# include "project_parser.hpp"
# include "fs.hpp"
# include <deque>
# include <stdexcept>
# include <toml.hpp>
namespace cmkr {
namespace parser {
const char * targetTypeNames [ target_last ] = { " executable " , " library " , " shared " , " static " , " interface " , " custom " , " object " , " template " } ;
static TargetType parse_targetType ( const std : : string & name ) {
for ( int i = 0 ; i < target_last ; i + + ) {
if ( name = = targetTypeNames [ i ] ) {
return static_cast < TargetType > ( i ) ;
}
}
return target_last ;
}
const char * msvcRuntimeTypeNames [ msvc_last ] = { " dynamic " , " static " } ;
static MsvcRuntimeType parse_msvcRuntimeType ( const std : : string & name ) {
for ( int i = 0 ; i < msvc_last ; i + + ) {
if ( name = = msvcRuntimeTypeNames [ i ] ) {
return static_cast < MsvcRuntimeType > ( i ) ;
}
}
return msvc_last ;
}
using TomlBasicValue = toml : : basic_value < toml : : discard_comments , tsl : : ordered_map , std : : vector > ;
static std : : string format_key_message ( const std : : string & message , const toml : : key & ky , const TomlBasicValue & value ) {
auto loc = value . location ( ) ;
auto line_number_str = std : : to_string ( loc . line ( ) ) ;
auto line_width = line_number_str . length ( ) ;
const auto & line_str = loc . line_str ( ) ;
std : : ostringstream oss ;
oss < < message < < " \n " ;
oss < < " --> " < < loc . file_name ( ) < < ' : ' < < loc . line ( ) < < ' \n ' ;
oss < < std : : string ( line_width + 2 , ' ' ) < < " | \n " ;
oss < < ' ' < < line_number_str < < " | " < < line_str < < ' \n ' ;
oss < < std : : string ( line_width + 2 , ' ' ) < < ' | ' ;
auto key_start = line_str . substr ( 0 , loc . column ( ) - 1 ) . rfind ( ky ) ;
if ( key_start = = std : : string : : npos ) {
key_start = line_str . find ( ky ) ;
}
if ( key_start ! = std : : string : : npos ) {
oss < < std : : string ( key_start + 1 , ' ' ) < < std : : string ( ky . length ( ) , ' ~ ' ) ;
}
return oss . str ( ) ;
}
static void throw_key_error ( const std : : string & error , const toml : : key & ky , const TomlBasicValue & value ) {
throw std : : runtime_error ( format_key_message ( " [error] " + error , ky , value ) ) ;
}
static void print_key_warning ( const std : : string & message , const toml : : key & ky , const TomlBasicValue & value ) {
puts ( format_key_message ( " [warning] " + message , ky , value ) . c_str ( ) ) ;
}
class TomlChecker {
const TomlBasicValue & m_v ;
tsl : : ordered_set < toml : : key > m_visited ;
tsl : : ordered_set < toml : : key > m_conditionVisited ;
public :
TomlChecker ( const TomlBasicValue & v , const toml : : key & ky ) : m_v ( toml : : find ( v , ky ) ) {
}
explicit TomlChecker ( const TomlBasicValue & v ) : m_v ( v ) {
}
TomlChecker ( const TomlChecker & ) = delete ;
TomlChecker ( TomlChecker & & ) = delete ;
template < typename T >
void optional ( const toml : : key & ky , Condition < T > & destination ) {
// TODO: this algorithm in O(n) over the amount of keys, kinda bad
const auto & table = m_v . as_table ( ) ;
for ( const auto & itr : table ) {
const auto & key = itr . first ;
const auto & value = itr . second ;
if ( value . is_table ( ) ) {
if ( value . contains ( ky ) ) {
destination [ key ] = toml : : find < T > ( value , ky ) ;
}
} else if ( key = = ky ) {
destination [ " " ] = toml : : find < T > ( m_v , ky ) ;
}
}
// Handle visiting logic
for ( const auto & itr : destination ) {
if ( ! itr . first . empty ( ) ) {
m_conditionVisited . emplace ( itr . first ) ;
