 +1,219 @@
using BMapSharp.BMapWrapper;
using System;
using System.Text;
using System.Collections.Generic;
using System.Diagnostics;
using System.CommandLine;
namespace BMapSharpTestbench {
internal class Program {
static void Main(string[] args) {
// Parse arguments
var resolved_args = ResolveArguments(args);
if (resolved_args is null) {
// just silent quit
Environment.Exit(0);
}
// Check environment
Console.OutputEncoding = Encoding.UTF8;
if (!BMapSharp.BMapWrapper.Utils.IsBMapAvailable()) {
Console.WriteLine("Fail to initialize native BMap.");
Environment.Exit(0);
}
// Waiting debugger
int pid = System.Diagnostics.Process.GetCurrentProcess().Id;
Console.WriteLine($"C# PID is {pid}. Waiting debugger, press any key to continue...");
Console.ReadKey(true);
// Start testbench
string file_name = resolved_args.mFileName; // "LightCameraTest.nmo";
string temp_folder = resolved_args.mTempFolder; // "Temp";
string texture_folder = resolved_args.mTextureFolder; // "F:\\Ballance\\Ballance\\Textures";
string[] encodings = resolved_args.mEncodings; // ["cp1252", "gb2312"];
using (var reader = new BMapSharp.BMapWrapper.BMFileReader(file_name, temp_folder, texture_folder, encodings)) {
TestCommon(reader);
TestIEquatable(reader);
}
Console.WriteLine("Press any key to quit...");
Console.ReadKey(true);
}
class BMapSharpArguments {
public string mFileName;
public string mTempFolder;
public string mTextureFolder;
public string[] mEncodings;
}
static BMapSharpArguments ResolveArguments(string[] args) {
// define arguments
var fileNameOpt = new Option<string>
("--file-path", "The path to input Virtools file.");
fileNameOpt.IsRequired = true;
var tempFolderOpt = new Option<string>
("--temp-dir", "The temp folder used by BMap.");
tempFolderOpt.IsRequired = true;
var textureFolderOpt = new Option<string>
("--texture-dir", "The texture folder containing Ballance texture resources.");
textureFolderOpt.IsRequired = true;
var encodingsOpt = new Option<IEnumerable<string>>
("--encodings", "The encodings used to parse the names stroed in input Virtools file.");
encodingsOpt.IsRequired = true;
encodingsOpt.Arity = ArgumentArity.OneOrMore;
encodingsOpt.AllowMultipleArgumentsPerToken = true;
// init root command
var rootCommand = new RootCommand("The testbench of BMapSharp.");
rootCommand.Add(fileNameOpt);
rootCommand.Add(tempFolderOpt);
rootCommand.Add(textureFolderOpt);
rootCommand.Add(encodingsOpt);
// init result container
BMapSharpArguments ret = new BMapSharpArguments();
// set handler
rootCommand.SetHandler((context) => {
ret.mFileName = context.ParseResult.GetValueForOption(fileNameOpt);
ret.mTempFolder = context.ParseResult.GetValueForOption(tempFolderOpt);
ret.mTextureFolder = context.ParseResult.GetValueForOption(textureFolderOpt);
ret.mEncodings = context.ParseResult.GetValueForOption(encodingsOpt).ToArray();
context.ExitCode = 61;
});
// execute root command and return value.
if (rootCommand.Invoke(args) != 61) return null;
return ret;
}
static void TestCommon(BMapSharp.BMapWrapper.BMFileReader reader) {
// Console.WriteLine("===== Groups =====");
// foreach (var gp in reader.GetGroups()) {
// Console.WriteLine(gp.GetName());
// foreach (var gp_item in gp.GetObjects()) {
// Console.WriteLine($"\t{gp_item.GetName()}");
// }
// }
// Console.WriteLine("===== 3dObjects =====");
// foreach (var obj in reader.Get3dObjects()) {
// Console.WriteLine(obj.GetName());
// var current_mesh = obj.GetCurrentMesh();
// var mesh_name = current_mesh is null ? "<null>" : current_mesh.GetName();
// Console.WriteLine($"\tMesh: {mesh_name}");
// Console.WriteLine($"\tVisibility: {obj.GetVisibility()}");
// Console.WriteLine($"\tMatrix: {obj.GetWorldMatrix().ToManaged()}");
// }
// Console.WriteLine("===== Meshes =====");
// foreach (var mesh in reader.GetMeshes()) {
// Console.WriteLine(mesh.GetName());
// Console.WriteLine($"\tLit Mode: {mesh.GetLitMode()}");
// Console.WriteLine($"\tVertex Count: {mesh.GetVertexCount()}");
// Console.WriteLine($"\tFace Count: {mesh.GetFaceCount()}");
// Console.WriteLine($"\tMaterial Slot Count: {mesh.GetMaterialSlotCount()}");
// }
// Console.WriteLine("===== Materials =====");
// foreach (var mtl in reader.GetMaterials()) {
// Console.WriteLine(mtl.GetName());
// Console.WriteLine($"\tDiffuse: {mtl.GetDiffuse().ToManagedRGBA()}");
// Console.WriteLine($"\tAmbient: {mtl.GetAmbient().ToManagedRGBA()}");
// Console.WriteLine($"\tSpecular: {mtl.GetSpecular().ToManagedRGBA()}");
// Console.WriteLine($"\tEmissive: {mtl.GetEmissive().ToManagedRGBA()}");
// Console.WriteLine($"\tSpecular Power: {mtl.GetSpecularPower()}");
// Console.WriteLine($"\tTexture Border Color: {mtl.GetTextureBorderColor().ToManagedRGBA()}");
// Console.WriteLine($"\tTexture Blend Mode: {mtl.GetTextureBlendMode()}");
// Console.WriteLine($"\tTexture Min Mode: {mtl.GetTextureMinMode()}");
// Console.WriteLine($"\tTexture Mag Mode: {mtl.GetTextureMagMode()}");
// Console.WriteLine($"\tSource Blend: {mtl.GetSourceBlend()}");
// Console.WriteLine($"\tDest Blend: {mtl.GetDestBlend()}");
// Console.WriteLine($"\tFill Mode: {mtl.GetFillMode()}");
// Console.WriteLine($"\tShade Mode: {mtl.GetShadeMode()}");
// Console.WriteLine($"\tAlpha Test Enabled: {mtl.GetAlphaTestEnabled()}");
// Console.WriteLine($"\tAlpha Blend Enabled: {mtl.GetAlphaBlendEnabled()}");
// Console.WriteLine($"\tPerspective Correction Enabled: {mtl.GetPerspectiveCorrectionEnabled()}");
// Console.WriteLine($"\tZ Write Enabled: {mtl.GetZWriteEnabled()}");
// Console.WriteLine($"\tTwo Sided Enabled: {mtl.GetTwoSidedEnabled()}");
// Console.WriteLine($"\tAlpha Ref: {mtl.GetAlphaRef()}");
// Console.WriteLine($"\tAlpha Func: {mtl.GetAlphaFunc()}");
// Console.WriteLine($"\tZ Func: {mtl.GetZFunc()}");
// }
// Console.WriteLine("===== Textures =====");
// foreach (var tex in reader.GetTextures()) {
// Console.WriteLine(tex.GetName());
// Console.WriteLine($"\tFile Name: {tex.GetFileName()}");
// Console.WriteLine($"\tSave Options: {tex.GetSaveOptions()}");
// Console.WriteLine($"\tVideo Format: {tex.GetVideoFormat()}");
// }
Console.WriteLine("===== Target Lights =====");
foreach (var lit in reader.GetTargetLights()) {
Console.WriteLine(lit.GetName());
Console.WriteLine($"\tVisibility: {lit.GetVisibility()}");
Console.WriteLine($"\tMatrix: {lit.GetWorldMatrix().ToManaged()}");
Console.WriteLine($"Type: {lit.GetLightType()}");
Console.WriteLine($"Color: {lit.GetColor().ToManagedRGBA()}");
Console.WriteLine($"Constant Attenuation: {lit.GetConstantAttenuation()}");
Console.WriteLine($"Linear Attenuation: {lit.GetLinearAttenuation()}");
Console.WriteLine($"Quadratic Attenuation: {lit.GetQuadraticAttenuation()}");
Console.WriteLine($"Range: {lit.GetRange()}");
Console.WriteLine($"Hot Spot: {lit.GetHotSpot()}");
Console.WriteLine($"Falloff: {lit.GetFalloff()}");
Console.WriteLine($"Falloff Shape: {lit.GetFalloffShape()}");
}
Console.WriteLine("===== END =====");
}
static void TestIEquatable(BMapSharp.BMapWrapper.BMFileReader reader) {
if (reader.Get3dObjectCount() < 2u) {
Debug.Fail(
"Invalid file for test IEquatable.",
"We can not perform IEquatable test because the length of 3dObject is too short (must greater than 2). Please choose another file to perform."
);
return;
}
// Prepare test variables
var all_3dobjects = new List<BM3dObject>(reader.Get3dObjects());
var first_3dobj = all_3dobjects[0];
var second_3dobj = all_3dobjects[1];
all_3dobjects = new List<BM3dObject>(reader.Get3dObjects());
var first_3dobj_again = all_3dobjects[0];
Debug.Assert(!Object.ReferenceEquals(first_3dobj, first_3dobj_again));
// Hashtable test
var test_hashset = new HashSet<BM3dObject>();
Debug.Assert(test_hashset.Add(first_3dobj));
Debug.Assert(!test_hashset.Add(first_3dobj_again));
Debug.Assert(test_hashset.Add(second_3dobj));
// Dictionary test
var test_dictionary = new Dictionary<BM3dObject, string>();
Debug.Assert(test_dictionary.TryAdd(first_3dobj, first_3dobj.GetName()));
Debug.Assert(!test_dictionary.TryAdd(first_3dobj_again, first_3dobj_again.GetName()));
Debug.Assert(test_dictionary.TryAdd(second_3dobj, second_3dobj.GetName()));
}
}
}

9
Assets/BMapBindings/BMapSharp/README.md Normal file
View File

@@ -0,0 +1,9 @@
# BMapSharp
The core of BMapSharp project is placed within `BMapSharp` subdirectory. This directory also contain a testbench project of `BMapSharp`, called `BMapSharpTestbench`. You can build it and do basic test for `BMapSharp`.
The native BMap library should be placed together with managed `BMapSharp` dynamic library. I use gitignore file to filter all native binary so you need put them manually. The native BMap library must be named as `BMap.dll` (in Windows), `BMap.so` (in Linux or BSD), or `BMap.dylib` (in macOS). If you still can not load BMap or your system is not listed above, you should name it as `BMap.bin`.
The most content of `VirtoolsTypes.cs` is generated by EnumsMigration, and the most content of `BMap.cs` is generated by BMapBindings. You should watch these file changes if corresponding C++ code or structures are changed.
Since BMap 0.3.0, testbench use command line arguments, instead of hardcode variables in code, as the arguments of BMap. It is convenient that debug BMapSharp without any modification of source code. For a brief instruction, you may need to launch BMapSharpTestbench in following command (just an example. you can modify it as you wished): `dotnet run -- --file-path "LightCameraTest.nmo" --temp-dir "Temp" --texture-dir "F:/Ballance/Ballance/Textures" --encodings cp1252 gb2312`.

150
Assets/BMapBindings/PyBMap/.gitignore vendored Normal file
View File

@@ -0,0 +1,150 @@
# -------------------- Personal --------------------
# Ignore VSCode
.vscode/
# Ignore binary BMap stuff
*.dll
*.pdb
*.so
*.dylib
*.bin
# -------------------- Python --------------------
# Byte-compiled / optimized / DLL files
__pycache__/
*.py[cod]
*$py.class
# C extensions
*.so
# Distribution / packaging
.Python
build/
develop-eggs/
dist/
downloads/
eggs/
.eggs/
lib/
lib64/
parts/
sdist/
var/
wheels/
share/python-wheels/
*.egg-info/
.installed.cfg
*.egg
MANIFEST
# PyInstaller
# Usually these files are written by a python script from a template
# before PyInstaller builds the exe, so as to inject date/other infos into it.
*.manifest
*.spec
# Installer logs
pip-log.txt
pip-delete-this-directory.txt
# Unit test / coverage reports
htmlcov/
.tox/
.nox/
.coverage
.coverage.*
.cache
nosetests.xml
coverage.xml
*.cover
*.py,cover
.hypothesis/
.pytest_cache/
cover/
# Translations
*.mo
*.pot
# Django stuff:
*.log
local_settings.py
db.sqlite3
db.sqlite3-journal
# Flask stuff:
instance/
.webassets-cache
# Scrapy stuff:
.scrapy
# Sphinx documentation
docs/_build/
# PyBuilder
.pybuilder/
target/
# Jupyter Notebook
.ipynb_checkpoints
# IPython
profile_default/
ipython_config.py
# pyenv
# For a library or package, you might want to ignore these files since the code is
# intended to run in multiple environments; otherwise, check them in:
# .python-version
# pipenv
# According to pypa/pipenv#598, it is recommended to include Pipfile.lock in version control.
# However, in case of collaboration, if having platform-specific dependencies or dependencies
# having no cross-platform support, pipenv may install dependencies that don't work, or not
# install all needed dependencies.
#Pipfile.lock
# PEP 582; used by e.g. github.com/David-OConnor/pyflow
__pypackages__/
# Celery stuff
celerybeat-schedule
celerybeat.pid
# SageMath parsed files
*.sage.py
# Environments
.env
.venv
env/
venv/
ENV/
env.bak/
venv.bak/
# Spyder project settings
.spyderproject
.spyproject
# Rope project settings
.ropeproject
# mkdocs documentation
/site
# mypy
.mypy_cache/
.dmypy.json
dmypy.json
# Pyre type checker
.pyre/
# pytype static type analyzer
.pytype/
# Cython debug symbols
cython_debug/

