# limitations under the License.
# Loading of Nit source files
+#
+# The loader takes care of looking for module and projects in the file system, and the associated case of errors.
+# The loading requires several steps:
+#
+# Identify: create an empty model entity associated to a name or a file path.
+# Identification is used for instance when names are given in the command line.
+# See `identify_module` and `identify_group`.
+#
+# Scan: visit directories and identify their contents.
+# Scanning is done to enable the searching of modules in projects.
+# See `scan_group` and `scan_full`.
+#
+# Parse: load the AST and associate it with the model entity.
+# See `MModule::parse`.
+#
+# Import: means recursively load modules imported by a module.
+# See `build_module_importation`.
+#
+# Load: means doing the full sequence: identify, parse and import.
+# See `ModelBuilder::parse`, `ModelBuilder::parse_full`, `MModule::load` `ModelBuilder::load_module.
module loader
import modelbuilder_base
+import ini
redef class ToolContext
# Option --path
- var opt_path = new OptionArray("Set include path for loaders (may be used more than once)", "-I", "--path")
+ var opt_path = new OptionArray("Add an additional include path (may be used more than once)", "-I", "--path")
# Option --only-metamodel
var opt_only_metamodel = new OptionBool("Stop after meta-model processing", "--only-metamodel")
# Option --only-parse
- var opt_only_parse = new OptionBool("Only proceed to parse step of loaders", "--only-parse")
+ var opt_only_parse = new OptionBool("Only proceed to parse files", "--only-parse")
redef init
do
for a in modules do
var nmodule = self.load_module(a)
if nmodule == null then continue # Skip error
- # Load imported module
- build_module_importation(nmodule)
var mmodule = nmodule.mmodule
if mmodule == null then continue # skip error
mmodules.add mmodule
if toolcontext.opt_only_parse.value then
self.toolcontext.info("*** ONLY PARSE...", 1)
- exit(0)
+ self.toolcontext.quit
end
return mmodules.to_a
end
- # Load recursively all modules of the group `mgroup`.
- # See `parse` for details.
- fun parse_group(mgroup: MGroup): Array[MModule]
- do
- var res = new Array[MModule]
- scan_group(mgroup)
- for mg in mgroup.in_nesting.smallers do
- for mp in mg.module_paths do
- var nmodule = self.load_module(mp.filepath)
- if nmodule == null then continue # Skip error
- # Load imported module
- build_module_importation(nmodule)
- var mmodule = nmodule.mmodule
- if mmodule == null then continue # Skip error
- res.add mmodule
- end
- end
- return res
- end
-
- # Load a bunch of modules and groups.
- #
- # Each name can be:
- #
- # * a path to a module, a group or a directory of projects.
- # * a short name of a module or a group that are looked in the `paths` (-I)
- #
- # Then, for each entry, if it is:
+ # Identify a bunch of modules and groups.
#
- # * a module, then is it parser and returned.
- # * a group then recursively all its modules are parsed.
- # * a directory of projects then all the modules of all projects are parsed.
- # * else an error is displayed.
- #
- # See `parse` for details.