}
}
visit ( ky ) ;
}
template < typename T >
void optional ( const toml : : key & ky , T & destination ) {
// TODO: this currently doesn't allow you to get an optional map<string, X>
if ( m_v . contains ( ky ) ) {
destination = toml : : find < T > ( m_v , ky ) ;
}
visit ( ky ) ;
}
template < typename T >
void required ( const toml : : key & ky , T & destination ) {
destination = toml : : find < T > ( m_v , ky ) ;
visit ( ky ) ;
}
bool contains ( const toml : : key & ky ) {
visit ( ky ) ;
return m_v . contains ( ky ) ;
}
const TomlBasicValue & find ( const toml : : key & ky ) {
visit ( ky ) ;
return toml : : find ( m_v , ky ) ;
}
void visit ( const toml : : key & ky ) {
m_visited . emplace ( ky ) ;
}
bool visisted ( const toml : : key & ky ) const {
return m_visited . contains ( ky ) ;
}
void check ( const tsl : : ordered_map < std : : string , std : : string > & conditions ) const {
for ( const auto & itr : m_v . as_table ( ) ) {
const auto & ky = itr . first ;
if ( m_conditionVisited . contains ( ky ) ) {
if ( ! conditions . contains ( ky ) ) {
throw_key_error ( " Unknown condition ' " + ky + " ' " , ky , itr . second ) ;
}
for ( const auto & jtr : itr . second . as_table ( ) ) {
if ( ! m_visited . contains ( jtr . first ) ) {
throw_key_error ( " Unknown key ' " + jtr . first + " ' " , jtr . first , jtr . second ) ;
}
}
} else if ( ! m_visited . contains ( ky ) ) {
if ( itr . second . is_table ( ) ) {
for ( const auto & jtr : itr . second . as_table ( ) ) {
if ( ! m_visited . contains ( jtr . first ) ) {
throw_key_error ( " Unknown key ' " + jtr . first + " ' " , jtr . first , jtr . second ) ;
}
}
}
throw_key_error ( " Unknown key ' " + ky + " ' " , ky , itr . second ) ;
} else if ( ky = = " condition " ) {
std : : string condition = itr . second . as_string ( ) ;
if ( ! conditions . contains ( condition ) ) {
throw_key_error ( " Unknown condition ' " + condition + " ' " , condition , itr . second ) ;
}
}
}
}
} ;
class TomlCheckerRoot {
const TomlBasicValue & m_root ;
std : : deque < TomlChecker > m_checkers ;
tsl : : ordered_set < toml : : key > m_visisted ;
bool m_checked = false ;
public :
explicit TomlCheckerRoot ( const TomlBasicValue & root ) : m_root ( root ) {
}
TomlCheckerRoot ( const TomlCheckerRoot & ) = delete ;
TomlCheckerRoot ( TomlCheckerRoot & & ) = delete ;
bool contains ( const toml : : key & ky ) {
m_visisted . emplace ( ky ) ;
return m_root . contains ( ky ) ;
}
TomlChecker & create ( const TomlBasicValue & v ) {
m_checkers . emplace_back ( v ) ;
return m_checkers . back ( ) ;
}
TomlChecker & create ( const TomlBasicValue & v , const toml : : key & ky ) {
m_checkers . emplace_back ( v , ky ) ;
return m_checkers . back ( ) ;
}
void check ( const tsl : : ordered_map < std : : string , std : : string > & conditions , bool check_root ) {
if ( check_root ) {
for ( const auto & itr : m_root . as_table ( ) ) {
if ( ! m_visisted . contains ( itr . first ) ) {
throw_key_error ( " Unknown key ' " + itr . first + " ' " , itr . first , itr . second ) ;
}
}
}
for ( const auto & checker : m_checkers ) {
checker . check ( conditions ) ;
}
}
} ;
Project : : Project ( const Project * parent , const std : : string & path , bool build ) : parent ( parent ) {
const auto toml_path = fs : : path ( path ) / " cmake.toml " ;
if ( ! fs : : exists ( toml_path ) ) {
throw std : : runtime_error ( " File not found ' " + toml_path . string ( ) + " ' " ) ;
}