0
Assets/BMapBindings/PyBMap/PyBMap/__init__.py Normal file
View File

913
Assets/BMapBindings/PyBMap/PyBMap/bmap.py Normal file
View File

@@ -0,0 +1,913 @@
import ctypes, os, sys, typing
#region Type Defines
class BMapException(Exception):
"""
The exception thrown by BMap bindings.
"""
pass
bm_CKSTRING = ctypes.c_char_p
bm_CKSTRING_p = ctypes.POINTER(bm_CKSTRING)
bm_CKDWORD = ctypes.c_uint32
bm_CKDWORD_p = ctypes.POINTER(bm_CKDWORD)
bm_CKDWORD_pp = ctypes.POINTER(bm_CKDWORD_p)
bm_CKWORD = ctypes.c_uint16
bm_CKWORD_p = ctypes.POINTER(bm_CKWORD)
bm_CKWORD_pp = ctypes.POINTER(bm_CKWORD_p)
bm_CKID = ctypes.c_uint32
bm_CKID_p = ctypes.POINTER(bm_CKID)
bm_CKID_pp = ctypes.POINTER(bm_CKID_p)
bm_CKFLOAT = ctypes.c_float
bm_CKFLOAT_p = ctypes.POINTER(bm_CKFLOAT)
bm_CKINT = ctypes.c_int32
bm_CKBYTE = ctypes.c_uint8
bm_CKBYTE_p = ctypes.POINTER(bm_CKBYTE)
bm_enum = bm_CKDWORD
bm_enum_p = ctypes.POINTER(bm_enum)
bm_bool = ctypes.c_bool
bm_bool_p = ctypes.POINTER(bm_bool)
bm_void_p = ctypes.c_void_p
bm_void_pp = ctypes.POINTER(ctypes.c_void_p)
bm_callback = ctypes.CFUNCTYPE(None, bm_CKSTRING)
class bm_VxVector2(ctypes.Structure):
_fields_ = [
('x', bm_CKFLOAT),
('y', bm_CKFLOAT),
]
bm_VxVector2_p = ctypes.POINTER(bm_VxVector2)
bm_VxVector2_pp = ctypes.POINTER(bm_VxVector2_p)
class bm_VxVector3(ctypes.Structure):
_fields_ = [
('x', bm_CKFLOAT),
('y', bm_CKFLOAT),
('z', bm_CKFLOAT),
]
bm_VxVector3_p = ctypes.POINTER(bm_VxVector3)
bm_VxVector3_pp = ctypes.POINTER(bm_VxVector3_p)
class bm_VxColor(ctypes.Structure):
_fields_ = [
('r', bm_CKFLOAT),
('g', bm_CKFLOAT),
('b', bm_CKFLOAT),
('a', bm_CKFLOAT),
]
bm_VxColor_p = ctypes.POINTER(bm_VxColor)
class bm_VxMatrix(ctypes.Structure):
_fields_ = list(
(f'i{idx}', bm_CKFLOAT) for idx in range(16)
)
bm_VxMatrix_p = ctypes.POINTER(bm_VxMatrix)
#endregion
#region BMap Loader
_g_BMapLibName: str
if sys.platform.startswith('win32') or sys.platform.startswith('cygwin'):
_g_BMapLibName = "BMap.dll"
elif sys.platform.startswith('linux') or sys.platform.startswith('freebsd'):
_g_BMapLibName = "BMap.so"
elif sys.platform.startswith('darwin'):
_g_BMapLibName = "BMap.dylib"
else:
_g_BMapLibName = "BMap.bin"
_g_BMapLibPath: str = os.path.join(os.path.dirname(__file__), _g_BMapLibName)
_g_BMapModule: ctypes.CDLL | None = None
try:
_g_BMapModule = ctypes.cdll.LoadLibrary(_g_BMapLibPath)
except:
print(f'Fail to load native BMap dynamic library file "{_g_BMapLibPath}".')
_g_BMapModule = None
def is_bmap_available() -> bool:
return _g_BMapModule is not None
def _bmap_error_check(result: bool, func, args):
if not result:
raise BMapException("BMap operation failed.")
return result
def _create_bmap_func(fct_name: str, fct_params: list[typing.Any]) -> typing.Callable[..., bm_bool]:
if _g_BMapModule is None: return None
cache: typing.Callable[..., bm_bool] = getattr(_g_BMapModule, fct_name)
cache.argtypes = fct_params
cache.restype = bm_bool
cache.errcheck = _bmap_error_check
return cache
#endregion
#region Function Defines
##### GENERATED FUNCTIONS BEGIN #####
## BMInit
# @return True if no error, otherwise False.
BMInit = _create_bmap_func('BMInit', [])
## BMDispose
# @return True if no error, otherwise False.
BMDispose = _create_bmap_func('BMDispose', [])
## BMFile_Load
# @param file_name[in] Type: LibCmo::CKSTRING.
# @param temp_folder[in] Type: LibCmo::CKSTRING.
# @param texture_folder[in] Type: LibCmo::CKSTRING.
# @param raw_callback[in] Type: BMap::NakedOutputCallback.
# @param encoding_count[in] Type: LibCmo::CKDWORD.
# @param encodings[in] Type: LibCmo::CKSTRING*.
# @param out_file[out] Type: BMap::BMFile*. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_Load = _create_bmap_func('BMFile_Load', [bm_CKSTRING, bm_CKSTRING, bm_CKSTRING, bm_callback, bm_CKDWORD, bm_CKSTRING_p, bm_void_pp])
## BMFile_Create
# @param temp_folder[in] Type: LibCmo::CKSTRING.
# @param texture_folder[in] Type: LibCmo::CKSTRING.
# @param raw_callback[in] Type: BMap::NakedOutputCallback.
# @param encoding_count[in] Type: LibCmo::CKDWORD.
# @param encodings[in] Type: LibCmo::CKSTRING*.
# @param out_file[out] Type: BMap::BMFile*. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_Create = _create_bmap_func('BMFile_Create', [bm_CKSTRING, bm_CKSTRING, bm_callback, bm_CKDWORD, bm_CKSTRING_p, bm_void_pp])
## BMFile_Save
# @param map_file[in] Type: BMap::BMFile*.
# @param file_name[in] Type: LibCmo::CKSTRING.
# @param texture_save_opt[in] Type: LibCmo::CK2::CK_TEXTURE_SAVEOPTIONS.
# @param use_compress[in] Type: bool.
# @param compreess_level[in] Type: LibCmo::CKINT.
# @return True if no error, otherwise False.
BMFile_Save = _create_bmap_func('BMFile_Save', [bm_void_p, bm_CKSTRING, bm_enum, bm_bool, bm_CKINT])
## BMFile_Free
# @param map_file[in] Type: BMap::BMFile*.
# @return True if no error, otherwise False.
BMFile_Free = _create_bmap_func('BMFile_Free', [bm_void_p])
## BMFile_GetGroupCount
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param out_count[out] Type: LibCmo::CKDWORD. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_GetGroupCount = _create_bmap_func('BMFile_GetGroupCount', [bm_void_p, bm_CKDWORD_p])
## BMFile_GetGroup
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param idx[in] Type: LibCmo::CKDWORD.
# @param out_id[out] Type: LibCmo::CK2::CK_ID. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_GetGroup = _create_bmap_func('BMFile_GetGroup', [bm_void_p, bm_CKDWORD, bm_CKID_p])
## BMFile_CreateGroup
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param out_id[out] Type: LibCmo::CK2::CK_ID. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_CreateGroup = _create_bmap_func('BMFile_CreateGroup', [bm_void_p, bm_CKID_p])
## BMFile_Get3dObjectCount
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param out_count[out] Type: LibCmo::CKDWORD. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_Get3dObjectCount = _create_bmap_func('BMFile_Get3dObjectCount', [bm_void_p, bm_CKDWORD_p])
## BMFile_Get3dObject
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param idx[in] Type: LibCmo::CKDWORD.
# @param out_id[out] Type: LibCmo::CK2::CK_ID. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_Get3dObject = _create_bmap_func('BMFile_Get3dObject', [bm_void_p, bm_CKDWORD, bm_CKID_p])
## BMFile_Create3dObject
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param out_id[out] Type: LibCmo::CK2::CK_ID. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_Create3dObject = _create_bmap_func('BMFile_Create3dObject', [bm_void_p, bm_CKID_p])
## BMFile_GetMeshCount
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param out_count[out] Type: LibCmo::CKDWORD. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_GetMeshCount = _create_bmap_func('BMFile_GetMeshCount', [bm_void_p, bm_CKDWORD_p])
## BMFile_GetMesh
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param idx[in] Type: LibCmo::CKDWORD.
# @param out_id[out] Type: LibCmo::CK2::CK_ID. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_GetMesh = _create_bmap_func('BMFile_GetMesh', [bm_void_p, bm_CKDWORD, bm_CKID_p])
## BMFile_CreateMesh
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param out_id[out] Type: LibCmo::CK2::CK_ID. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_CreateMesh = _create_bmap_func('BMFile_CreateMesh', [bm_void_p, bm_CKID_p])
## BMFile_GetMaterialCount
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param out_count[out] Type: LibCmo::CKDWORD. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_GetMaterialCount = _create_bmap_func('BMFile_GetMaterialCount', [bm_void_p, bm_CKDWORD_p])
## BMFile_GetMaterial
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param idx[in] Type: LibCmo::CKDWORD.
# @param out_id[out] Type: LibCmo::CK2::CK_ID. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_GetMaterial = _create_bmap_func('BMFile_GetMaterial', [bm_void_p, bm_CKDWORD, bm_CKID_p])
## BMFile_CreateMaterial
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param out_id[out] Type: LibCmo::CK2::CK_ID. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_CreateMaterial = _create_bmap_func('BMFile_CreateMaterial', [bm_void_p, bm_CKID_p])
## BMFile_GetTextureCount
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param out_count[out] Type: LibCmo::CKDWORD. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_GetTextureCount = _create_bmap_func('BMFile_GetTextureCount', [bm_void_p, bm_CKDWORD_p])
## BMFile_GetTexture
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param idx[in] Type: LibCmo::CKDWORD.
# @param out_id[out] Type: LibCmo::CK2::CK_ID. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_GetTexture = _create_bmap_func('BMFile_GetTexture', [bm_void_p, bm_CKDWORD, bm_CKID_p])
## BMFile_CreateTexture
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param out_id[out] Type: LibCmo::CK2::CK_ID. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_CreateTexture = _create_bmap_func('BMFile_CreateTexture', [bm_void_p, bm_CKID_p])
## BMFile_GetTargetLightCount
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param out_count[out] Type: LibCmo::CKDWORD. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_GetTargetLightCount = _create_bmap_func('BMFile_GetTargetLightCount', [bm_void_p, bm_CKDWORD_p])
## BMFile_GetTargetLight
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param idx[in] Type: LibCmo::CKDWORD.
# @param out_id[out] Type: LibCmo::CK2::CK_ID. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_GetTargetLight = _create_bmap_func('BMFile_GetTargetLight', [bm_void_p, bm_CKDWORD, bm_CKID_p])
## BMFile_CreateTargetLight
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param out_id[out] Type: LibCmo::CK2::CK_ID. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMFile_CreateTargetLight = _create_bmap_func('BMFile_CreateTargetLight', [bm_void_p, bm_CKID_p])
## BMMeshTrans_New
# @param out_trans[out] Type: BMap::BMMeshTransition*. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMeshTrans_New = _create_bmap_func('BMMeshTrans_New', [bm_void_pp])
## BMMeshTrans_Delete
# @param trans[in] Type: BMap::BMMeshTransition*.
# @return True if no error, otherwise False.
BMMeshTrans_Delete = _create_bmap_func('BMMeshTrans_Delete', [bm_void_p])
## BMMeshTrans_PrepareVertexCount
# @param trans[in] Type: BMap::BMMeshTransition*. The pointer to corresponding BMMeshTransition.
# @param count[in] Type: LibCmo::CKDWORD.
# @return True if no error, otherwise False.
BMMeshTrans_PrepareVertexCount = _create_bmap_func('BMMeshTrans_PrepareVertexCount', [bm_void_p, bm_CKDWORD])
## BMMeshTrans_PrepareVertex
# @param trans[in] Type: BMap::BMMeshTransition*. The pointer to corresponding BMMeshTransition.
# @param out_mem[out] Type: LibCmo::VxMath::VxVector3*. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMeshTrans_PrepareVertex = _create_bmap_func('BMMeshTrans_PrepareVertex', [bm_void_p, bm_VxVector3_pp])
## BMMeshTrans_PrepareNormalCount
# @param trans[in] Type: BMap::BMMeshTransition*. The pointer to corresponding BMMeshTransition.
# @param count[in] Type: LibCmo::CKDWORD.
# @return True if no error, otherwise False.
BMMeshTrans_PrepareNormalCount = _create_bmap_func('BMMeshTrans_PrepareNormalCount', [bm_void_p, bm_CKDWORD])
## BMMeshTrans_PrepareNormal
# @param trans[in] Type: BMap::BMMeshTransition*. The pointer to corresponding BMMeshTransition.
# @param out_mem[out] Type: LibCmo::VxMath::VxVector3*. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMeshTrans_PrepareNormal = _create_bmap_func('BMMeshTrans_PrepareNormal', [bm_void_p, bm_VxVector3_pp])
## BMMeshTrans_PrepareUVCount
# @param trans[in] Type: BMap::BMMeshTransition*. The pointer to corresponding BMMeshTransition.
# @param count[in] Type: LibCmo::CKDWORD.
# @return True if no error, otherwise False.
BMMeshTrans_PrepareUVCount = _create_bmap_func('BMMeshTrans_PrepareUVCount', [bm_void_p, bm_CKDWORD])
## BMMeshTrans_PrepareUV
# @param trans[in] Type: BMap::BMMeshTransition*. The pointer to corresponding BMMeshTransition.
# @param out_mem[out] Type: LibCmo::VxMath::VxVector2*. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMeshTrans_PrepareUV = _create_bmap_func('BMMeshTrans_PrepareUV', [bm_void_p, bm_VxVector2_pp])
## BMMeshTrans_PrepareMtlSlotCount
# @param trans[in] Type: BMap::BMMeshTransition*. The pointer to corresponding BMMeshTransition.
# @param count[in] Type: LibCmo::CKDWORD.
# @return True if no error, otherwise False.
BMMeshTrans_PrepareMtlSlotCount = _create_bmap_func('BMMeshTrans_PrepareMtlSlotCount', [bm_void_p, bm_CKDWORD])
## BMMeshTrans_PrepareMtlSlot
# @param trans[in] Type: BMap::BMMeshTransition*. The pointer to corresponding BMMeshTransition.
# @param out_mem[out] Type: LibCmo::CK2::CK_ID*. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMeshTrans_PrepareMtlSlot = _create_bmap_func('BMMeshTrans_PrepareMtlSlot', [bm_void_p, bm_CKID_pp])
## BMMeshTrans_PrepareFaceCount
# @param trans[in] Type: BMap::BMMeshTransition*. The pointer to corresponding BMMeshTransition.
# @param count[in] Type: LibCmo::CKDWORD.
# @return True if no error, otherwise False.
BMMeshTrans_PrepareFaceCount = _create_bmap_func('BMMeshTrans_PrepareFaceCount', [bm_void_p, bm_CKDWORD])
## BMMeshTrans_PrepareFaceVertexIndices
# @param trans[in] Type: BMap::BMMeshTransition*. The pointer to corresponding BMMeshTransition.
# @param out_mem[out] Type: LibCmo::CKDWORD*. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMeshTrans_PrepareFaceVertexIndices = _create_bmap_func('BMMeshTrans_PrepareFaceVertexIndices', [bm_void_p, bm_CKDWORD_pp])
## BMMeshTrans_PrepareFaceNormalIndices
# @param trans[in] Type: BMap::BMMeshTransition*. The pointer to corresponding BMMeshTransition.
# @param out_mem[out] Type: LibCmo::CKDWORD*. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMeshTrans_PrepareFaceNormalIndices = _create_bmap_func('BMMeshTrans_PrepareFaceNormalIndices', [bm_void_p, bm_CKDWORD_pp])
## BMMeshTrans_PrepareFaceUVIndices
# @param trans[in] Type: BMap::BMMeshTransition*. The pointer to corresponding BMMeshTransition.
# @param out_mem[out] Type: LibCmo::CKDWORD*. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMeshTrans_PrepareFaceUVIndices = _create_bmap_func('BMMeshTrans_PrepareFaceUVIndices', [bm_void_p, bm_CKDWORD_pp])
## BMMeshTrans_PrepareFaceMtlSlot
# @param trans[in] Type: BMap::BMMeshTransition*. The pointer to corresponding BMMeshTransition.
# @param out_mem[out] Type: LibCmo::CKDWORD*. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMeshTrans_PrepareFaceMtlSlot = _create_bmap_func('BMMeshTrans_PrepareFaceMtlSlot', [bm_void_p, bm_CKDWORD_pp])
## BMMeshTrans_Parse
# @param trans[in] Type: BMap::BMMeshTransition*. The pointer to corresponding BMMeshTransition.
# @param bmfile[in] Type: BMap::BMFile*.
# @param objid[in] Type: LibCmo::CK2::CK_ID.
# @return True if no error, otherwise False.
BMMeshTrans_Parse = _create_bmap_func('BMMeshTrans_Parse', [bm_void_p, bm_void_p, bm_CKID])
## BMObject_GetName
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_name[out] Type: LibCmo::CKSTRING. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMObject_GetName = _create_bmap_func('BMObject_GetName', [bm_void_p, bm_CKID, bm_CKSTRING_p])
## BMObject_SetName
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param name[in] Type: LibCmo::CKSTRING.
# @return True if no error, otherwise False.
BMObject_SetName = _create_bmap_func('BMObject_SetName', [bm_void_p, bm_CKID, bm_CKSTRING])
## BMGroup_AddObject
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param memberid[in] Type: LibCmo::CK2::CK_ID.
# @return True if no error, otherwise False.
BMGroup_AddObject = _create_bmap_func('BMGroup_AddObject', [bm_void_p, bm_CKID, bm_CKID])
## BMGroup_GetObjectCount
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_count[out] Type: LibCmo::CKDWORD. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMGroup_GetObjectCount = _create_bmap_func('BMGroup_GetObjectCount', [bm_void_p, bm_CKID, bm_CKDWORD_p])
## BMGroup_GetObject
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param pos[in] Type: LibCmo::CKDWORD.
# @param out_objid[out] Type: LibCmo::CK2::CK_ID. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMGroup_GetObject = _create_bmap_func('BMGroup_GetObject', [bm_void_p, bm_CKID, bm_CKDWORD, bm_CKID_p])
## BMTexture_GetFileName
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_filename[out] Type: LibCmo::CKSTRING. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMTexture_GetFileName = _create_bmap_func('BMTexture_GetFileName', [bm_void_p, bm_CKID, bm_CKSTRING_p])
## BMTexture_LoadImage
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param filename[in] Type: LibCmo::CKSTRING.
# @return True if no error, otherwise False.
BMTexture_LoadImage = _create_bmap_func('BMTexture_LoadImage', [bm_void_p, bm_CKID, bm_CKSTRING])
## BMTexture_SaveImage
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param filename[in] Type: LibCmo::CKSTRING.
# @return True if no error, otherwise False.
BMTexture_SaveImage = _create_bmap_func('BMTexture_SaveImage', [bm_void_p, bm_CKID, bm_CKSTRING])
## BMTexture_GetSaveOptions
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_saveopt[out] Type: LibCmo::CK2::CK_TEXTURE_SAVEOPTIONS. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMTexture_GetSaveOptions = _create_bmap_func('BMTexture_GetSaveOptions', [bm_void_p, bm_CKID, bm_enum_p])
## BMTexture_SetSaveOptions
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param saveopt[in] Type: LibCmo::CK2::CK_TEXTURE_SAVEOPTIONS.
# @return True if no error, otherwise False.
BMTexture_SetSaveOptions = _create_bmap_func('BMTexture_SetSaveOptions', [bm_void_p, bm_CKID, bm_enum])
## BMTexture_GetVideoFormat
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_vfmt[out] Type: LibCmo::VxMath::VX_PIXELFORMAT. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMTexture_GetVideoFormat = _create_bmap_func('BMTexture_GetVideoFormat', [bm_void_p, bm_CKID, bm_enum_p])
## BMTexture_SetVideoFormat
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param vfmt[in] Type: LibCmo::VxMath::VX_PIXELFORMAT.
# @return True if no error, otherwise False.
BMTexture_SetVideoFormat = _create_bmap_func('BMTexture_SetVideoFormat', [bm_void_p, bm_CKID, bm_enum])
## BMMaterial_GetDiffuse
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::VxMath::VxColor. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetDiffuse = _create_bmap_func('BMMaterial_GetDiffuse', [bm_void_p, bm_CKID, bm_VxColor_p])
## BMMaterial_SetDiffuse
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param col[in] Type: LibCmo::VxMath::VxColor.
# @return True if no error, otherwise False.
BMMaterial_SetDiffuse = _create_bmap_func('BMMaterial_SetDiffuse', [bm_void_p, bm_CKID, bm_VxColor])
## BMMaterial_GetAmbient
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::VxMath::VxColor. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetAmbient = _create_bmap_func('BMMaterial_GetAmbient', [bm_void_p, bm_CKID, bm_VxColor_p])
## BMMaterial_SetAmbient
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param col[in] Type: LibCmo::VxMath::VxColor.
# @return True if no error, otherwise False.
BMMaterial_SetAmbient = _create_bmap_func('BMMaterial_SetAmbient', [bm_void_p, bm_CKID, bm_VxColor])
## BMMaterial_GetSpecular
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::VxMath::VxColor. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetSpecular = _create_bmap_func('BMMaterial_GetSpecular', [bm_void_p, bm_CKID, bm_VxColor_p])
## BMMaterial_SetSpecular
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param col[in] Type: LibCmo::VxMath::VxColor.
# @return True if no error, otherwise False.
BMMaterial_SetSpecular = _create_bmap_func('BMMaterial_SetSpecular', [bm_void_p, bm_CKID, bm_VxColor])
## BMMaterial_GetEmissive
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::VxMath::VxColor. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetEmissive = _create_bmap_func('BMMaterial_GetEmissive', [bm_void_p, bm_CKID, bm_VxColor_p])
## BMMaterial_SetEmissive
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param col[in] Type: LibCmo::VxMath::VxColor.
# @return True if no error, otherwise False.
BMMaterial_SetEmissive = _create_bmap_func('BMMaterial_SetEmissive', [bm_void_p, bm_CKID, bm_VxColor])