- fun parse_full(names: Sequence[String]): Array[MModule]
+ # This does the same as `parse_full` but does only the identification (cf. `identify_module`)
+ fun scan_full(names: Sequence[String]): Array[MModule]
do
- var time0 = get_time
- # Parse and recursively load
- self.toolcontext.info("*** PARSE ***", 1)
- var mmodules = new ArraySet[MModule]
+ var mmodules = new Array[MModule]
for a in names do
- # Case of a group
- var mgroup = self.get_mgroup(a)
+ # Case of a group (root or sub-directory)
+ var mgroup = self.identify_group(a)
if mgroup != null then
- mmodules.add_all parse_group(mgroup)
+ scan_group(mgroup)
+ for mg in mgroup.in_nesting.smallers do mmodules.add_all mg.mmodules
continue
end
if stat != null and stat.is_dir then
self.toolcontext.info("look in directory {a}", 2)
var fs = a.files
+ alpha_comparator.sort(fs)
# Try each entry as a group or a module
for f in fs do
var af = a/f
- mgroup = get_mgroup(af)
+ mgroup = identify_group(af)
if mgroup != null then
- mmodules.add_all parse_group(mgroup)
+ scan_group(mgroup)
+ for mg in mgroup.in_nesting.smallers do mmodules.add_all mg.mmodules
continue
end
- var mp = identify_file(af)
- if mp != null then
- var nmodule = self.load_module(af)
- if nmodule == null then continue # Skip error
- build_module_importation(nmodule)
- var mmodule = nmodule.mmodule
- if mmodule == null then continue # Skip error
+ var mmodule = identify_module(af)
+ if mmodule != null then
mmodules.add mmodule
else
self.toolcontext.info("ignore file {af}", 2)
continue
end
- var nmodule = self.load_module(a)
- if nmodule == null then continue # Skip error
- # Load imported module
- build_module_importation(nmodule)
- var mmodule = nmodule.mmodule
- if mmodule == null then continue # Skip error
+ var mmodule = identify_module(a)
+ if mmodule == null then
+ if a.file_exists then
+ toolcontext.error(null, "Error: `{a}` is not a Nit source file.")
+ else
+ toolcontext.error(null, "Error: cannot find module `{a}`.")
+ end
+ continue
+ end
+
+ mmodules.add mmodule
+ end
+ return mmodules
+ end
+
+ # Load a bunch of modules and groups.
+ #
+ # Each name can be:
+ #
+ # * a path to a module, a group or a directory of packages.
+ # * a short name of a module or a group that are looked in the `paths` (-I)
+ #
+ # Then, for each entry, if it is:
+ #
+ # * a module, then is it parsed and returned.
+ # * a group then recursively all its modules are parsed.
+ # * a directory of packages then all the modules of all packages are parsed.
+ # * else an error is displayed.
+ #
+ # See `parse` for details.
+ fun parse_full(names: Sequence[String]): Array[MModule]
+ do
+ var time0 = get_time
+ # Parse and recursively load
+ self.toolcontext.info("*** PARSE ***", 1)
+ var mmodules = new ArraySet[MModule]
+ var scans = scan_full(names)
+ for mmodule in scans do
+ var ast = mmodule.load(self)
+ if ast == null then continue # Skip error
mmodules.add mmodule
end
var time1 = get_time
if toolcontext.opt_only_parse.value then
self.toolcontext.info("*** ONLY PARSE...", 1)
- exit(0)
+ self.toolcontext.quit
end
return mmodules.to_a
# Path can be added (or removed) by the client
var paths = new Array[String]
- # Like (and used by) `get_mmodule_by_name` but just return the ModulePath
- fun search_mmodule_by_name(anode: nullable ANode, mgroup: nullable MGroup, name: String): nullable ModulePath
+ # Like (and used by) `get_mmodule_by_name` but does not force the parsing of the MModule (cf. `identify_module`)
+ fun search_mmodule_by_name(anode: nullable ANode, mgroup: nullable MGroup, name: String): nullable MModule
do
# First, look in groups
var c = mgroup
if c != null then
- var r = c.mproject.root
+ var r = c.mpackage.root
assert r != null
scan_group(r)
- var res = r.mmodule_paths_by_name(name)
+ var res = r.mmodules_by_name(name)
if res.not_empty then return res.first
end
# Look at some known directories
var lookpaths = self.paths
- # Look in the directory of the group project also (even if not explicitly in the path)
+ # Look in the directory of the group package also (even if not explicitly in the path)
if mgroup != null then
# path of the root group
- var dirname = mgroup.mproject.root.filepath
+ var dirname = mgroup.mpackage.root.filepath
if dirname != null then
dirname = dirname.join_path("..").simplify_path
if not lookpaths.has(dirname) and dirname.file_exists then
end
end
- var candidate = search_module_in_paths(anode.hot_location, name, lookpaths)
+ var loc = null
+ if anode != null then loc = anode.hot_location
+ var candidate = search_module_in_paths(loc, name, lookpaths)