const auto toml = toml : : parse < toml : : discard_comments , tsl : : ordered_map , std : : vector > ( toml_path . string ( ) ) ;
if ( toml . size ( ) = = 0 ) {
throw std : : runtime_error ( " Empty TOML ' " + toml_path . string ( ) + " ' " ) ;
}
TomlCheckerRoot checker ( toml ) ;
if ( checker . contains ( " cmake " ) ) {
auto & cmake = checker . create ( toml , " cmake " ) ;
cmake . required ( " version " , cmake_version ) ;
if ( cmake . contains ( " bin-dir " ) ) {
throw_key_error ( " bin-dir has been renamed to build-dir " , " bin-dir " , cmake . find ( " bin-dir " ) ) ;
}
cmake . optional ( " build-dir " , build_dir ) ;
cmake . optional ( " generator " , generator ) ;
cmake . optional ( " config " , config ) ;
cmake . optional ( " arguments " , gen_args ) ;
cmake . optional ( " allow-in-tree " , allow_in_tree ) ;
if ( cmake . contains ( " cmkr-include " ) ) {
const auto & cmkr_include_kv = cmake . find ( " cmkr-include " ) ;
if ( cmkr_include_kv . is_string ( ) ) {
cmkr_include = cmkr_include_kv . as_string ( ) ;
} else {
// Allow disabling this feature with cmkr-include = false
cmkr_include = " " ;
}
}
cmake . optional ( " cpp-flags " , cppflags ) ;
cmake . optional ( " c-flags " , cflags ) ;
cmake . optional ( " link-flags " , linkflags ) ;
}
// Skip the rest of the parsing when building
if ( build ) {
checker . check ( conditions , false ) ;
return ;
}
// Reasonable default conditions (you can override these if you desire)
if ( parent = = nullptr ) {
conditions [ " windows " ] = R " cmake(WIN32)cmake " ;
conditions [ " macos " ] = R " cmake(CMAKE_SYSTEM_NAME MATCHES " Darwin " )cmake " ;
conditions [ " unix " ] = R " cmake(UNIX)cmake " ;
conditions [ " bsd " ] = R " cmake(CMAKE_SYSTEM_NAME MATCHES " BSD " )cmake " ;
conditions [ " linux " ] = conditions [ " lunix " ] = R " cmake(CMAKE_SYSTEM_NAME MATCHES " Linux " )cmake " ;
conditions [ " gcc " ] = R " cmake(CMAKE_CXX_COMPILER_ID STREQUAL " GNU " OR CMAKE_C_COMPILER_ID STREQUAL " GNU " )cmake " ;
conditions [ " clang " ] =
R " cmake((CMAKE_CXX_COMPILER_ID MATCHES " Clang " AND NOT CMAKE_CXX_COMPILER_FRONTEND_VARIANT MATCHES " ^ MSVC $ " ) OR (CMAKE_C_COMPILER_ID MATCHES " Clang " AND NOT CMAKE_C_COMPILER_FRONTEND_VARIANT MATCHES " ^ MSVC $ " ))cmake " ;
conditions [ " msvc " ] = R " cmake(MSVC)cmake " ;
conditions [ " root " ] = R " cmake(CMKR_ROOT_PROJECT)cmake " ;
conditions [ " x64 " ] = R " cmake(CMAKE_SIZEOF_VOID_P EQUAL 8)cmake " ;
conditions [ " x32 " ] = R " cmake(CMAKE_SIZEOF_VOID_P EQUAL 4)cmake " ;
} else {
conditions = parent - > conditions ;
templates = parent - > templates ;
}
if ( checker . contains ( " conditions " ) ) {
auto conds = toml : : find < decltype ( conditions ) > ( toml , " conditions " ) ;
for ( const auto & cond : conds ) {
conditions [ cond . first ] = cond . second ;
}
}
if ( checker . contains ( " project " ) ) {
auto & project = checker . create ( toml , " project " ) ;
project . required ( " name " , project_name ) ;
project . optional ( " version " , project_version ) ;
project . optional ( " description " , project_description ) ;
project . optional ( " languages " , project_languages ) ;
project . optional ( " allow-unknown-languages " , project_allow_unknown_languages ) ;
project . optional ( " cmake-before " , cmake_before ) ;
project . optional ( " cmake-after " , cmake_after ) ;
project . optional ( " include-before " , include_before ) ;
project . optional ( " include-after " , include_after ) ;
project . optional ( " subdirs " , project_subdirs ) ;
std : : string msvc_runtime ;