## BMMaterial_GetSpecularPower
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::CKFLOAT. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetSpecularPower = _create_bmap_func('BMMaterial_GetSpecularPower', [bm_void_p, bm_CKID, bm_CKFLOAT_p])
## BMMaterial_SetSpecularPower
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::CKFLOAT.
# @return True if no error, otherwise False.
BMMaterial_SetSpecularPower = _create_bmap_func('BMMaterial_SetSpecularPower', [bm_void_p, bm_CKID, bm_CKFLOAT])
## BMMaterial_GetTexture
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_texid[out] Type: LibCmo::CK2::CK_ID. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetTexture = _create_bmap_func('BMMaterial_GetTexture', [bm_void_p, bm_CKID, bm_CKID_p])
## BMMaterial_SetTexture
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param texid[in] Type: LibCmo::CK2::CK_ID.
# @return True if no error, otherwise False.
BMMaterial_SetTexture = _create_bmap_func('BMMaterial_SetTexture', [bm_void_p, bm_CKID, bm_CKID])
## BMMaterial_GetTextureBorderColor
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::CKDWORD. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetTextureBorderColor = _create_bmap_func('BMMaterial_GetTextureBorderColor', [bm_void_p, bm_CKID, bm_CKDWORD_p])
## BMMaterial_SetTextureBorderColor
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::CKDWORD.
# @return True if no error, otherwise False.
BMMaterial_SetTextureBorderColor = _create_bmap_func('BMMaterial_SetTextureBorderColor', [bm_void_p, bm_CKID, bm_CKDWORD])
## BMMaterial_GetTextureBlendMode
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::VxMath::VXTEXTURE_BLENDMODE. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetTextureBlendMode = _create_bmap_func('BMMaterial_GetTextureBlendMode', [bm_void_p, bm_CKID, bm_enum_p])
## BMMaterial_SetTextureBlendMode
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::VxMath::VXTEXTURE_BLENDMODE.
# @return True if no error, otherwise False.
BMMaterial_SetTextureBlendMode = _create_bmap_func('BMMaterial_SetTextureBlendMode', [bm_void_p, bm_CKID, bm_enum])
## BMMaterial_GetTextureMinMode
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::VxMath::VXTEXTURE_FILTERMODE. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetTextureMinMode = _create_bmap_func('BMMaterial_GetTextureMinMode', [bm_void_p, bm_CKID, bm_enum_p])
## BMMaterial_SetTextureMinMode
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::VxMath::VXTEXTURE_FILTERMODE.
# @return True if no error, otherwise False.
BMMaterial_SetTextureMinMode = _create_bmap_func('BMMaterial_SetTextureMinMode', [bm_void_p, bm_CKID, bm_enum])
## BMMaterial_GetTextureMagMode
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::VxMath::VXTEXTURE_FILTERMODE. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetTextureMagMode = _create_bmap_func('BMMaterial_GetTextureMagMode', [bm_void_p, bm_CKID, bm_enum_p])
## BMMaterial_SetTextureMagMode
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::VxMath::VXTEXTURE_FILTERMODE.
# @return True if no error, otherwise False.
BMMaterial_SetTextureMagMode = _create_bmap_func('BMMaterial_SetTextureMagMode', [bm_void_p, bm_CKID, bm_enum])
## BMMaterial_GetTextureAddressMode
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::VxMath::VXTEXTURE_ADDRESSMODE. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetTextureAddressMode = _create_bmap_func('BMMaterial_GetTextureAddressMode', [bm_void_p, bm_CKID, bm_enum_p])
## BMMaterial_SetTextureAddressMode
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::VxMath::VXTEXTURE_ADDRESSMODE.
# @return True if no error, otherwise False.
BMMaterial_SetTextureAddressMode = _create_bmap_func('BMMaterial_SetTextureAddressMode', [bm_void_p, bm_CKID, bm_enum])
## BMMaterial_GetSourceBlend
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::VxMath::VXBLEND_MODE. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetSourceBlend = _create_bmap_func('BMMaterial_GetSourceBlend', [bm_void_p, bm_CKID, bm_enum_p])
## BMMaterial_SetSourceBlend
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::VxMath::VXBLEND_MODE.
# @return True if no error, otherwise False.
BMMaterial_SetSourceBlend = _create_bmap_func('BMMaterial_SetSourceBlend', [bm_void_p, bm_CKID, bm_enum])
## BMMaterial_GetDestBlend
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::VxMath::VXBLEND_MODE. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetDestBlend = _create_bmap_func('BMMaterial_GetDestBlend', [bm_void_p, bm_CKID, bm_enum_p])
## BMMaterial_SetDestBlend
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::VxMath::VXBLEND_MODE.
# @return True if no error, otherwise False.
BMMaterial_SetDestBlend = _create_bmap_func('BMMaterial_SetDestBlend', [bm_void_p, bm_CKID, bm_enum])
## BMMaterial_GetFillMode
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::VxMath::VXFILL_MODE. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetFillMode = _create_bmap_func('BMMaterial_GetFillMode', [bm_void_p, bm_CKID, bm_enum_p])
## BMMaterial_SetFillMode
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::VxMath::VXFILL_MODE.
# @return True if no error, otherwise False.
BMMaterial_SetFillMode = _create_bmap_func('BMMaterial_SetFillMode', [bm_void_p, bm_CKID, bm_enum])
## BMMaterial_GetShadeMode
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::VxMath::VXSHADE_MODE. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetShadeMode = _create_bmap_func('BMMaterial_GetShadeMode', [bm_void_p, bm_CKID, bm_enum_p])
## BMMaterial_SetShadeMode
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::VxMath::VXSHADE_MODE.
# @return True if no error, otherwise False.
BMMaterial_SetShadeMode = _create_bmap_func('BMMaterial_SetShadeMode', [bm_void_p, bm_CKID, bm_enum])
## BMMaterial_GetAlphaTestEnabled
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: bool. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetAlphaTestEnabled = _create_bmap_func('BMMaterial_GetAlphaTestEnabled', [bm_void_p, bm_CKID, bm_bool_p])
## BMMaterial_SetAlphaTestEnabled
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param enabled[in] Type: bool.
# @return True if no error, otherwise False.
BMMaterial_SetAlphaTestEnabled = _create_bmap_func('BMMaterial_SetAlphaTestEnabled', [bm_void_p, bm_CKID, bm_bool])
## BMMaterial_GetAlphaBlendEnabled
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: bool. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetAlphaBlendEnabled = _create_bmap_func('BMMaterial_GetAlphaBlendEnabled', [bm_void_p, bm_CKID, bm_bool_p])
## BMMaterial_SetAlphaBlendEnabled
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param enabled[in] Type: bool.
# @return True if no error, otherwise False.
BMMaterial_SetAlphaBlendEnabled = _create_bmap_func('BMMaterial_SetAlphaBlendEnabled', [bm_void_p, bm_CKID, bm_bool])
## BMMaterial_GetPerspectiveCorrectionEnabled
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: bool. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetPerspectiveCorrectionEnabled = _create_bmap_func('BMMaterial_GetPerspectiveCorrectionEnabled', [bm_void_p, bm_CKID, bm_bool_p])
## BMMaterial_SetPerspectiveCorrectionEnabled
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param enabled[in] Type: bool.
# @return True if no error, otherwise False.
BMMaterial_SetPerspectiveCorrectionEnabled = _create_bmap_func('BMMaterial_SetPerspectiveCorrectionEnabled', [bm_void_p, bm_CKID, bm_bool])
## BMMaterial_GetZWriteEnabled
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: bool. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetZWriteEnabled = _create_bmap_func('BMMaterial_GetZWriteEnabled', [bm_void_p, bm_CKID, bm_bool_p])
## BMMaterial_SetZWriteEnabled
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param enabled[in] Type: bool.
# @return True if no error, otherwise False.
BMMaterial_SetZWriteEnabled = _create_bmap_func('BMMaterial_SetZWriteEnabled', [bm_void_p, bm_CKID, bm_bool])
## BMMaterial_GetTwoSidedEnabled
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: bool. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetTwoSidedEnabled = _create_bmap_func('BMMaterial_GetTwoSidedEnabled', [bm_void_p, bm_CKID, bm_bool_p])
## BMMaterial_SetTwoSidedEnabled
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param enabled[in] Type: bool.
# @return True if no error, otherwise False.
BMMaterial_SetTwoSidedEnabled = _create_bmap_func('BMMaterial_SetTwoSidedEnabled', [bm_void_p, bm_CKID, bm_bool])
## BMMaterial_GetAlphaRef
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::CKBYTE. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetAlphaRef = _create_bmap_func('BMMaterial_GetAlphaRef', [bm_void_p, bm_CKID, bm_CKBYTE_p])
## BMMaterial_SetAlphaRef
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::CKBYTE.
# @return True if no error, otherwise False.
BMMaterial_SetAlphaRef = _create_bmap_func('BMMaterial_SetAlphaRef', [bm_void_p, bm_CKID, bm_CKBYTE])
## BMMaterial_GetAlphaFunc
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::VxMath::VXCMPFUNC. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetAlphaFunc = _create_bmap_func('BMMaterial_GetAlphaFunc', [bm_void_p, bm_CKID, bm_enum_p])
## BMMaterial_SetAlphaFunc
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::VxMath::VXCMPFUNC.
# @return True if no error, otherwise False.
BMMaterial_SetAlphaFunc = _create_bmap_func('BMMaterial_SetAlphaFunc', [bm_void_p, bm_CKID, bm_enum])
## BMMaterial_GetZFunc
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::VxMath::VXCMPFUNC. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMaterial_GetZFunc = _create_bmap_func('BMMaterial_GetZFunc', [bm_void_p, bm_CKID, bm_enum_p])
## BMMaterial_SetZFunc
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::VxMath::VXCMPFUNC.
# @return True if no error, otherwise False.
BMMaterial_SetZFunc = _create_bmap_func('BMMaterial_SetZFunc', [bm_void_p, bm_CKID, bm_enum])
## BMMesh_GetLitMode
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_mode[out] Type: LibCmo::VxMath::VXMESH_LITMODE. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMesh_GetLitMode = _create_bmap_func('BMMesh_GetLitMode', [bm_void_p, bm_CKID, bm_enum_p])
## BMMesh_SetLitMode
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param mode[in] Type: LibCmo::VxMath::VXMESH_LITMODE.
# @return True if no error, otherwise False.
BMMesh_SetLitMode = _create_bmap_func('BMMesh_SetLitMode', [bm_void_p, bm_CKID, bm_enum])
## BMMesh_GetVertexCount
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_count[out] Type: LibCmo::CKDWORD. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMesh_GetVertexCount = _create_bmap_func('BMMesh_GetVertexCount', [bm_void_p, bm_CKID, bm_CKDWORD_p])
## BMMesh_SetVertexCount
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param count[in] Type: LibCmo::CKDWORD.
# @return True if no error, otherwise False.
BMMesh_SetVertexCount = _create_bmap_func('BMMesh_SetVertexCount', [bm_void_p, bm_CKID, bm_CKDWORD])
## BMMesh_GetVertexPositions
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_mem[out] Type: LibCmo::VxMath::VxVector3*. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMesh_GetVertexPositions = _create_bmap_func('BMMesh_GetVertexPositions', [bm_void_p, bm_CKID, bm_VxVector3_pp])
## BMMesh_GetVertexNormals
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_mem[out] Type: LibCmo::VxMath::VxVector3*. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMesh_GetVertexNormals = _create_bmap_func('BMMesh_GetVertexNormals', [bm_void_p, bm_CKID, bm_VxVector3_pp])
## BMMesh_GetVertexUVs
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_mem[out] Type: LibCmo::VxMath::VxVector2*. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMesh_GetVertexUVs = _create_bmap_func('BMMesh_GetVertexUVs', [bm_void_p, bm_CKID, bm_VxVector2_pp])
## BMMesh_GetFaceCount
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_count[out] Type: LibCmo::CKDWORD. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMesh_GetFaceCount = _create_bmap_func('BMMesh_GetFaceCount', [bm_void_p, bm_CKID, bm_CKDWORD_p])
## BMMesh_SetFaceCount
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param count[in] Type: LibCmo::CKDWORD.
# @return True if no error, otherwise False.
BMMesh_SetFaceCount = _create_bmap_func('BMMesh_SetFaceCount', [bm_void_p, bm_CKID, bm_CKDWORD])
## BMMesh_GetFaceIndices
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_mem[out] Type: LibCmo::CKWORD*. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMesh_GetFaceIndices = _create_bmap_func('BMMesh_GetFaceIndices', [bm_void_p, bm_CKID, bm_CKWORD_pp])
## BMMesh_GetFaceMaterialSlotIndexs
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_mem[out] Type: LibCmo::CKWORD*. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMesh_GetFaceMaterialSlotIndexs = _create_bmap_func('BMMesh_GetFaceMaterialSlotIndexs', [bm_void_p, bm_CKID, bm_CKWORD_pp])
## BMMesh_GetMaterialSlotCount
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_count[out] Type: LibCmo::CKDWORD. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMesh_GetMaterialSlotCount = _create_bmap_func('BMMesh_GetMaterialSlotCount', [bm_void_p, bm_CKID, bm_CKDWORD_p])
## BMMesh_SetMaterialSlotCount
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param count[in] Type: LibCmo::CKDWORD.
# @return True if no error, otherwise False.
BMMesh_SetMaterialSlotCount = _create_bmap_func('BMMesh_SetMaterialSlotCount', [bm_void_p, bm_CKID, bm_CKDWORD])
## BMMesh_GetMaterialSlot
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param index[in] Type: LibCmo::CKDWORD.
# @param out_mtlid[out] Type: LibCmo::CK2::CK_ID. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMMesh_GetMaterialSlot = _create_bmap_func('BMMesh_GetMaterialSlot', [bm_void_p, bm_CKID, bm_CKDWORD, bm_CKID_p])
## BMMesh_SetMaterialSlot
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param index[in] Type: LibCmo::CKDWORD.
# @param mtlid[in] Type: LibCmo::CK2::CK_ID.
# @return True if no error, otherwise False.
BMMesh_SetMaterialSlot = _create_bmap_func('BMMesh_SetMaterialSlot', [bm_void_p, bm_CKID, bm_CKDWORD, bm_CKID])
## BM3dEntity_GetWorldMatrix
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_mat[out] Type: LibCmo::VxMath::VxMatrix. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BM3dEntity_GetWorldMatrix = _create_bmap_func('BM3dEntity_GetWorldMatrix', [bm_void_p, bm_CKID, bm_VxMatrix_p])
## BM3dEntity_SetWorldMatrix
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param mat[in] Type: LibCmo::VxMath::VxMatrix.
# @return True if no error, otherwise False.
BM3dEntity_SetWorldMatrix = _create_bmap_func('BM3dEntity_SetWorldMatrix', [bm_void_p, bm_CKID, bm_VxMatrix])
## BM3dEntity_GetCurrentMesh
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_meshid[out] Type: LibCmo::CK2::CK_ID. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BM3dEntity_GetCurrentMesh = _create_bmap_func('BM3dEntity_GetCurrentMesh', [bm_void_p, bm_CKID, bm_CKID_p])
## BM3dEntity_SetCurrentMesh
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param meshid[in] Type: LibCmo::CK2::CK_ID.
# @return True if no error, otherwise False.
BM3dEntity_SetCurrentMesh = _create_bmap_func('BM3dEntity_SetCurrentMesh', [bm_void_p, bm_CKID, bm_CKID])
## BM3dEntity_GetVisibility
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_isVisible[out] Type: bool. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BM3dEntity_GetVisibility = _create_bmap_func('BM3dEntity_GetVisibility', [bm_void_p, bm_CKID, bm_bool_p])
## BM3dEntity_SetVisibility
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param is_visible[in] Type: bool.
# @return True if no error, otherwise False.
BM3dEntity_SetVisibility = _create_bmap_func('BM3dEntity_SetVisibility', [bm_void_p, bm_CKID, bm_bool])
## BMLight_GetType
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::VxMath::VXLIGHT_TYPE. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMLight_GetType = _create_bmap_func('BMLight_GetType', [bm_void_p, bm_CKID, bm_enum_p])
## BMLight_SetType
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::VxMath::VXLIGHT_TYPE.
# @return True if no error, otherwise False.
BMLight_SetType = _create_bmap_func('BMLight_SetType', [bm_void_p, bm_CKID, bm_enum])
## BMLight_GetColor
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::VxMath::VxColor. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMLight_GetColor = _create_bmap_func('BMLight_GetColor', [bm_void_p, bm_CKID, bm_VxColor_p])
## BMLight_SetColor
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param col[in] Type: LibCmo::VxMath::VxColor.
# @return True if no error, otherwise False.
BMLight_SetColor = _create_bmap_func('BMLight_SetColor', [bm_void_p, bm_CKID, bm_VxColor])
## BMLight_GetConstantAttenuation
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::CKFLOAT. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMLight_GetConstantAttenuation = _create_bmap_func('BMLight_GetConstantAttenuation', [bm_void_p, bm_CKID, bm_CKFLOAT_p])
## BMLight_SetConstantAttenuation
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::CKFLOAT.
# @return True if no error, otherwise False.
BMLight_SetConstantAttenuation = _create_bmap_func('BMLight_SetConstantAttenuation', [bm_void_p, bm_CKID, bm_CKFLOAT])
## BMLight_GetLinearAttenuation
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::CKFLOAT. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMLight_GetLinearAttenuation = _create_bmap_func('BMLight_GetLinearAttenuation', [bm_void_p, bm_CKID, bm_CKFLOAT_p])
## BMLight_SetLinearAttenuation
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::CKFLOAT.
# @return True if no error, otherwise False.
BMLight_SetLinearAttenuation = _create_bmap_func('BMLight_SetLinearAttenuation', [bm_void_p, bm_CKID, bm_CKFLOAT])
## BMLight_GetQuadraticAttenuation
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::CKFLOAT. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMLight_GetQuadraticAttenuation = _create_bmap_func('BMLight_GetQuadraticAttenuation', [bm_void_p, bm_CKID, bm_CKFLOAT_p])
## BMLight_SetQuadraticAttenuation
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::CKFLOAT.
# @return True if no error, otherwise False.
BMLight_SetQuadraticAttenuation = _create_bmap_func('BMLight_SetQuadraticAttenuation', [bm_void_p, bm_CKID, bm_CKFLOAT])
## BMLight_GetRange
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::CKFLOAT. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMLight_GetRange = _create_bmap_func('BMLight_GetRange', [bm_void_p, bm_CKID, bm_CKFLOAT_p])
## BMLight_SetRange
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::CKFLOAT.
# @return True if no error, otherwise False.
BMLight_SetRange = _create_bmap_func('BMLight_SetRange', [bm_void_p, bm_CKID, bm_CKFLOAT])
## BMLight_GetHotSpot
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::CKFLOAT. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMLight_GetHotSpot = _create_bmap_func('BMLight_GetHotSpot', [bm_void_p, bm_CKID, bm_CKFLOAT_p])
## BMLight_SetHotSpot
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::CKFLOAT.
# @return True if no error, otherwise False.
BMLight_SetHotSpot = _create_bmap_func('BMLight_SetHotSpot', [bm_void_p, bm_CKID, bm_CKFLOAT])
## BMLight_GetFalloff
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::CKFLOAT. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMLight_GetFalloff = _create_bmap_func('BMLight_GetFalloff', [bm_void_p, bm_CKID, bm_CKFLOAT_p])
## BMLight_SetFalloff
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::CKFLOAT.
# @return True if no error, otherwise False.
BMLight_SetFalloff = _create_bmap_func('BMLight_SetFalloff', [bm_void_p, bm_CKID, bm_CKFLOAT])
## BMLight_GetFalloffShape
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param out_val[out] Type: LibCmo::CKFLOAT. Use ctypes.byref(data) pass it.
# @return True if no error, otherwise False.
BMLight_GetFalloffShape = _create_bmap_func('BMLight_GetFalloffShape', [bm_void_p, bm_CKID, bm_CKFLOAT_p])
## BMLight_SetFalloffShape
# @param bmfile[in] Type: BMap::BMFile*. The pointer to corresponding BMFile.
# @param objid[in] Type: LibCmo::CK2::CK_ID. The CKID of object you accessing.
# @param val[in] Type: LibCmo::CKFLOAT.
# @return True if no error, otherwise False.
BMLight_SetFalloffShape = _create_bmap_func('BMLight_SetFalloffShape', [bm_void_p, bm_CKID, bm_CKFLOAT])
##### GENERATED FUNCTIONS END #####
#endregion