if candidate == null then
if mgroup != null then
# If no module exists or there is a name conflict, then an error on `anode` is displayed and null is returned.
fun get_mmodule_by_name(anode: nullable ANode, mgroup: nullable MGroup, name: String): nullable MModule
do
- var path = search_mmodule_by_name(anode, mgroup, name)
- if path == null then return null # Forward error
- return load_module_path(path)
- end
-
- # Load and process importation of a given ModulePath.
- #
- # Basically chains `load_module` and `build_module_importation`.
- fun load_module_path(path: ModulePath): nullable MModule
- do
- var res = self.load_module(path.filepath)
- if res == null then return null # Forward error
- # Load imported module
- build_module_importation(res)
- return res.mmodule
+ var mmodule = search_mmodule_by_name(anode, mgroup, name)
+ if mmodule == null then return null # Forward error
+ var ast = mmodule.load(self)
+ if ast == null then return null # Forward error
+ return mmodule
end
# Search a module `name` from path `lookpaths`.
- # If found, the path of the file is returned
- private fun search_module_in_paths(location: nullable Location, name: String, lookpaths: Collection[String]): nullable ModulePath
+ # If found, the module is returned.
+ private fun search_module_in_paths(location: nullable Location, name: String, lookpaths: Collection[String]): nullable MModule
do
- var res = new ArraySet[ModulePath]
+ var res = new ArraySet[MModule]
for dirname in lookpaths do
# Try a single module file
- var mp = identify_file((dirname/"{name}.nit").simplify_path)
+ var mp = identify_module((dirname/"{name}.nit").simplify_path)
if mp != null then res.add mp
# Try the default module of a group
- var g = get_mgroup((dirname/name).simplify_path)
+ var g = identify_group((dirname/name).simplify_path)
if g != null then
scan_group(g)
- res.add_all g.mmodule_paths_by_name(name)
+ res.add_all g.mmodules_by_name(name)
end
end
if res.is_empty then return null
if res.length > 1 then
- toolcontext.error(location, "Error: conflicting module files for `{name}`: `{res.join(",")}`")
+ toolcontext.error(location, "Error: conflicting module files for `{name}`: `{[for x in res do x.filepath or else x.full_name].join("`, `")}`")
end
return res.first
end
- # Cache for `identify_file` by realpath
- private var identified_files_by_path = new HashMap[String, nullable ModulePath]
+ # Search groups named `name` from paths `lookpaths`.
+ private fun search_group_in_paths(name: String, lookpaths: Collection[String]): ArraySet[MGroup]
+ do
+ var res = new ArraySet[MGroup]
+ for dirname in lookpaths do
+ # try a single group directory
+ var mg = identify_group(dirname/name)
+ if mg != null then
+ res.add mg
+ end
+ end
+ return res
+ end
+
+ # Cache for `identify_module` by relative and real paths
+ private var identified_modules_by_path = new HashMap[String, nullable MModule]
# All the currently identified modules.
- # See `identify_file`.
- var identified_files = new Array[ModulePath]
+ # See `identify_module`.
+ #
+ # An identified module exists in the model but might be not yet parsed (no AST), or not yet analysed (no importation).
+ var identified_modules = new Array[MModule]
- # Identify a source file and load the associated project and groups if required.
+ # All the currently parsed modules.
+ #
+ # A parsed module exists in the model but might be not yet analysed (no importation).
+ var parsed_modules = new Array[MModule]
+
+ # Identify a source file and load the associated package and groups if required.