project . optional ( " msvc-runtime " , msvc_runtime ) ;
if ( ! msvc_runtime . empty ( ) ) {
project_msvc_runtime = parse_msvcRuntimeType ( msvc_runtime ) ;
if ( project_msvc_runtime = = msvc_last ) {
std : : string error = " Unknown runtime ' " + msvc_runtime + " ' \n " ;
error + = " Available types: \n " ;
for ( std : : string type_name : msvcRuntimeTypeNames ) {
error + = " - " + type_name + " \n " ;
}
error . pop_back ( ) ; // Remove last newline
throw_key_error ( error , msvc_runtime , project . find ( " msvc-runtime " ) ) ;
}
}
}
if ( checker . contains ( " subdir " ) ) {
const auto & subs = toml : : find ( toml , " subdir " ) . as_table ( ) ;
for ( const auto & itr : subs ) {
Subdir subdir ;
subdir . name = itr . first ;
auto & sub = checker . create ( itr . second ) ;
sub . optional ( " condition " , subdir . condition ) ;
sub . optional ( " cmake-before " , subdir . cmake_before ) ;
sub . optional ( " cmake-after " , subdir . cmake_after ) ;
sub . optional ( " include-before " , subdir . include_before ) ;
sub . optional ( " include-after " , subdir . include_after ) ;
subdirs . push_back ( subdir ) ;
}
}
if ( checker . contains ( " variables " ) ) {
using set_map = tsl : : ordered_map < std : : string , TomlBasicValue > ;
auto vars = toml : : find < set_map > ( toml , " variables " ) ;
if ( checker . contains ( " settings " ) ) {
print_key_warning ( " [settings] has been renamed to [variables] " , " settings " , toml . at ( " settings " ) ) ;
const auto & sets = toml : : find < set_map > ( toml , " settings " ) ;
for ( const auto & itr : sets ) {
if ( ! vars . insert ( itr ) . second ) {
throw_key_error ( " Key ' " + itr . first + " ' shadows existing variable " , itr . first , itr . second ) ;
}
}
}
for ( const auto & itr : vars ) {
Variable s ;
s . name = itr . first ;
const auto & value = itr . second ;
if ( value . is_boolean ( ) ) {
s . value = value . as_boolean ( ) ;
} else if ( value . is_string ( ) ) {
s . value = value . as_string ( ) ;
} else {
auto & setting = checker . create ( value ) ;
setting . optional ( " help " , s . help ) ;
if ( setting . contains ( " value " ) ) {
const auto & v = setting . find ( " value " ) ;
if ( v . is_boolean ( ) ) {
s . value = v . as_boolean ( ) ;
} else {
s . value = v . as_string ( ) ;
}
}
setting . optional ( " cache " , s . cache ) ;
setting . optional ( " force " , s . force ) ;
}
variables . push_back ( s ) ;
}
}
if ( checker . contains ( " options " ) ) {
using opts_map = tsl : : ordered_map < std : : string , TomlBasicValue > ;
const auto & opts = toml : : find < opts_map > ( toml , " options " ) ;
for ( const auto & itr : opts ) {
Option o ;
o . name = itr . first ;
const auto & value = itr . second ;
if ( value . is_boolean ( ) ) {
o . value = value . as_boolean ( ) ;
} else if ( value . is_string ( ) ) {
auto str = std : : string ( value . as_string ( ) ) ;
if ( str = = " root " ) {
o . value = std : : string ( " ${CMKR_ROOT_PROJECT} " ) ;
} else {
throw_key_error ( " Unsupported option value ' " + str + " ' " , str , value ) ;
}
} else if ( value . is_table ( ) ) {
auto & option = checker . create ( value ) ;
option . optional ( " help " , o . help ) ;
if ( option . contains ( " value " ) ) {
const auto & ovalue = option . find ( " value " ) ;
if ( ovalue . is_boolean ( ) ) {
o . value = ovalue . as_boolean ( ) ;
} else if ( ovalue . is_string ( ) ) {
auto str = std : : string ( ovalue . as_string ( ) ) ;
if ( str = = " root " ) {