821
Assets/BMapBindings/PyBMap/PyBMap/bmap_wrapper.py Normal file
View File

@@ -0,0 +1,821 @@
import ctypes, typing, atexit, enum
from . import bmap, virtools_types
#region Basic Class & Constant Defines
g_InvalidPtr: bmap.bm_void_p = bmap.bm_void_p(0)
g_InvalidCKID: int = 0
g_BMapEncoding: str = "utf-8"
def _python_callback(strl: bytes):
"""
The Python type callback for BMFile.
Simply add a prefix when output.
Need a convertion before passing to BMFile.
"""
# YYC Remarks:
# The passing value to this function is bytes, not bmap.bm_CKSTRING.
# I think Python do an auto convertion in there.
if strl is not None:
print(f'[PyBMap] {strl.decode(g_BMapEncoding)}')
_g_RawCallback: bmap.bm_callback = bmap.bm_callback(_python_callback)
#endregion
#region Help Functions
class _Utils:
@staticmethod
def raise_out_of_length_exception() -> None:
raise bmap.BMapException("The length of given data is too short when assigning struct array.")
@staticmethod
def _vector_assigner(pdata: typing.Any, item_count: int, factor_count: int, itor: typing.Iterator[tuple[typing.Any, ...]]) -> None:
idx: int = 0
try:
for _i in range(item_count):
user_vector: tuple[typing.Any, ...] = next(itor)
for _j in range(factor_count):
pdata[idx] = user_vector[_j]
idx += 1
except StopIteration:
_Utils.raise_out_of_length_exception()
@staticmethod
def _vector_iterator(pdata: typing.Any, item_count: int, factor_count: int) -> typing.Iterator[tuple[typing.Any, ...]]:
idx: int = 0
for _i in range(item_count):
yield tuple(map(
lambda _j: pdata[idx + _j],
range(factor_count)
))
idx += factor_count
@staticmethod
def vxvector3_assigner(pvector: bmap.bm_VxVector3_p, count: int, itor: typing.Iterator[virtools_types.VxVector3]) -> None:
_Utils._vector_assigner(ctypes.cast(pvector, bmap.bm_CKFLOAT_p), count, 3, map(lambda v: (v.x, v.y, v.z), itor))
@staticmethod
def vxvector3_iterator(pvector: bmap.bm_VxVector3_p, count: int) -> typing.Iterator[virtools_types.VxVector3]:
return map(
lambda v: virtools_types.VxVector3(*v),
_Utils._vector_iterator(ctypes.cast(pvector, bmap.bm_CKFLOAT_p), count, 3)
)
@staticmethod
def vxvector2_assigner(pvector: bmap.bm_VxVector2_p, count: int, itor: typing.Iterator[virtools_types.VxVector2]) -> None:
_Utils._vector_assigner(ctypes.cast(pvector, bmap.bm_CKFLOAT_p), count, 2, map(lambda v: (v.x, v.y), itor))
@staticmethod
def vxvector2_iterator(pvector: bmap.bm_VxVector2_p, count: int) -> typing.Iterator[virtools_types.VxVector2]:
return map(
lambda v: virtools_types.VxVector2(*v),
_Utils._vector_iterator(ctypes.cast(pvector, bmap.bm_CKFLOAT_p), count, 2)
)
"""!
@remarks
bmap.bm_CKWORD_p | bmap.bm_CKDWORD_p is just a type hint.
We actually do not need distinguish them in code.
Because the stride when increasing them is decided by their runtime type.
"""
@staticmethod
def ckfaceindices_assigner(pindices: bmap.bm_CKWORD_p | bmap.bm_CKDWORD_p, count: int, itor: typing.Iterator[virtools_types.CKFaceIndices]) -> None:
_Utils._vector_assigner(pindices, count, 3, map(lambda v: (v.i1, v.i2, v.i3), itor))
@staticmethod
def ckfaceindices_iterator(pindices: bmap.bm_CKWORD_p | bmap.bm_CKDWORD_p, count: int) -> typing.Iterator[virtools_types.CKFaceIndices]:
return map(
lambda v: virtools_types.CKFaceIndices(*v),
_Utils._vector_iterator(pindices, count, 3)
)
#endregion
#region Basic Classes
class _AbstractPointer():
__mRawPointer: int
def __init__(self, raw_pointer: bmap.bm_void_p):
self._set_pointer(raw_pointer)
def _is_valid(self) -> bool:
return self.__mRawPointer != 0
def _get_pointer(self) -> bmap.bm_void_p:
return bmap.bm_void_p(self.__mRawPointer)
def _set_pointer(self, raw_pointer: bmap.bm_void_p):
if raw_pointer.value is None:
self.__mRawPointer = 0
else:
self.__mRawPointer = raw_pointer.value
def __eq__(self, obj: object) -> bool:
if isinstance(obj, self.__class__):
return obj.__mRawPointer == self.__mRawPointer
else:
return False
def __hash__(self) -> int:
return hash(self.__mRawPointer)
TEnumType = typing.TypeVar('TEnumType', bound = enum.IntEnum)
TIntegralType = bmap.bm_CKDWORD | bmap.bm_CKWORD | bmap.bm_CKINT | bmap.bm_CKBYTE | bmap.bm_CKID
TFloatPointType = bmap.bm_CKFLOAT
TPointerType = typing.TypeVar('TPointerType')
class _AbstractCKObject(_AbstractPointer):
__mCKID: int
def __init__(self, raw_pointer: bmap.bm_void_p, ckid: bmap.bm_CKID):
_AbstractPointer.__init__(self, raw_pointer)
self.__mCKID = ckid.value
def _is_valid(self) -> bool:
return _AbstractPointer._is_valid(self) and self.__mCKID != 0
def _get_ckid(self) -> bmap.bm_CKID:
return bmap.bm_CKID(self.__mCKID)
def __eq__(self, obj: object) -> bool:
if not _AbstractPointer.__eq__(self, obj): return False
if isinstance(obj, self.__class__):
return obj.__mCKID == self.__mCKID
else:
return False
def __hash__(self) -> int:
return hash((_AbstractPointer.__hash__(self), self.__mCKID))
# Convenient Value Getter Setter
# Focusing on those which widely called types.
def _get_primitive_value(self, primitive_type_: typing.Any, getter_: typing.Callable[[bmap.bm_void_p, bmap.bm_CKID, typing.Any], bmap.bm_bool]) -> typing.Any:
data = primitive_type_()
getter_(self._get_pointer(), self._get_ckid(), ctypes.byref(data))
return data.value
def _set_primitive_value(self, primitive_type_: typing.Any, setter_: typing.Callable[[bmap.bm_void_p, bmap.bm_CKID, typing.Any], bmap.bm_bool], data_: typing.Any) -> None:
data = primitive_type_(data_)
setter_(self._get_pointer(), self._get_ckid(), data)
def _get_integral_value(self, integral_type_: type[TIntegralType], getter_: typing.Callable[[bmap.bm_void_p, bmap.bm_CKID, typing.Any], bmap.bm_bool]) -> int:
return self._get_primitive_value(integral_type_, getter_)
def _set_integral_value(self, integral_type_: type[TIntegralType], setter_: typing.Callable[[bmap.bm_void_p, bmap.bm_CKID, typing.Any], bmap.bm_bool], data_: int) -> None:
self._set_primitive_value(integral_type_, setter_, data_)
def _get_float_point_value(self, float_point_type_: type[TFloatPointType], getter_: typing.Callable[[bmap.bm_void_p, bmap.bm_CKID, typing.Any], bmap.bm_bool]) -> float:
return self._get_primitive_value(float_point_type_, getter_)
def _set_float_point_value(self, float_point_type_: type[TFloatPointType], setter_: typing.Callable[[bmap.bm_void_p, bmap.bm_CKID, typing.Any], bmap.bm_bool], data_: float) -> None:
self._set_primitive_value(float_point_type_, setter_, data_)
def _get_bool_value(self, getter_: typing.Callable[[bmap.bm_void_p, bmap.bm_CKID, bmap.bm_bool_p], bmap.bm_bool]) -> bool:
return self._get_primitive_value(bmap.bm_bool, getter_)
def _set_bool_value(self, setter_: typing.Callable[[bmap.bm_void_p, bmap.bm_CKID, bmap.bm_bool], bmap.bm_bool], data_: bool) -> None:
self._set_primitive_value(bmap.bm_bool, setter_, data_)
def _get_enum_value(self, enum_type_: type[TEnumType], getter_: typing.Callable[[bmap.bm_void_p, bmap.bm_CKID, bmap.bm_enum_p], bmap.bm_bool]) -> TEnumType:
return enum_type_(self._get_primitive_value(bmap.bm_enum, getter_))
def _set_enum_value(self, setter_: typing.Callable[[bmap.bm_void_p, bmap.bm_CKID, bmap.bm_enum], bmap.bm_bool], data_: TEnumType) -> None:
self._set_primitive_value(bmap.bm_enum, setter_, data_.value)
def _get_str_value(self, getter_: typing.Callable[[bmap.bm_void_p, bmap.bm_CKID, bmap.bm_CKSTRING_p], bmap.bm_bool]) -> str | None:
data: bmap.bm_CKSTRING = bmap.bm_CKSTRING()
getter_(self._get_pointer(), self._get_ckid(), ctypes.byref(data))
if data.value is None: return None
else: return data.value.decode(g_BMapEncoding)
def _set_str_value(self, setter_: typing.Callable[[bmap.bm_void_p, bmap.bm_CKID, bmap.bm_CKSTRING], bmap.bm_bool], data_: str | None) -> None:
data: bmap.bm_CKSTRING
if data_ is None: data = bmap.bm_CKSTRING(0)
else: data = bmap.bm_CKSTRING(data_.encode(g_BMapEncoding))
setter_(self._get_pointer(), self._get_ckid(), data)
def _set_vxcolor_value(self,
setter_: typing.Callable[[bmap.bm_void_p, bmap.bm_CKID, bmap.bm_VxColor], bmap.bm_bool],
col_: virtools_types.VxColor) -> None:
# set to raw color
col: bmap.bm_VxColor = bmap.bm_VxColor()
(col.r, col.g, col.b, col.a) = (col_.r, col_.g, col_.b, col_.a)
# assign
setter_(self._get_pointer(), self._get_ckid(), col)
def _get_vxcolor_value(self,
getter_: typing.Callable[[bmap.bm_void_p, bmap.bm_CKID, bmap.bm_VxColor_p], bmap.bm_bool]) -> virtools_types.VxColor:
# get raw color
col: bmap.bm_VxColor = bmap.bm_VxColor()
getter_(self._get_pointer(), self._get_ckid(), ctypes.byref(col))
# get from raw color
ret: virtools_types.VxColor = virtools_types.VxColor()
(ret.r, ret.g, ret.b, ret.a) = (col.r, col.g, col.b, col.a)
return ret
def _get_pointer_value(self, ptr_type_: type[TPointerType], getter_: typing.Callable[[bmap.bm_void_p, bmap.bm_CKID, typing.Any], bmap.bm_bool]) -> TPointerType:
data = ptr_type_()
getter_(self._get_pointer(), self._get_ckid(), ctypes.byref(data))
return data
TCKObject = typing.TypeVar('TCKObject', bound = _AbstractCKObject)
#endregion
#region Validation Check, Init and Dispose
def is_bmap_available() -> bool:
return bmap.is_bmap_available()
# init module self and register exit function
if is_bmap_available():
bmap.BMInit()
def _auto_exit():
bmap.BMDispose()
atexit.register(_auto_exit)
#endregion
#region Real Type Defines
"""!
@remarks
BMFileReader, BMFileWriter, and BMMeshTrans can be create by given constructor.
But they must be destroyed by calling dispose(). Otherwise it may cause memory leak.
You also can use python `with` statement to achieve this automatically.
BMObject, BMTexture, BMMaterial, BMMesh, and BM3dObject should NOT be constructed from given constructor.
They must be obtained from BMFileReader, BMFileWriter, and BMMeshTrans.
Thus BMObject, BMTexture, BMMaterial, BMMesh, and BM3dObject also do not need to free
because these resources are sotred in BMFileReader, BMFileWriter, and BMMeshTrans.
We just provide them as a visitor.
"""
class BMObject(_AbstractCKObject):
def get_name(self) -> str | None:
return self._get_str_value(bmap.BMObject_GetName)
def set_name(self, name_: str | None) -> None:
self._set_str_value(bmap.BMObject_SetName, name_)
class BMTexture(BMObject):
def get_file_name(self) -> str | None:
return self._get_str_value(bmap.BMTexture_GetFileName)
def load_image(self, filepath: str) -> None:
filename: bmap.bm_CKSTRING = bmap.bm_CKSTRING(filepath.encode(g_BMapEncoding))
bmap.BMTexture_LoadImage(self._get_pointer(), self._get_ckid(), filename)
def save_image(self, filepath: str) -> None:
filename: bmap.bm_CKSTRING = bmap.bm_CKSTRING(filepath.encode(g_BMapEncoding))
bmap.BMTexture_SaveImage(self._get_pointer(), self._get_ckid(), filename)
def get_save_options(self) -> virtools_types.CK_TEXTURE_SAVEOPTIONS:
return self._get_enum_value(virtools_types.CK_TEXTURE_SAVEOPTIONS, bmap.BMTexture_GetSaveOptions)
def set_save_options(self, opt_: virtools_types.CK_TEXTURE_SAVEOPTIONS) -> None:
self._set_enum_value(bmap.BMTexture_SetSaveOptions, opt_)
def get_video_format(self) -> virtools_types.VX_PIXELFORMAT:
return self._get_enum_value(virtools_types.VX_PIXELFORMAT, bmap.BMTexture_GetVideoFormat)
def set_video_format(self, fmt_: virtools_types.VX_PIXELFORMAT) -> None:
self._set_enum_value(bmap.BMTexture_SetVideoFormat, fmt_)
class BMMaterial(BMObject):
def get_diffuse(self) -> virtools_types.VxColor:
return self._get_vxcolor_value(bmap.BMMaterial_GetDiffuse)
def set_diffuse(self, col: virtools_types.VxColor) -> None:
self._set_vxcolor_value(bmap.BMMaterial_SetDiffuse, col)
def get_ambient(self) -> virtools_types.VxColor:
return self._get_vxcolor_value(bmap.BMMaterial_GetAmbient)
def set_ambient(self, col: virtools_types.VxColor) -> None:
self._set_vxcolor_value(bmap.BMMaterial_SetAmbient, col)
def get_specular(self) -> virtools_types.VxColor:
return self._get_vxcolor_value(bmap.BMMaterial_GetSpecular)
def set_specular(self, col: virtools_types.VxColor) -> None:
self._set_vxcolor_value(bmap.BMMaterial_SetSpecular, col)
def get_emissive(self) -> virtools_types.VxColor:
return self._get_vxcolor_value(bmap.BMMaterial_GetEmissive)