#
# This method does what the user expects when giving an argument to a Nit tool.
#
# * If `path` is an existing Nit source file (with the `.nit` extension),
- # then the associated ModulePath is returned
+ # then the associated MModule is returned
# * If `path` is a directory (with a `/`),
- # then the ModulePath of its default module is returned (if any)
+ # then the MModule of its default module is returned (if any)
# * If `path` is a simple identifier (eg. `digraph`),
- # then the main module of the project `digraph` is searched in `paths` and returned.
+ # then the main module of the package `digraph` is searched in `paths` and returned.
#
# Silently return `null` if `path` does not exists or cannot be identified.
- fun identify_file(path: String): nullable ModulePath
+ #
+ # On success, it returns a module that is possibly not yet parsed (no AST), or not yet analysed (no importation).
+ # If the module was already identified, or loaded, it is returned.
+ fun identify_module(path: String): nullable MModule
do
# special case for not a nit file
- if path.file_extension != "nit" then
+ if not path.has_suffix(".nit") then
# search dirless files in known -I paths
if not path.chars.has('/') then
var res = search_module_in_paths(null, path, self.paths)
# Found nothing? maybe it is a group...
var candidate = null
if path.file_exists then
- var mgroup = get_mgroup(path)
+ var mgroup = identify_group(path)
if mgroup != null then
var owner_path = mgroup.filepath.join_path(mgroup.name + ".nit")
if owner_path.file_exists then candidate = owner_path
end
# Fast track, the path is already known
- var pn = path.basename(".nit")
+ if identified_modules_by_path.has_key(path) then return identified_modules_by_path[path]
var rp = module_absolute_path(path)
- if identified_files_by_path.has_key(rp) then return identified_files_by_path[rp]
+ if identified_modules_by_path.has_key(rp) then return identified_modules_by_path[rp]
+
+ var pn = path.basename(".nit")
# Search for a group
var mgrouppath = path.join_path("..").simplify_path
- var mgroup = get_mgroup(mgrouppath)
+ var mgroup = identify_group(mgrouppath)
if mgroup == null then
- # singleton project
- var mproject = new MProject(pn, model)
- mgroup = new MGroup(pn, mproject, null) # same name for the root group
+ # singleton package
+ var mpackage = new MPackage(pn, model)
+ mgroup = new MGroup(pn, mpackage, null) # same name for the root group
mgroup.filepath = path
- mproject.root = mgroup
- toolcontext.info("found project `{pn}` at {path}", 2)
+ mpackage.root = mgroup
+ toolcontext.info("found singleton package `{pn}` at {path}", 2)
+
+ # Attach homonymous `ini` file to the package
+ var inipath = path.dirname / "{pn}.ini"
+ if inipath.file_exists then
+ var ini = new ConfigTree(inipath)
+ mpackage.ini = ini
+ end
end
- var res = new ModulePath(pn, path, mgroup)
- mgroup.module_paths.add(res)
+ var src = new SourceFile.from_string(path, "")
+ var loc = new Location(src, 0, 0, 0, 0)
+ var res = new MModule(model, mgroup, pn, loc)
+ res.filepath = path
- identified_files_by_path[rp] = res
- identified_files.add(res)
+ identified_modules_by_path[rp] = res
+ identified_modules_by_path[path] = res
+ identified_modules.add(res)