o . value = std : : string ( " ${CMKR_ROOT_PROJECT} " ) ;
} else {
throw_key_error ( " Unsupported option value ' " + str + " ' " , str , value ) ;
}
} else {
throw_key_error ( toml : : concat_to_string ( " Unsupported value type: " , ovalue . type ( ) ) , " value " , value ) ;
}
}
} else {
throw_key_error ( toml : : concat_to_string ( " Unsupported value type: " , itr . second . type ( ) ) , itr . first , itr . second ) ;
}
options . push_back ( o ) ;
conditions . emplace ( o . name , o . name ) ;
}
}
if ( checker . contains ( " find-package " ) ) {
using pkg_map = tsl : : ordered_map < std : : string , TomlBasicValue > ;
const auto & pkgs = toml : : find < pkg_map > ( toml , " find-package " ) ;
for ( const auto & itr : pkgs ) {
Package p ;
p . name = itr . first ;
const auto & value = itr . second ;
if ( itr . second . is_string ( ) ) {
p . version = itr . second . as_string ( ) ;
} else {
auto & pkg = checker . create ( value ) ;
pkg . optional ( " condition " , p . condition ) ;
pkg . optional ( " version " , p . version ) ;
pkg . optional ( " required " , p . required ) ;
pkg . optional ( " config " , p . config ) ;
pkg . optional ( " components " , p . components ) ;
}
packages . push_back ( p ) ;
}
}
if ( checker . contains ( " fetch-content " ) ) {
const auto & fc = toml : : find ( toml , " fetch-content " ) . as_table ( ) ;
for ( const auto & itr : fc ) {
Content content ;
content . name = itr . first ;
auto & c = checker . create ( itr . second ) ;
c . optional ( " condition " , content . condition ) ;
c . optional ( " cmake-before " , content . cmake_before ) ;
c . optional ( " cmake-after " , content . cmake_after ) ;
c . optional ( " include-before " , content . include_before ) ;
c . optional ( " include-after " , content . include_after ) ;
for ( const auto & argItr : itr . second . as_table ( ) ) {
std : : string value ;
if ( argItr . second . is_array ( ) ) {
for ( const auto & list_val : argItr . second . as_array ( ) ) {
if ( ! value . empty ( ) ) {
value + = ' ; ' ;
}
value + = list_val . as_string ( ) ;
}
} else if ( argItr . second . is_boolean ( ) ) {
value = argItr . second . as_boolean ( ) ? " ON " : " OFF " ;
} else {
value = argItr . second . as_string ( ) ;
}
auto is_cmake_arg = [ ] ( const std : : string & s ) {
for ( auto c : s ) {
if ( ! ( std : : isdigit ( c ) | | std : : isupper ( c ) | | c = = ' _ ' ) ) {
return false ;
}
}
return true ;
} ;
// https://cmake.org/cmake/help/latest/command/string.html#supported-hash-algorithms
tsl : : ordered_set < std : : string > hash_algorithms = {
" md5 " , " sha1 " , " sha224 " , " sha256 " , " sha384 " , " sha512 " , " sha3_224 " , " sha3_256 " , " sha3_384 " , " sha3_512 " ,
} ;
auto key = argItr . first ;
if ( key = = " git " ) {
key = " GIT_REPOSITORY " ;
} else if ( key = = " tag " ) {
key = " GIT_TAG " ;
} else if ( key = = " shallow " ) {
key = " GIT_SHALLOW " ;
} else if ( key = = " svn " ) {
key = " SVN_REPOSITORY " ;
} else if ( key = = " rev " ) {
key = " SVN_REVISION " ;
} else if ( key = = " url " ) {
key = " URL " ;
} else if ( hash_algorithms . contains ( key ) ) {
std : : string algo ;
for ( auto c : key ) {
algo . push_back ( std : : toupper ( c ) ) ;
}
key = " URL_HASH " ;
value = algo + " = " + value ;
} else if ( key = = " hash " ) {
key = " URL_HASH " ;
} else if ( is_cmake_arg ( key ) ) {
// allow passthrough of ExternalProject options
} else if ( ! c . visisted ( key ) ) {
throw_key_error ( " Unknown key ' " + argItr . first + " ' " , argItr . first , argItr . second ) ;