def set_emissive(self, col: virtools_types.VxColor) -> None:
self._set_vxcolor_value(bmap.BMMaterial_SetEmissive, col)
def get_specular_power(self) -> float:
return self._get_float_point_value(bmap.bm_CKFLOAT, bmap.BMMaterial_GetSpecularPower)
def set_specular_power(self, power_: float) -> None:
self._set_float_point_value(bmap.bm_CKFLOAT, bmap.BMMaterial_SetSpecularPower, power_)
def get_texture(self) -> BMTexture | None:
objid: bmap.bm_CKID = bmap.bm_CKID()
bmap.BMMaterial_GetTexture(self._get_pointer(), self._get_ckid(), ctypes.byref(objid))
if objid.value == g_InvalidCKID: return None
else: return BMTexture(self._get_pointer(), objid)
def set_texture(self, tex_: BMTexture | None) -> None:
objid: bmap.bm_CKID = bmap.bm_CKID(g_InvalidCKID)
if tex_ is not None: objid = tex_._get_ckid()
bmap.BMMaterial_SetTexture(self._get_pointer(), self._get_ckid(), objid)
def get_texture_border_color(self) -> virtools_types.VxColor:
dword_color: int = self._get_integral_value(bmap.bm_CKDWORD, bmap.BMMaterial_GetTextureBorderColor)
ret: virtools_types.VxColor = virtools_types.VxColor()
ret.from_dword(dword_color)
return ret
def set_texture_border_color(self, col_: virtools_types.VxColor) -> None:
self._set_integral_value(bmap.bm_CKDWORD, bmap.BMMaterial_SetTextureBorderColor, col_.to_dword())
def get_texture_blend_mode(self) -> virtools_types.VXTEXTURE_BLENDMODE:
return self._get_enum_value(virtools_types.VXTEXTURE_BLENDMODE, bmap.BMMaterial_GetTextureBlendMode)
def set_texture_blend_mode(self, data_: virtools_types.VXTEXTURE_BLENDMODE) -> None:
self._set_enum_value(bmap.BMMaterial_SetTextureBlendMode, data_)
def get_texture_min_mode(self) -> virtools_types.VXTEXTURE_FILTERMODE:
return self._get_enum_value(virtools_types.VXTEXTURE_FILTERMODE, bmap.BMMaterial_GetTextureMinMode)
def set_texture_min_mode(self, data_: virtools_types.VXTEXTURE_FILTERMODE) -> None:
self._set_enum_value(bmap.BMMaterial_SetTextureMinMode, data_)
def get_texture_mag_mode(self) -> virtools_types.VXTEXTURE_FILTERMODE:
return self._get_enum_value(virtools_types.VXTEXTURE_FILTERMODE, bmap.BMMaterial_GetTextureMagMode)
def set_texture_mag_mode(self, data_: virtools_types.VXTEXTURE_FILTERMODE) -> None:
self._set_enum_value(bmap.BMMaterial_SetTextureMagMode, data_)
def get_texture_address_mode(self) -> virtools_types.VXTEXTURE_ADDRESSMODE:
return self._get_enum_value(virtools_types.VXTEXTURE_ADDRESSMODE, bmap.BMMaterial_GetTextureAddressMode)
def set_texture_address_mode(self, data_: virtools_types.VXTEXTURE_ADDRESSMODE) -> None:
self._set_enum_value(bmap.BMMaterial_SetTextureAddressMode, data_)
def get_source_blend(self) -> virtools_types.VXBLEND_MODE:
return self._get_enum_value(virtools_types.VXBLEND_MODE, bmap.BMMaterial_GetSourceBlend)
def set_source_blend(self, data_: virtools_types.VXBLEND_MODE) -> None:
self._set_enum_value(bmap.BMMaterial_SetSourceBlend, data_)
def get_dest_blend(self) -> virtools_types.VXBLEND_MODE:
return self._get_enum_value(virtools_types.VXBLEND_MODE, bmap.BMMaterial_GetDestBlend)
def set_dest_blend(self, data_: virtools_types.VXBLEND_MODE) -> None:
self._set_enum_value(bmap.BMMaterial_SetDestBlend, data_)
def get_fill_mode(self) -> virtools_types.VXFILL_MODE:
return self._get_enum_value(virtools_types.VXFILL_MODE, bmap.BMMaterial_GetFillMode)
def set_fill_mode(self, data_: virtools_types.VXFILL_MODE) -> None:
self._set_enum_value(bmap.BMMaterial_SetFillMode, data_)
def get_shade_mode(self) -> virtools_types.VXSHADE_MODE:
return self._get_enum_value(virtools_types.VXSHADE_MODE, bmap.BMMaterial_GetShadeMode)
def set_shade_mode(self, data_: virtools_types.VXSHADE_MODE) -> None:
self._set_enum_value(bmap.BMMaterial_SetShadeMode, data_)
def get_alpha_test_enabled(self) -> bool:
return self._get_bool_value(bmap.BMMaterial_GetAlphaTestEnabled)
def set_alpha_test_enabled(self, data_: bool) -> None:
self._set_bool_value(bmap.BMMaterial_SetAlphaTestEnabled, data_)
def get_alpha_blend_enabled(self) -> bool:
return self._get_bool_value(bmap.BMMaterial_GetAlphaBlendEnabled)
def set_alpha_blend_enabled(self, data_: bool) -> None:
self._set_bool_value(bmap.BMMaterial_SetAlphaBlendEnabled, data_)
def get_perspective_correction_enabled(self) -> bool:
return self._get_bool_value(bmap.BMMaterial_GetPerspectiveCorrectionEnabled)
def set_perspective_correction_enabled(self, data_: bool) -> None:
self._set_bool_value(bmap.BMMaterial_SetPerspectiveCorrectionEnabled, data_)
def get_z_write_enabled(self) -> bool:
return self._get_bool_value(bmap.BMMaterial_GetZWriteEnabled)
def set_z_write_enabled(self, data_: bool) -> None:
self._set_bool_value(bmap.BMMaterial_SetZWriteEnabled, data_)
def get_two_sided_enabled(self) -> bool:
return self._get_bool_value(bmap.BMMaterial_GetTwoSidedEnabled)
def set_two_sided_enabled(self, data_: bool) -> None:
self._set_bool_value(bmap.BMMaterial_SetTwoSidedEnabled, data_)
def get_alpha_ref(self) -> int:
return self._get_integral_value(bmap.bm_CKBYTE, bmap.BMMaterial_GetAlphaRef)
def set_alpha_ref(self, data_: int):
self._set_integral_value(bmap.bm_CKBYTE, bmap.BMMaterial_SetAlphaRef, data_)
def get_alpha_func(self) -> virtools_types.VXCMPFUNC:
return self._get_enum_value(virtools_types.VXCMPFUNC, bmap.BMMaterial_GetAlphaFunc)
def set_alpha_func(self, data_: virtools_types.VXCMPFUNC) -> None:
self._set_enum_value(bmap.BMMaterial_SetAlphaFunc, data_)
def get_z_func(self) -> virtools_types.VXCMPFUNC:
return self._get_enum_value(virtools_types.VXCMPFUNC, bmap.BMMaterial_GetZFunc)
def set_z_func(self, data_: virtools_types.VXCMPFUNC) -> None:
self._set_enum_value(bmap.BMMaterial_SetZFunc, data_)
class BMMesh(BMObject):
def get_lit_mode(self) -> virtools_types.VXMESH_LITMODE:
return self._get_enum_value(virtools_types.VXMESH_LITMODE, bmap.BMMesh_GetLitMode)
def set_lit_mode(self, mode_: virtools_types.VXMESH_LITMODE) -> None:
self._set_enum_value(bmap.BMMesh_SetLitMode, mode_)
def get_vertex_count(self) -> int:
return self._get_integral_value(bmap.bm_CKDWORD, bmap.BMMesh_GetVertexCount)
def set_vertex_count(self, count_: int) -> None:
self._set_integral_value(bmap.bm_CKDWORD, bmap.BMMesh_SetVertexCount, count_)
def get_vertex_positions(self) -> typing.Iterator[virtools_types.VxVector3]:
# get raw pointer and return
raw_vector = self._get_pointer_value(bmap.bm_VxVector3_p, bmap.BMMesh_GetVertexPositions)
return _Utils.vxvector3_iterator(raw_vector, self.get_vertex_count())
def set_vertex_positions(self, itor: typing.Iterator[virtools_types.VxVector3]) -> None:
# get raw float pointer and assign
raw_vector = self._get_pointer_value(bmap.bm_VxVector3_p, bmap.BMMesh_GetVertexPositions)
_Utils.vxvector3_assigner(raw_vector, self.get_vertex_count(), itor)
def get_vertex_normals(self) -> typing.Iterator[virtools_types.VxVector3]:
raw_vector = self._get_pointer_value(bmap.bm_VxVector3_p, bmap.BMMesh_GetVertexNormals)
return _Utils.vxvector3_iterator(raw_vector, self.get_vertex_count())
def set_vertex_normals(self, itor: typing.Iterator[virtools_types.VxVector3]) -> None:
raw_vector = self._get_pointer_value(bmap.bm_VxVector3_p, bmap.BMMesh_GetVertexNormals)
_Utils.vxvector3_assigner(raw_vector, self.get_vertex_count(), itor)
def get_vertex_uvs(self) -> typing.Iterator[virtools_types.VxVector2]:
raw_vector = self._get_pointer_value(bmap.bm_VxVector2_p, bmap.BMMesh_GetVertexUVs)
return _Utils.vxvector2_iterator(raw_vector, self.get_vertex_count())
def set_vertex_uvs(self, itor: typing.Iterator[virtools_types.VxVector2]) -> None:
raw_vector = self._get_pointer_value(bmap.bm_VxVector2_p, bmap.BMMesh_GetVertexUVs)
_Utils.vxvector2_assigner(raw_vector, self.get_vertex_count(), itor)
def get_face_count(self) -> int:
return self._get_integral_value(bmap.bm_CKDWORD, bmap.BMMesh_GetFaceCount)
def set_face_count(self, count_: int) -> None:
self._set_integral_value(bmap.bm_CKDWORD, bmap.BMMesh_SetFaceCount, count_)
def get_face_indices(self) -> typing.Iterator[virtools_types.CKFaceIndices]:
raw_idx = self._get_pointer_value(bmap.bm_CKWORD_p, bmap.BMMesh_GetFaceIndices)
return _Utils.ckfaceindices_iterator(raw_idx, self.get_face_count())
def set_face_indices(self, itor: typing.Iterator[virtools_types.CKFaceIndices]) -> None:
raw_idx = self._get_pointer_value(bmap.bm_CKWORD_p, bmap.BMMesh_GetFaceIndices)
_Utils.ckfaceindices_assigner(raw_idx, self.get_face_count(), itor)
def get_face_material_slot_indexs(self) -> typing.Iterator[int]:
raw_idx = self._get_pointer_value(bmap.bm_CKWORD_p, bmap.BMMesh_GetFaceMaterialSlotIndexs)
for i in range(self.get_face_count()):
yield raw_idx[i]
def set_face_material_slot_indexs(self, itor: typing.Iterator[int]) -> None:
raw_idx = self._get_pointer_value(bmap.bm_CKWORD_p, bmap.BMMesh_GetFaceMaterialSlotIndexs)
try:
for i in range(self.get_face_count()):
raw_idx[i] = next(itor)
except StopIteration:
_Utils.raise_out_of_length_exception()
def get_material_slot_count(self) -> int:
return self._get_integral_value(bmap.bm_CKDWORD, bmap.BMMesh_GetMaterialSlotCount)
def set_material_slot_count(self, count_: int) -> None:
self._set_integral_value(bmap.bm_CKDWORD, bmap.BMMesh_SetMaterialSlotCount, count_)
def get_material_slots(self) -> typing.Iterator[BMMaterial | None]:
idx: bmap.bm_CKDWORD = bmap.bm_CKDWORD()
mtlid: bmap.bm_CKID = bmap.bm_CKID()
for i in range(self.get_material_slot_count()):
idx.value = i
bmap.BMMesh_GetMaterialSlot(self._get_pointer(), self._get_ckid(), idx, ctypes.byref(mtlid))
if mtlid.value == g_InvalidCKID:
yield None
else:
yield BMMaterial(self._get_pointer(), mtlid)
def set_material_slots(self, itor: typing.Iterator[BMMaterial | None]) -> None:
idx: bmap.bm_CKDWORD = bmap.bm_CKDWORD()
mtlid: bmap.bm_CKID = bmap.bm_CKID()
try:
for i in range(self.get_material_slot_count()):
idx.value = i
# analyze mtl item
mtlobj: BMMaterial | None = next(itor)
if mtlobj is None:
mtlid.value = g_InvalidCKID
else:
mtlid = mtlobj._get_ckid()
# set
bmap.BMMesh_SetMaterialSlot(self._get_pointer(), self._get_ckid(), idx, mtlid)
except StopIteration:
_Utils.raise_out_of_length_exception()
class BM3dEntity(BMObject):
def get_world_matrix(self) -> virtools_types.VxMatrix:
mat: bmap.bm_VxMatrix = bmap.bm_VxMatrix()
bmap.BM3dEntity_GetWorldMatrix(self._get_pointer(), self._get_ckid(), ctypes.byref(mat))
# use cast & pointer to get matrix data conveniently
flat: bmap.bm_CKFLOAT_p = ctypes.cast(ctypes.byref(mat), bmap.bm_CKFLOAT_p)
ret: virtools_types.VxMatrix = virtools_types.VxMatrix()
ret.from_const(tuple(flat[i] for i in range(16)))
return ret
def set_world_matrix(self, mat_: virtools_types.VxMatrix) -> None:
# star syntax expand the tuple as the argument.
mat: bmap.bm_VxMatrix = bmap.bm_VxMatrix(*(mat_.to_const()))
bmap.BM3dEntity_SetWorldMatrix(self._get_pointer(), self._get_ckid(), mat)
def get_current_mesh(self) -> BMMesh | None:
ckid: bmap.bm_CKID = bmap.bm_CKID()
bmap.BM3dEntity_GetCurrentMesh(self._get_pointer(), self._get_ckid(), ctypes.byref(ckid))
if ckid.value == g_InvalidCKID:
return None
else:
return BMMesh(self._get_pointer(), ckid)
def set_current_mesh(self, mesh: BMMesh | None) -> None:
ckid: bmap.bm_CKID = bmap.bm_CKID(g_InvalidCKID)
if mesh is not None:
ckid = mesh._get_ckid()
bmap.BM3dEntity_SetCurrentMesh(self._get_pointer(), self._get_ckid(), ckid)
def get_visibility(self) -> bool:
return self._get_bool_value(bmap.BM3dEntity_GetVisibility)
def set_visibility(self, visb_: bool) -> None:
self._set_bool_value(bmap.BM3dEntity_SetVisibility, visb_)
class BM3dObject(BM3dEntity):
pass
class BMLight(BM3dEntity):
def get_type(self) -> virtools_types.VXLIGHT_TYPE:
return self._get_enum_value(virtools_types.VXLIGHT_TYPE, bmap.BMLight_GetType)
def set_type(self, data_: virtools_types.VXLIGHT_TYPE) -> None:
self._set_enum_value(bmap.BMLight_SetType, data_)
def get_color(self) -> virtools_types.VxColor:
return self._get_vxcolor_value(bmap.BMLight_GetColor)
def set_color(self, col: virtools_types.VxColor) -> None:
self._set_vxcolor_value(bmap.BMLight_SetColor, col)
def get_constant_attenuation(self) -> float:
return self._get_float_point_value(bmap.bm_CKFLOAT, bmap.BMLight_GetConstantAttenuation)
def set_constant_attenuation(self, val_: float) -> None:
self._set_float_point_value(bmap.bm_CKFLOAT, bmap.BMLight_SetConstantAttenuation, val_)
def get_linear_attenuation(self) -> float:
return self._get_float_point_value(bmap.bm_CKFLOAT, bmap.BMLight_GetLinearAttenuation)
def set_linear_attenuation(self, val_: float) -> None:
self._set_float_point_value(bmap.bm_CKFLOAT, bmap.BMLight_SetLinearAttenuation, val_)
def get_quadratic_attenuation(self) -> float:
return self._get_float_point_value(bmap.bm_CKFLOAT, bmap.BMLight_GetQuadraticAttenuation)
def set_quadratic_attenuation(self, val_: float) -> None:
self._set_float_point_value(bmap.bm_CKFLOAT, bmap.BMLight_SetQuadraticAttenuation, val_)
def get_range(self) -> float:
return self._get_float_point_value(bmap.bm_CKFLOAT, bmap.BMLight_GetRange)
def set_range(self, val_: float) -> None:
self._set_float_point_value(bmap.bm_CKFLOAT, bmap.BMLight_SetRange, val_)
def get_hot_spot(self) -> float:
return self._get_float_point_value(bmap.bm_CKFLOAT, bmap.BMLight_GetHotSpot)
def set_hot_spot(self, val_: float) -> None:
self._set_float_point_value(bmap.bm_CKFLOAT, bmap.BMLight_SetHotSpot, val_)
def get_falloff(self) -> float:
return self._get_float_point_value(bmap.bm_CKFLOAT, bmap.BMLight_GetFalloff)
def set_falloff(self, val_: float) -> None:
self._set_float_point_value(bmap.bm_CKFLOAT, bmap.BMLight_SetFalloff, val_)
def get_falloff_shape(self) -> float:
return self._get_float_point_value(bmap.bm_CKFLOAT, bmap.BMLight_GetFalloffShape)
def set_falloff_shape(self, val_: float) -> None:
self._set_float_point_value(bmap.bm_CKFLOAT, bmap.BMLight_SetFalloffShape, val_)
class BMTargetLight(BMLight):
pass
class BMGroup(BMObject):
def add_object(self, member: BM3dObject) -> None:
bmap.BMGroup_AddObject(self._get_pointer(), self._get_ckid(), member._get_ckid())
def get_object_count(self) -> int:
return self._get_integral_value(bmap.bm_CKDWORD, bmap.BMGroup_GetObjectCount)
def get_objects(self) -> typing.Iterator[BM3dObject]:
# get list size
csize: int = self.get_object_count()
# iterate list
cidx: bmap.bm_CKDWORD = bmap.bm_CKDWORD()
retid: bmap.bm_CKID = bmap.bm_CKID()
for i in range(csize):
cidx.value = i
bmap.BMGroup_GetObject(self._get_pointer(), self._get_ckid(), cidx, ctypes.byref(retid))
# return visitor
yield BM3dObject(self._get_pointer(), retid)
class BMFileReader(_AbstractPointer):
def __init__(self, file_name_: str, temp_folder_: str, texture_folder_: str, encodings_: tuple[str]):
# create param
file_name: bmap.bm_CKSTRING = bmap.bm_CKSTRING(file_name_.encode(g_BMapEncoding))
temp_folder: bmap.bm_CKSTRING = bmap.bm_CKSTRING(temp_folder_.encode(g_BMapEncoding))
texture_folder: bmap.bm_CKSTRING = bmap.bm_CKSTRING(texture_folder_.encode(g_BMapEncoding))
encoding_count: bmap.bm_CKDWORD = bmap.bm_CKDWORD(len(encodings_))
encodings: ctypes.Array = (bmap.bm_CKSTRING * len(encodings_))(
*(strl.encode(g_BMapEncoding) for strl in encodings_)
)
out_file: bmap.bm_void_p = bmap.bm_void_p()
# exec
bmap.BMFile_Load(
file_name, temp_folder, texture_folder, _g_RawCallback,
encoding_count, encodings,
ctypes.byref(out_file)
)
# init self
_AbstractPointer.__init__(self, out_file)
def __enter__(self):
return self
def __exit__(self, exc_type, exc_value, traceback):
self.dispose()
def dispose(self) -> None:
if self._is_valid():
bmap.BMFile_Free(self._get_pointer())
self._set_pointer(g_InvalidPtr)
def __get_ckobject_count(self,
count_getter: typing.Callable[[bmap.bm_void_p, bmap.bm_CKDWORD_p], bmap.bm_bool]) -> int:
# get size
csize: bmap.bm_CKDWORD = bmap.bm_CKDWORD()
count_getter(self._get_pointer(), ctypes.byref(csize))
return csize.value
def __get_ckobjects(self,
class_type: type[TCKObject],
count_getter: typing.Callable[[bmap.bm_void_p, bmap.bm_CKDWORD_p], bmap.bm_bool],
obj_getter: typing.Callable[[bmap.bm_void_p, bmap.bm_CKDWORD, bmap.bm_CKID_p], bmap.bm_bool]) -> typing.Iterator[TCKObject]:
# get size first
csize: int = self.__get_ckobject_count(count_getter)
# iterate list
cidx: bmap.bm_CKDWORD = bmap.bm_CKDWORD()
retid: bmap.bm_CKID = bmap.bm_CKID()
for i in range(csize):
cidx.value = i
obj_getter(self._get_pointer(), cidx, ctypes.byref(retid))
# yield return constructed obj visitor
yield class_type(self._get_pointer(), retid)
def get_texture_count(self) -> int:
return self.__get_ckobject_count(bmap.BMFile_GetTextureCount)
def get_textures(self) -> typing.Iterator[BMTexture]:
return self.__get_ckobjects(BMTexture, bmap.BMFile_GetTextureCount, bmap.BMFile_GetTexture)
def get_material_count(self) -> int:
return self.__get_ckobject_count(bmap.BMFile_GetMaterialCount)
def get_materials(self) -> typing.Iterator[BMMaterial]:
return self.__get_ckobjects(BMMaterial, bmap.BMFile_GetMaterialCount, bmap.BMFile_GetMaterial)
def get_mesh_count(self) -> int:
return self.__get_ckobject_count(bmap.BMFile_GetMeshCount)
def get_meshs(self) -> typing.Iterator[BMMesh]:
return self.__get_ckobjects(BMMesh, bmap.BMFile_GetMeshCount, bmap.BMFile_GetMesh)
def get_3dobject_count(self) -> int:
return self.__get_ckobject_count(bmap.BMFile_Get3dObjectCount)
def get_3dobjects(self) -> typing.Iterator[BM3dObject]:
return self.__get_ckobjects(BM3dObject, bmap.BMFile_Get3dObjectCount, bmap.BMFile_Get3dObject)
def get_group_count(self) -> int:
return self.__get_ckobject_count(bmap.BMFile_GetGroupCount)
def get_groups(self) -> typing.Iterator[BMGroup]:
return self.__get_ckobjects(BMGroup, bmap.BMFile_GetGroupCount, bmap.BMFile_GetGroup)
def get_target_light_count(self) -> int:
return self.__get_ckobject_count(bmap.BMFile_GetTargetLightCount)
def get_target_lights(self) -> typing.Iterator[BMTargetLight]:
return self.__get_ckobjects(BMTargetLight, bmap.BMFile_GetTargetLightCount, bmap.BMFile_GetTargetLight)
class BMFileWriter(_AbstractPointer):
def __init__(self, temp_folder_: str, texture_folder_: str, encodings_: tuple[str]):
# create param
temp_folder: bmap.bm_CKSTRING = bmap.bm_CKSTRING(temp_folder_.encode(g_BMapEncoding))
texture_folder: bmap.bm_CKSTRING = bmap.bm_CKSTRING(texture_folder_.encode(g_BMapEncoding))
encoding_count: bmap.bm_CKDWORD = bmap.bm_CKDWORD(len(encodings_))
encodings: ctypes.Array = (bmap.bm_CKSTRING * len(encodings_))(
*(strl.encode(g_BMapEncoding) for strl in encodings_)
)
out_file: bmap.bm_void_p = bmap.bm_void_p()
# exec
bmap.BMFile_Create(
temp_folder, texture_folder, _g_RawCallback,
encoding_count, encodings,
ctypes.byref(out_file)
)
# init self
_AbstractPointer.__init__(self, out_file)
def __enter__(self):
return self
def __exit__(self, exc_type, exc_value, traceback):
self.dispose()
def save(self, file_name_: str, texture_save_opt_: virtools_types.CK_TEXTURE_SAVEOPTIONS, use_compress_: bool, compress_level_: int) -> None:
# create param
file_name: bmap.bm_CKSTRING = bmap.bm_CKSTRING(file_name_.encode(g_BMapEncoding))
texture_save_opt: bmap.bm_enum = bmap.bm_enum(texture_save_opt_.value)
use_compress: bmap.bm_bool = bmap.bm_bool(use_compress_)
compress_level: bmap.bm_CKINT = bmap.bm_CKINT(compress_level_)
# exec
bmap.BMFile_Save(self._get_pointer(), file_name, texture_save_opt, use_compress, compress_level)
def dispose(self) -> None:
if self._is_valid():
bmap.BMFile_Free(self._get_pointer())
self._set_pointer(g_InvalidPtr)
def __create_ckobject(self,
class_type: type[TCKObject],
creator: typing.Callable[[bmap.bm_void_p, bmap.bm_CKID_p], bmap.bm_bool]) -> TCKObject:
# prepare id container
retid: bmap.bm_CKID = bmap.bm_CKID()
# create new one
creator(self._get_pointer(), ctypes.byref(retid))
# return visitor
return class_type(self._get_pointer(), retid)
def create_texture(self) -> BMTexture:
return self.__create_ckobject(BMTexture, bmap.BMFile_CreateTexture)
def create_material(self) -> BMMaterial:
return self.__create_ckobject(BMMaterial, bmap.BMFile_CreateMaterial)
def create_mesh(self) -> BMMesh:
return self.__create_ckobject(BMMesh, bmap.BMFile_CreateMesh)
def create_3dobject(self) -> BM3dObject:
return self.__create_ckobject(BM3dObject, bmap.BMFile_Create3dObject)
def create_group(self) -> BMGroup:
return self.__create_ckobject(BMGroup, bmap.BMFile_CreateGroup)
def create_target_light(self) -> BMTargetLight:
return self.__create_ckobject(BMTargetLight, bmap.BMFile_CreateTargetLight)
class BMMeshTrans(_AbstractPointer):
def __init__(self):
ptr: bmap.bm_void_p = bmap.bm_void_p()
bmap.BMMeshTrans_New(ctypes.byref(ptr))
_AbstractPointer.__init__(self, ptr)
def __enter__(self):
return self
def __exit__(self, exc_type, exc_value, traceback):
self.dispose()
def dispose(self) -> None:
if self._is_valid():
bmap.BMMeshTrans_Delete(self._get_pointer())
self._set_pointer(g_InvalidPtr)
def parse(self, objmesh: BMMesh) -> None:
bmap.BMMeshTrans_Parse(self._get_pointer(), objmesh._get_pointer(), objmesh._get_ckid())
def prepare_vertex(self, count: int, itor: typing.Iterator[virtools_types.VxVector3]) -> None:
# prepare count first
csize: bmap.bm_CKDWORD = bmap.bm_CKDWORD(count)
bmap.BMMeshTrans_PrepareVertexCount(self._get_pointer(), csize)
# get raw pointer and conv to float ptr for convenient visit
raw_vector: bmap.bm_VxVector3_p = bmap.bm_VxVector3_p()
bmap.BMMeshTrans_PrepareVertex(self._get_pointer(), ctypes.byref(raw_vector))
# set by pointer
_Utils.vxvector3_assigner(raw_vector, count, itor)
def prepare_normal(self, count: int, itor: typing.Iterator[virtools_types.VxVector3]) -> None:
csize: bmap.bm_CKDWORD = bmap.bm_CKDWORD(count)
bmap.BMMeshTrans_PrepareNormalCount(self._get_pointer(), csize)
raw_vector: bmap.bm_VxVector3_p = bmap.bm_VxVector3_p()
bmap.BMMeshTrans_PrepareNormal(self._get_pointer(), ctypes.byref(raw_vector))
_Utils.vxvector3_assigner(raw_vector, count, itor)
def prepare_uv(self, count: int, itor: typing.Iterator[virtools_types.VxVector2]) -> None:
csize: bmap.bm_CKDWORD = bmap.bm_CKDWORD(count)
bmap.BMMeshTrans_PrepareUVCount(self._get_pointer(), csize)
raw_vector: bmap.bm_VxVector2_p = bmap.bm_VxVector2_p()
bmap.BMMeshTrans_PrepareUV(self._get_pointer(), ctypes.byref(raw_vector))
_Utils.vxvector2_assigner(raw_vector, count, itor)
def prepare_mtl_slot(self, count: int, itor: typing.Iterator[BMMaterial | None]) -> None:
csize: bmap.bm_CKDWORD = bmap.bm_CKDWORD(count)
bmap.BMMeshTrans_PrepareMtlSlotCount(self._get_pointer(), csize)
raw_ckid: bmap.bm_CKID_p = bmap.bm_CKID_p()
bmap.BMMeshTrans_PrepareMtlSlot(self._get_pointer(), ctypes.byref(raw_ckid))
try:
idx: int = 0
for _ in range(count):
usermtl: BMMaterial | None = next(itor)
if usermtl is None:
raw_ckid[idx] = g_InvalidCKID
else:
raw_ckid[idx] = usermtl._get_ckid().value
idx += 1
except StopIteration:
_Utils.raise_out_of_length_exception()
def prepare_face(self,
count: int,
vec_idx: typing.Iterator[virtools_types.CKFaceIndices],
nml_idx: typing.Iterator[virtools_types.CKFaceIndices],
uv_idx: typing.Iterator[virtools_types.CKFaceIndices],
mtl_idx: typing.Iterator[int]) -> None:
# prepare face size
csize: bmap.bm_CKDWORD = bmap.bm_CKDWORD(count)
bmap.BMMeshTrans_PrepareFaceCount(self._get_pointer(), csize)
# get 4 raw pointer for following assign
raw_vec_idx: bmap.bm_CKDWORD_p = bmap.bm_CKDWORD_p()
raw_nml_idx: bmap.bm_CKDWORD_p = bmap.bm_CKDWORD_p()
raw_uv_idx: bmap.bm_CKDWORD_p = bmap.bm_CKDWORD_p()
raw_mtl_idx: bmap.bm_CKDWORD_p = bmap.bm_CKDWORD_p()
bmap.BMMeshTrans_PrepareFaceVertexIndices(self._get_pointer(), ctypes.byref(raw_vec_idx))
bmap.BMMeshTrans_PrepareFaceNormalIndices(self._get_pointer(), ctypes.byref(raw_nml_idx))
bmap.BMMeshTrans_PrepareFaceUVIndices(self._get_pointer(), ctypes.byref(raw_uv_idx))
bmap.BMMeshTrans_PrepareFaceMtlSlot(self._get_pointer(), ctypes.byref(raw_mtl_idx))
# iterate and assign
# assigne triple indices
_Utils.ckfaceindices_assigner(raw_vec_idx, count, vec_idx)
_Utils.ckfaceindices_assigner(raw_nml_idx, count, nml_idx)
_Utils.ckfaceindices_assigner(raw_uv_idx, count, uv_idx)
# assign mtl index
try:
idx: int = 0
for _ in range(count):
raw_mtl_idx[idx] = next(mtl_idx)
idx += 1
except StopIteration:
_Utils.raise_out_of_length_exception()
#endregion