}
// Make sure not to emit keys like "condition" in the FetchContent call
if ( ! c . visisted ( key ) ) {
content . arguments . emplace ( key , value ) ;
}
c . visit ( argItr . first ) ;
}
contents . emplace_back ( std : : move ( content ) ) ;
}
}
if ( checker . contains ( " bin " ) ) {
throw_key_error ( " [[bin]] has been renamed to [target.<name>] " , " " , toml . at ( " bin " ) ) ;
}
auto parse_target = [ & ] ( const std : : string & name , TomlChecker & t , bool isTemplate ) {
Target target ;
target . name = name ;
t . required ( " type " , target . type_name ) ;
target . type = parse_targetType ( target . type_name ) ;
// Users cannot set this target type
if ( target . type = = target_template ) {
target . type = target_last ;
}
if ( ! isTemplate & & target . type = = target_last ) {
for ( const auto & tmplate : templates ) {
if ( target . type_name = = tmplate . outline . name ) {
target . type = target_template ;
break ;
}
}
}
if ( target . type = = target_last ) {
std : : string error = " Unknown target type ' " + target . type_name + " ' \n " ;
error + = " Available types: \n " ;
for ( std : : string type_name : targetTypeNames ) {
if ( type_name ! = " template " ) {
error + = " - " + type_name + " \n " ;
}
}
if ( ! isTemplate & & ! templates . empty ( ) ) {
error + = " Available templates: \n " ;
for ( const auto & tmplate : templates ) {
error + = " - " + tmplate . outline . name + " \n " ;
}
}
error . pop_back ( ) ; // Remove last newline
throw_key_error ( error , target . type_name , t . find ( " type " ) ) ;
}
t . optional ( " sources " , target . sources ) ;
// Merge the headers into the sources
ConditionVector headers ;
t . optional ( " headers " , headers ) ;
for ( const auto & itr : headers ) {
auto & dest = target . sources [ itr . first ] ;
for ( const auto & jtr : itr . second ) {
dest . push_back ( jtr ) ;
}
}
t . optional ( " compile-definitions " , target . compile_definitions ) ;
t . optional ( " private-compile-definitions " , target . private_compile_definitions ) ;
t . optional ( " compile-features " , target . compile_features ) ;
t . optional ( " private-compile-features " , target . private_compile_features ) ;
t . optional ( " compile-options " , target . compile_options ) ;
t . optional ( " private-compile-options " , target . private_compile_options ) ;
t . optional ( " include-directories " , target . include_directories ) ;
t . optional ( " private-include-directories " , target . private_include_directories ) ;
t . optional ( " link-directories " , target . link_directories ) ;
t . optional ( " private-link-directories " , target . private_link_directories ) ;
t . optional ( " link-libraries " , target . link_libraries ) ;
t . optional ( " private-link-libraries " , target . private_link_libraries ) ;
t . optional ( " link-options " , target . link_options ) ;
t . optional ( " private-link-options " , target . private_link_options ) ;
t . optional ( " precompile-headers " , target . precompile_headers ) ;
t . optional ( " private-precompile-headers " , target . private_precompile_headers ) ;
Condition < std : : string > msvc_runtime ;
t . optional ( " msvc-runtime " , msvc_runtime ) ;
for ( const auto & condItr : msvc_runtime ) {
switch ( parse_msvcRuntimeType ( condItr . second ) ) {
case msvc_dynamic :
target . properties [ condItr . first ] [ " MSVC_RUNTIME_LIBRARY " ] = " MultiThreaded$<$<CONFIG:Debug>:Debug>DLL " ;
break ;
case msvc_static :
target . properties [ condItr . first ] [ " MSVC_RUNTIME_LIBRARY " ] = " MultiThreaded$<$<CONFIG:Debug>:Debug> " ;
break ;
default : {
std : : string error = " Unknown runtime ' " + condItr . second + " ' \n " ;
error + = " Available types: \n " ;
for ( std : : string type_name : msvcRuntimeTypeNames ) {
error + = " - " + type_name + " \n " ;
}
error . pop_back ( ) ; // Remove last newline
const TomlBasicValue * report ;
if ( condItr . first . empty ( ) ) {
report = & t . find ( " msvc-runtime " ) ;
} else {
report = & t . find ( condItr . first ) . as_table ( ) . find ( " msvc-runtime " ) . value ( ) ;
}
throw_key_error ( error , condItr . second , * report ) ;
}
}
}
t . optional ( " condition " , target . condition ) ;
t . optional ( " alias " , target . alias ) ;
if ( t . contains ( " properties " ) ) {
auto store_property = [ & target ] ( const toml : : key & k , const TomlBasicValue & v , const std : : string & condition ) {
if ( v . is_array ( ) ) {
std : : string property_list ;
for ( const auto & list_val : v . as_array ( ) ) {
if ( ! property_list . empty ( ) ) {
property_list + = ' ; ' ;
}
property_list + = list_val . as_string ( ) ;
}
target . properties [ condition ] [ k ] = property_list ;
} else if ( v . is_boolean ( ) ) {
target . properties [ condition ] [ k ] = v . as_boolean ( ) ? " ON " : " OFF " ;
} else {
target . properties [ condition ] [ k ] = v . as_string ( ) ;
}
} ;
const auto & props = t . find ( " properties " ) . as_table ( ) ;
for ( const auto & propKv : props ) {
const auto & k = propKv . first ;
const auto & v = propKv . second ;
if ( v . is_table ( ) ) {
for ( const auto & condKv : v . as_table ( ) ) {
store_property ( condKv . first , condKv . second , k ) ;
}
} else {
store_property ( k , v , " " ) ;
}
}
}
t . optional ( " cmake-before " , target . cmake_before ) ;
t . optional ( " cmake-after " , target . cmake_after ) ;
t . optional ( " include-before " , target . include_before ) ;
t . optional ( " include-after " , target . include_after ) ;
return target ;
} ;
if ( checker . contains ( " template " ) ) {
const auto & ts = toml : : find ( toml , " template " ) . as_table ( ) ;
for ( const auto & itr : ts ) {
auto & t = checker . create ( itr . second ) ;
const auto & name = itr . first ;
for ( const auto & type_name : targetTypeNames ) {
if ( name = = type_name ) {
throw_key_error ( " Reserved template name ' " + name + " ' " , name , itr . second ) ;
}
}
for ( const auto & tmplate : templates ) {
if ( name = = tmplate . outline . name ) {
throw_key_error ( " Template ' " + name + " ' already defined " , name , itr . second ) ;
}
}
Template tmplate ;
tmplate . outline = parse_target ( name , t , true ) ;
t . optional ( " add-function " , tmplate . add_function ) ;
t . optional ( " pass-sources-to-add-function " , tmplate . pass_sources_to_add_function ) ;
t . optional ( " pass-sources " , tmplate . pass_sources_to_add_function ) ;
templates . push_back ( tmplate ) ;
}
}
if ( checker . contains ( " target " ) ) {
const auto & ts = toml : : find ( toml , " target " ) . as_table ( ) ;
for ( const auto & itr : ts ) {
auto & t = checker . create ( itr . second ) ;
targets . push_back ( parse_target ( itr . first , t , false ) ) ;
}
}
if ( checker . contains ( " test " ) ) {
const auto & ts = toml : : find ( toml , " test " ) . as_array ( ) ;
for ( const auto & value : ts ) {
auto & t = checker . create ( value ) ;
Test test ;
t . required ( " name " , test . name ) ;