327
Assets/BMapBindings/PyBMap/PyBMap/virtools_types.py Normal file
View File

@@ -0,0 +1,327 @@
import typing, enum
ConstVxVector2 = tuple[float, float]
ConstVxVector3 = tuple[float, float, float]
ConstVxVector4 = tuple[float, float, float, float]
class VxVector2():
x: float
y: float
def __init__(self, _x: float = 0.0, _y: float = 0.0):
self.x = _x
self.y = _y
def from_const(self, cv: ConstVxVector2) -> None:
(self.x, self.y, ) = cv
def to_const(self) -> ConstVxVector2:
return (self.x, self.y, )
class VxVector3():
x: float
y: float
z: float
def __init__(self, _x: float = 0.0, _y: float = 0.0, _z: float = 0.0):
self.x = _x
self.y = _y
self.z = _z
def from_const(self, cv: ConstVxVector3) -> None:
(self.x, self.y, self.z) = cv
def to_const(self) -> ConstVxVector3:
return (self.x, self.y, self.z)
ConstCKFaceIndices = tuple[int, int, int]
class CKFaceIndices():
i1: int
i2: int
i3: int
def __init__(self, i1_: int = 0, i2_: int = 0, i3_: int = 0):
self.i1 = i1_
self.i2 = i2_
self.i3 = i3_
def from_const(self, cv: ConstCKFaceIndices) -> None:
(self.i1, self.i2, self.i3) = cv
def to_const(self) -> ConstCKFaceIndices:
return (self.i1, self.i2, self.i3)
ConstVxColorRGBA = tuple[float, float, float, float]
ConstVxColorRGB = tuple[float, float, float]
class VxColor():
"""
The Color struct support RGBA.
"""
a: float
r: float
g: float
b: float
def __init__(self, _r: float = 0.0, _g: float = 0.0, _b: float = 0.0, _a: float = 1.0):
self.r = _r
self.g = _g
self.b = _b
self.a = _a
self.regulate()
def to_const_rgba(self) -> ConstVxColorRGBA:
return (self.r, self.g, self.b, self.a)
def to_const_rgb(self) -> ConstVxColorRGB:
return (self.r, self.g, self.b)
def from_const_rgba(self, val: ConstVxColorRGBA) -> None:
(self.r, self.g, self.b, self.a) = val
self.regulate()
def from_const_rgb(self, val: ConstVxColorRGB) -> None:
(self.r, self.g, self.b) = val
self.a = 1.0
self.regulate()
def from_dword(self, val: int) -> None:
self.b = float(val & 0xFF) / 255.0
val >>= 8
self.g = float(val & 0xFF) / 255.0
val >>= 8
self.r = float(val & 0xFF) / 255.0
val >>= 8
self.a = float(val & 0xFF) / 255.0
val >>= 8
def to_dword(self) -> int:
# regulate self
self.regulate()
# construct value
val: int = 0
val |= int(self.a * 255)
val <<= 8
val |= int(self.r * 255)
val <<= 8
val |= int(self.g * 255)
val <<= 8
val |= int(self.b * 255)
return val
def clone(self):
return VxColor(self.r, self.g, self.b, self.a)
@staticmethod
def _clamp_factor(val: float) -> float:
if val > 1.0: return 1.0
elif val < 0.0: return 0.0
else: return val
def regulate(self):
self.a = VxColor._clamp_factor(self.a)
self.r = VxColor._clamp_factor(self.r)
self.g = VxColor._clamp_factor(self.g)
self.b = VxColor._clamp_factor(self.b)
ConstVxMatrix = tuple[
float, float, float, float,
float, float, float, float,
float, float, float, float,
float, float, float, float
]
class VxMatrix():
"""
The Matrix representation.
The bracket statement exactly equal with Virtools.
"""
data: list[list[float]]
def __init__(self):
# init array
self.data = [[0] * 4 for i in range(4)]
# set to identy
self.reset()
def _get_raw(self) -> list[list[float]]:
return self.data
def reset(self) -> None:
# reset to identy
for i in range(4):
for j in range(4):
self.data[i][j] = 0.0
self.data[0][0] = 1.0
self.data[1][1] = 1.0
self.data[2][2] = 1.0
self.data[3][3] = 1.0
def from_const(self, cm: ConstVxMatrix) -> None:
(
self.data[0][0], self.data[0][1], self.data[0][2], self.data[0][3],
self.data[1][0], self.data[1][1], self.data[1][2], self.data[1][3],
self.data[2][0], self.data[2][1], self.data[2][2], self.data[2][3],
self.data[3][0], self.data[3][1], self.data[3][2], self.data[3][3]
) = cm
def to_const(self) -> ConstVxMatrix:
return (
self.data[0][0], self.data[0][1], self.data[0][2], self.data[0][3],
self.data[1][0], self.data[1][1], self.data[1][2], self.data[1][3],
self.data[2][0], self.data[2][1], self.data[2][2], self.data[2][3],
self.data[3][0], self.data[3][1], self.data[3][2], self.data[3][3]
)
class CK_TEXTURE_SAVEOPTIONS(enum.IntEnum):
"""!
Specify the way textures or sprites will be saved
"""
CKTEXTURE_RAWDATA = 0 ##< Save raw data inside file. The bitmap is saved in a raw 32 bit per pixel format.
CKTEXTURE_EXTERNAL = 1 ##< Store only the file name for the texture. The bitmap file must be present in the bitmap paths when loading the composition.
CKTEXTURE_IMAGEFORMAT = 2 ##< Save using format specified. The bitmap data will be converted to the specified format by the correspondant bitmap plugin and saved inside file.
CKTEXTURE_USEGLOBAL = 3 ##< Use Global settings, that is the settings given with CKContext::SetGlobalImagesSaveOptions. (Not valid when using CKContext::SetImagesSaveOptions).
CKTEXTURE_INCLUDEORIGINALFILE = 4 ##< Insert original image file inside CMO file. The bitmap file that was used originally for the texture or sprite will be append to the composition file and extracted when the file is loaded.
class VX_PIXELFORMAT(enum.IntEnum):
"""!
Pixel format types.
"""
#UNKNOWN_PF = 0 ##< Unknown pixel format
_32_ARGB8888 = 1 ##< 32-bit ARGB pixel format with alpha
_32_RGB888 = 2 ##< 32-bit RGB pixel format without alpha
_24_RGB888 = 3 ##< 24-bit RGB pixel format
_16_RGB565 = 4 ##< 16-bit RGB pixel format
_16_RGB555 = 5 ##< 16-bit RGB pixel format (5 bits per color)
_16_ARGB1555 = 6 ##< 16-bit ARGB pixel format (5 bits per color + 1 bit for alpha)
_16_ARGB4444 = 7 ##< 16-bit ARGB pixel format (4 bits per color)
_8_RGB332 = 8 ##< 8-bit RGB pixel format
_8_ARGB2222 = 9 ##< 8-bit ARGB pixel format
_32_ABGR8888 = 10 ##< 32-bit ABGR pixel format
_32_RGBA8888 = 11 ##< 32-bit RGBA pixel format
_32_BGRA8888 = 12 ##< 32-bit BGRA pixel format
_32_BGR888 = 13 ##< 32-bit BGR pixel format
_24_BGR888 = 14 ##< 24-bit BGR pixel format
_16_BGR565 = 15 ##< 16-bit BGR pixel format
_16_BGR555 = 16 ##< 16-bit BGR pixel format (5 bits per color)
_16_ABGR1555 = 17 ##< 16-bit ABGR pixel format (5 bits per color + 1 bit for alpha)
_16_ABGR4444 = 18 ##< 16-bit ABGR pixel format (4 bits per color)
_DXT1 = 19 ##< S3/DirectX Texture Compression 1
_DXT2 = 20 ##< S3/DirectX Texture Compression 2
_DXT3 = 21 ##< S3/DirectX Texture Compression 3
_DXT4 = 22 ##< S3/DirectX Texture Compression 4
_DXT5 = 23 ##< S3/DirectX Texture Compression 5
_16_V8U8 = 24 ##< 16-bit Bump Map format format (8 bits per color)
_32_V16U16 = 25 ##< 32-bit Bump Map format format (16 bits per color)
_16_L6V5U5 = 26 ##< 16-bit Bump Map format format with luminance
_32_X8L8V8U8 = 27 ##< 32-bit Bump Map format format with luminance
_8_ABGR8888_CLUT = 28 ##< 8 bits indexed CLUT (ABGR)
_8_ARGB8888_CLUT = 29 ##< 8 bits indexed CLUT (ARGB)
_4_ABGR8888_CLUT = 30 ##< 4 bits indexed CLUT (ABGR)
_4_ARGB8888_CLUT = 31 ##< 4 bits indexed CLUT (ARGB)
class VXLIGHT_TYPE(enum.IntEnum):
"""!
Light type
"""
VX_LIGHTPOINT = 1 ##< The Light is a point of light
VX_LIGHTSPOT = 2 ##< The light is a spotlight
VX_LIGHTDIREC = 3 ##< The light is directional light : Lights comes from an infinite point so only direction of light can be given
#VX_LIGHTPARA = 4 ##< Obsolete, do not use
class VXTEXTURE_BLENDMODE(enum.IntEnum):
"""!
Blend Mode Flags
"""
VXTEXTUREBLEND_DECAL = 1 ##< Texture replace any material information
VXTEXTUREBLEND_MODULATE = 2 ##< Texture and material are combine. Alpha information of the texture replace material alpha component.
VXTEXTUREBLEND_DECALALPHA = 3 ##< Alpha information in the texture specify how material and texture are combined. Alpha information of the texture replace material alpha component.
VXTEXTUREBLEND_MODULATEALPHA = 4 ##< Alpha information in the texture specify how material and texture are combined
VXTEXTUREBLEND_DECALMASK = 5
VXTEXTUREBLEND_MODULATEMASK = 6
VXTEXTUREBLEND_COPY = 7 ##< Equivalent to DECAL
VXTEXTUREBLEND_ADD = 8
VXTEXTUREBLEND_DOTPRODUCT3 = 9 ##< Perform a Dot Product 3 between texture (normal map) and a referential vector given in VXRENDERSTATE_TEXTUREFACTOR.
VXTEXTUREBLEND_MAX = 10
class VXTEXTURE_FILTERMODE(enum.IntEnum):
"""!
Filter Mode Options
"""
VXTEXTUREFILTER_NEAREST = 1 ##< No Filter
VXTEXTUREFILTER_LINEAR = 2 ##< Bilinear Interpolation
VXTEXTUREFILTER_MIPNEAREST = 3 ##< Mip mapping
VXTEXTUREFILTER_MIPLINEAR = 4 ##< Mip Mapping with Bilinear interpolation
VXTEXTUREFILTER_LINEARMIPNEAREST = 5 ##< Mip Mapping with Bilinear interpolation between mipmap levels.
VXTEXTUREFILTER_LINEARMIPLINEAR = 6 ##< Trilinear Filtering
VXTEXTUREFILTER_ANISOTROPIC = 7 ##< Anisotropic filtering
class VXTEXTURE_ADDRESSMODE(enum.IntEnum):
"""!
Texture addressing modes.
"""
VXTEXTURE_ADDRESSWRAP = 1 ##< Default mesh wrap mode is used (see CKMesh::SetWrapMode)
VXTEXTURE_ADDRESSMIRROR = 2 ##< Texture coordinates outside the range [0..1] are flipped evenly.
VXTEXTURE_ADDRESSCLAMP = 3 ##< Texture coordinates greater than 1.0 are set to 1.0, and values less than 0.0 are set to 0.0.
VXTEXTURE_ADDRESSBORDER = 4 ##< When texture coordinates are greater than 1.0 or less than 0.0 texture is set to a color defined in CKMaterial::SetTextureBorderColor.
VXTEXTURE_ADDRESSMIRRORONCE = 5 ##<
class VXBLEND_MODE(enum.IntEnum):
"""!
Blending Mode options
"""
VXBLEND_ZERO = 1 ##< Blend factor is (0, 0, 0, 0).
VXBLEND_ONE = 2 ##< Blend factor is (1, 1, 1, 1).
VXBLEND_SRCCOLOR = 3 ##< Blend factor is (Rs, Gs, Bs, As).
VXBLEND_INVSRCCOLOR = 4 ##< Blend factor is (1-Rs, 1-Gs, 1-Bs, 1-As).
VXBLEND_SRCALPHA = 5 ##< Blend factor is (As, As, As, As).
VXBLEND_INVSRCALPHA = 6 ##< Blend factor is (1-As, 1-As, 1-As, 1-As).
VXBLEND_DESTALPHA = 7 ##< Blend factor is (Ad, Ad, Ad, Ad).
VXBLEND_INVDESTALPHA = 8 ##< Blend factor is (1-Ad, 1-Ad, 1-Ad, 1-Ad).
VXBLEND_DESTCOLOR = 9 ##< Blend factor is (Rd, Gd, Bd, Ad).
VXBLEND_INVDESTCOLOR = 10 ##< Blend factor is (1-Rd, 1-Gd, 1-Bd, 1-Ad).
VXBLEND_SRCALPHASAT = 11 ##< Blend factor is (f, f, f, 1); f = min(As, 1-Ad).
#VXBLEND_BOTHSRCALPHA = 12 ##< Source blend factor is (As, As, As, As) and destination blend factor is (1-As, 1-As, 1-As, 1-As)
#VXBLEND_BOTHINVSRCALPHA = 13 ##< Source blend factor is (1-As, 1-As, 1-As, 1-As) and destination blend factor is (As, As, As, As)
class VXFILL_MODE(enum.IntEnum):
"""!
Fill Mode Options
"""
VXFILL_POINT = 1 ##< Vertices rendering
VXFILL_WIREFRAME = 2 ##< Edges rendering
VXFILL_SOLID = 3 ##< Face rendering
class VXSHADE_MODE(enum.IntEnum):
"""!
Shade Mode Options
"""
VXSHADE_FLAT = 1 ##< Flat Shading
VXSHADE_GOURAUD = 2 ##< Gouraud Shading
VXSHADE_PHONG = 3 ##< Phong Shading (Not yet supported by most implementation)
class VXCMPFUNC(enum.IntEnum):
"""!
Comparison Function
"""
VXCMP_NEVER = 1 ##< Always fail the test.
VXCMP_LESS = 2 ##< Accept if value if less than current value.
VXCMP_EQUAL = 3 ##< Accept if value if equal than current value.
VXCMP_LESSEQUAL = 4 ##< Accept if value if less or equal than current value.
VXCMP_GREATER = 5 ##< Accept if value if greater than current value.
VXCMP_NOTEQUAL = 6 ##< Accept if value if different than current value.
VXCMP_GREATEREQUAL = 7 ##< Accept if value if greater or equal current value.
VXCMP_ALWAYS = 8 ##< Always accept the test.
class VXMESH_LITMODE(enum.IntEnum):
"""!
{filename:VXMESH_LITMODE}
Summary: Mesh lighting options
Remarks:
+ The VXMESH_LITMODE is used by CKMesh::SetLitMode to specify how lighting is done.
See Also: CKMaterial,CKMesh
"""
VX_PRELITMESH = 0 ##< Lighting use color information store with vertices
VX_LITMESH = 1 ##< Lighting is done by renderer using normals and face material information.