t . optional ( " condition " , test . condition ) ;
t . optional ( " configurations " , test . configurations ) ;
t . optional ( " working-directory " , test . working_directory ) ;
t . required ( " command " , test . command ) ;
t . optional ( " arguments " , test . arguments ) ;
tests . push_back ( test ) ;
}
}
if ( checker . contains ( " install " ) ) {
const auto & is = toml : : find ( toml , " install " ) . as_array ( ) ;
for ( const auto & value : is ) {
auto & i = checker . create ( value ) ;
Install inst ;
i . optional ( " condition " , inst . condition ) ;
i . optional ( " targets " , inst . targets ) ;
i . optional ( " files " , inst . files ) ;
i . optional ( " dirs " , inst . dirs ) ;
i . optional ( " configs " , inst . configs ) ;
i . required ( " destination " , inst . destination ) ;
i . optional ( " component " , inst . component ) ;
i . optional ( " optional " , inst . optional ) ;
installs . push_back ( inst ) ;
}
}
if ( checker . contains ( " vcpkg " ) ) {
auto & v = checker . create ( toml , " vcpkg " ) ;
v . optional ( " url " , vcpkg . url ) ;
v . optional ( " version " , vcpkg . version ) ;
for ( const auto & p : v . find ( " packages " ) . as_array ( ) ) {
Vcpkg : : Package package ;
const auto & package_str = p . as_string ( ) . str ;
const auto open_bracket = package_str . find ( ' [ ' ) ;
const auto close_bracket = package_str . find ( ' ] ' , open_bracket ) ;
if ( open_bracket = = std : : string : : npos & & close_bracket = = std : : string : : npos ) {
package . name = package_str ;
} else if ( close_bracket ! = std : : string : : npos ) {
package . name = package_str . substr ( 0 , open_bracket ) ;
const auto features = package_str . substr ( open_bracket + 1 , close_bracket - open_bracket - 1 ) ;
std : : istringstream feature_stream { features } ;
std : : string feature ;
while ( std : : getline ( feature_stream , feature , ' , ' ) ) {
package . features . emplace_back ( feature ) ;
}
} else {
throw_key_error ( " Invalid package name ' " + package_str + " ' " , " packages " , p ) ;
}
vcpkg . packages . emplace_back ( std : : move ( package ) ) ;
}
}
checker . check ( conditions , true ) ;
}
const Project * Project : : root ( ) const {
auto root = this ;
while ( root - > parent ! = nullptr )
root = root - > parent ;
return root ;
}
bool Project : : cmake_minimum_version ( int major , int minor ) const {
// NOTE: this code is like pulling teeth, sorry
auto root_version = root ( ) - > cmake_version ;
puts ( root_version . c_str ( ) ) ;
auto range_index = root_version . find ( " ... " ) ;
if ( range_index ! = std : : string : : npos ) {
root_version . resize ( range_index ) ;
}
auto period_index = root_version . find ( ' . ' ) ;
auto root_major = atoi ( root_version . substr ( 0 , period_index ) . c_str ( ) ) ;
int root_minor = 0 ;
if ( period_index ! = std : : string : : npos ) {
auto end_index = root_version . find ( ' . ' , period_index + 1 ) ;
root_minor = atoi ( root_version . substr ( period_index + 1 , end_index ) . c_str ( ) ) ;
}
return std : : tie ( root_major , root_minor ) > = std : : tie ( major , minor ) ;
}
bool is_root_path ( const std : : string & path ) {
const auto toml_path = fs : : path ( path ) / " cmake.toml " ;
if ( ! fs : : exists ( toml_path ) ) {
return false ;
}
const auto toml = toml : : parse < toml : : discard_comments , tsl : : ordered_map , std : : vector > ( toml_path . string ( ) ) ;
return toml . contains ( " project " ) ;
}
} // namespace parser
} // namespace cmkr