9
Assets/BMapBindings/PyBMap/README.md Normal file
View File

@@ -0,0 +1,9 @@
# PyBMap
The real scripts are placed in sub PyBMap folder. This folder is served for testbench scripts placing. You can run `testbench.py` to do a basic test for PyBMap but you may need some essential files to run this testbench which were written in `testbench.py`.
The native BMap library should be placed in sub PyBMap folder, and I have used gitignore file to filter them. The native BMap library must be named as `BMap.dll` (in Windows), `BMap.so` (in Linux or BSD), or `BMap.dylib` (in macOS). If you still can not load BMap or your system is not listed above, you should name it as `BMap.bin`.
Please note the most content of `virtools_types.py` are generated by EnumsMigration sub-project. Additionally the most content of `bmap.py` is generated by BMapBindings. So if some structs are updated, do not forget checking these files.
Since BMap 0.3.0, testbench use command line arguments, instead of hardcode variables in code, as the arguments of BMap. It is convenient that debug BMapSharp without any modification of source code. For a brief instruction, you may need to launch BMapSharpTestbench in following command (just an example. you can modify it as you wished): `py testbench.py --file-path "LightCameraTest.nmo" --temp-dir "Temp" --texture-dir "F:/Ballance/Ballance/Textures" --encodings cp1252 gb2312`.

178
Assets/BMapBindings/PyBMap/testbench.py Normal file
View File

@@ -0,0 +1,178 @@
import os
import argparse
import PyBMap.bmap_wrapper as bmap
def main(file_name: str, temp_folder: str, texture_folder: str, encodings: tuple[str, ...]) -> None:
input(f'Python PID is {os.getpid()}. Waiting for debugger, press any key to continue...')
# file_name: str = 'LightCameraTest.nmo'
# temp_folder: str = 'Temp'
# texture_folder: str = 'F:\\Ballance\\Ballance\\Textures'
# encodings: tuple[str, ...] = ('cp1252', )
with bmap.BMFileReader(file_name, temp_folder, texture_folder, encodings) as reader:
test_common(reader)
test_equatable(reader)
def test_common(reader: bmap.BMFileReader):
# print('===== Groups =====')
# for gp in reader.get_groups():
# print(gp.get_name())
# for gp_item in gp.get_objects():
# print(f'\t{gp_item.get_name()}')
# print('===== 3dObjects =====')
# for obj in reader.get_3dobjects():
# print(obj.get_name())
# current_mesh = obj.get_current_mesh()
# mesh_name = '<null>' if current_mesh is None else current_mesh.get_name()
# print(f'\tMesh: {mesh_name}')
# print(f'\tVisibility: {obj.get_visibility()}')
# print(f'\tMatrix: {obj.get_world_matrix().to_const()}')
# print('===== Meshes =====')
# for mesh in reader.get_meshs():
# print(mesh.get_name())
# print(f'\tLit Mode: {mesh.get_lit_mode()}')
# print(f'\tVertex Count: {mesh.get_vertex_count()}')
# print(f'\tFace Count: {mesh.get_face_count()}')
# print(f'\tMaterial Slot Count: {mesh.get_material_slot_count()}')
# print('===== Materials =====')
# for mtl in reader.get_materials():
# print(mtl.get_name())
# print(f'\tDiffuse: {mtl.get_diffuse().to_const_rgba()}')
# print(f'\tAmbient: {mtl.get_ambient().to_const_rgba()}')
# print(f'\tSpecular: {mtl.get_specular().to_const_rgba()}')
# print(f'\tEmissive: {mtl.get_emissive().to_const_rgba()}')
# print(f'\tSpecular Power: {mtl.get_specular_power()}')
# print(f'\tTexture Border Color: {mtl.get_texture_border_color().to_const_rgba()}')
# print(f'\tTexture Blend Mode: {mtl.get_texture_blend_mode()}')
# print(f'\tTexture Min Mode: {mtl.get_texture_min_mode()}')
# print(f'\tTexture Mag Mode: {mtl.get_texture_mag_mode()}')
# print(f'\tSource Blend: {mtl.get_source_blend()}')
# print(f'\tDest Blend: {mtl.get_dest_blend()}')
# print(f'\tFill Mode: {mtl.get_fill_mode()}')
# print(f'\tShade Mode: {mtl.get_shade_mode()}')
# print(f'\tAlpha Test Enabled: {mtl.get_alpha_test_enabled()}')
# print(f'\tAlpha Blend Enabled: {mtl.get_alpha_blend_enabled()}')
# print(f'\tPerspective Correction Enabled: {mtl.get_perspective_correction_enabled()}')
# print(f'\tZ Write Enabled: {mtl.get_z_write_enabled()}')
# print(f'\tTwo Sided Enabled: {mtl.get_two_sided_enabled()}')
# print(f'\tAlpha Ref: {mtl.get_alpha_ref()}')
# print(f'\tAlpha Func: {mtl.get_alpha_func()}')
# print(f'\tZ Func: {mtl.get_z_func()}')
# print('===== Textures =====')
# for tex in reader.get_textures():
# print(tex.get_name())
# print(f'\tFile Name: {tex.get_file_name()}')
# print(f'\tSave Options: {tex.get_save_options()}')
# print(f'\tVideo Format: {tex.get_video_format()}')
print('===== Target Lights =====')
for lit in reader.get_target_lights():
print(lit.get_name())
print(f'\tVisibility: {lit.get_visibility()}')
print(f'\tMatrix: {lit.get_world_matrix().to_const()}')
print(f'\tType: {lit.get_type()}')
print(f'\tColor: {lit.get_color().to_const_rgba()}')
print(f'\tConstant Attenuation: {lit.get_constant_attenuation()}')
print(f'\tLinear Attenuation: {lit.get_linear_attenuation()}')
print(f'\tQuadratic Attenuation: {lit.get_quadratic_attenuation()}')
print(f'\tRange: {lit.get_range()}')
print(f'\tHot Spot: {lit.get_hot_spot()}')
print(f'\tFalloff: {lit.get_falloff()}')
print(f'\tFalloff Shape: {lit.get_falloff_shape()}')
print('===== END =====')
def test_equatable(reader: bmap.BMFileReader):
# Check requirements
assert (reader.get_3dobject_count() >= 2), '''
Invalid file for test IEquatable.
We can not perform IEquatable test because the length of 3dObject is too short (must greater than 2). Please choose another file to perform.
'''
# Prepare variables
all_3dobjects: tuple[bmap.BM3dObject, ...] = tuple(reader.get_3dobjects())
first_3dobj: bmap.BM3dObject = all_3dobjects[0]
second_3dobj: bmap.BM3dObject = all_3dobjects[1]
all_3dobjects = tuple(reader.get_3dobjects())
first_3dobj_again: bmap.BM3dObject = all_3dobjects[0]
# Test set
test_set: set[bmap.BM3dObject] = set()
test_set.add(first_3dobj)
assert len(test_set) == 1
assert first_3dobj in test_set
assert first_3dobj_again in test_set
assert second_3dobj not in test_set
test_set.add(first_3dobj_again)
assert len(test_set) == 1
test_set.add(second_3dobj)
assert len(test_set) == 2
assert second_3dobj in test_set
# Test dict
test_dict: dict[bmap.BM3dObject, str | None] = {}
test_dict[first_3dobj] = first_3dobj.get_name()
assert len(test_dict) == 1
assert first_3dobj in test_dict
assert first_3dobj_again in test_dict
assert second_3dobj not in test_dict
test_dict[first_3dobj_again] = first_3dobj_again.get_name()
assert len(test_dict) == 1
test_dict[second_3dobj] = second_3dobj.get_name()
assert len(test_dict) == 2
assert second_3dobj in test_dict
if __name__ == '__main__':
# parse argument
parser = argparse.ArgumentParser(
prog='PyBMap Testbench',
description='The testbench of PyBMap.'
)
parser.add_argument(
'--file-path',
action='store', dest='file_path', required=True,
help='The path to input Virtools file.'
)
parser.add_argument(
'--temp-dir',
action='store', dest='temp_dir', required=True,
help='The temp folder used by BMap.'
)
parser.add_argument(
'--texture-dir',
action='store', dest='texture_dir', required=True,
help='The texture folder containing Ballance texture resources.'
)
parser.add_argument(
'--encodings',
action='extend', nargs='+', dest='encodings', required=True,
help='The encodings used to parse the names stroed in input Virtools file.'
)
args = parser.parse_args()
# run main function
main(args.file_path, args.temp_dir, args.texture_dir, tuple(args.encodings))