return res
end
# If the directory is not a group null is returned.
#
# Note: `paths` is also used to look for mgroups
- fun get_mgroup(dirpath: String): nullable MGroup
+ fun identify_group(dirpath: String): nullable MGroup
do
- if not dirpath.file_exists then do
+ var stat = dirpath.file_stat
+
+ if stat == null then do
+ # search dirless directories in known -I paths
+ if dirpath.chars.has('/') then return null
for p in paths do
var try = p / dirpath
- if try.file_exists then
+ stat = try.file_stat
+ if stat != null then
dirpath = try
break label
end
return null
end label
+ # Filter out non-directories
+ if not stat.is_dir then
+ return null
+ end
+
+ # Fast track, the path is already known
var rdp = module_absolute_path(dirpath)
if mgroups.has_key(rdp) then
return mgroups[rdp]
end
- # Hack, a group is determined by one of the following:
- # * the presence of a honomymous nit file
- # * the fact that the directory is named `src`
- # * the fact that there is a sub-directory named `src`
- var pn = rdp.basename(".nit")
- var mp = dirpath.join_path(pn + ".nit").simplify_path
-
- # dirpath2 is the root directory
- # dirpath is the src subdirectory directory, if any, else it is the same that dirpath2
- var dirpath2 = dirpath
- if not mp.file_exists then
- if pn == "src" then
- # With a src directory, the group name is the name of the parent directory
- dirpath2 = rdp.dirname
- pn = dirpath2.basename
- else
- # Check a `src` subdirectory
- dirpath = dirpath2 / "src"
- if not dirpath.file_exists then
- # All rules failed, so return null
+ # By default, the name of the package or group is the base_name of the directory
+ var pn = rdp.basename
+
+ # Check `package.ini` that indicate a package
+ var ini = null
+ var parent = null
+ var inipath = dirpath / "package.ini"
+ if inipath.file_exists then
+ ini = new ConfigTree(inipath)
+ end
+
+ if ini == null then
+ # No ini, multiple course of action
+
+ # The root of the directory hierarchy in the file system.
+ if rdp == "/" then
+ mgroups[rdp] = null
+ return null
+ end
+
+ # Special stopper `packages.ini`
+ if (dirpath/"packages.ini").file_exists then
+ # dirpath cannot be a package since it is a package directory
+ mgroups[rdp] = null
+ return null
+ end
+
+ # check the parent directory (if it does not contain the stopper file)
+ var parentpath = dirpath.join_path("..").simplify_path
+ var stopper = parentpath / "packages.ini"
+ if not stopper.file_exists then
+ # Recursively get the parent group
+ parent = identify_group(parentpath)
+ if parent == null then
+ # Parent is not a group, thus we are not a group either
+ mgroups[rdp] = null
return null
end
end
end
- # check parent directory
- var parentpath = dirpath2.join_path("..").simplify_path
- var parent = get_mgroup(parentpath)
-
var mgroup
if parent == null then
- # no parent, thus new project
- var mproject = new MProject(pn, model)
- mgroup = new MGroup(pn, mproject, null) # same name for the root group
- mproject.root = mgroup
- toolcontext.info("found project `{mproject}` at {dirpath}", 2)
+ # no parent, thus new package
+ if ini != null then pn = ini["package.name"] or else pn
+ var mpackage = new MPackage(pn, model)
+ mgroup = new MGroup(pn, mpackage, null) # same name for the root group
+ mpackage.root = mgroup
+ toolcontext.info("found package `{mpackage}` at {dirpath}", 2)
+ mpackage.ini = ini
else
- mgroup = new MGroup(pn, parent.mproject, parent)
+ mgroup = new MGroup(pn, parent.mpackage, parent)
toolcontext.info("found sub group `{mgroup.full_name}` at {dirpath}", 2)
end
# search documentation
- # in src first so the documentation of the project code can be distinct for the documentation of the project usage
+ # in src first so the documentation of the package code can be distinct for the documentation of the package usage
var readme = dirpath.join_path("README.md")
if not readme.file_exists then readme = dirpath.join_path("README")
- if not readme.file_exists then readme = dirpath2.join_path("README.md")
- if not readme.file_exists then readme = dirpath2.join_path("README")
if readme.file_exists then
var mdoc = load_markdown(readme)
mgroup.mdoc = mdoc
end
mgroup.filepath = dirpath
- mgroups[module_absolute_path(dirpath)] = mgroup
- mgroups[module_absolute_path(dirpath2)] = mgroup
+ mgroups[rdp] = mgroup
return mgroup
end
return mdoc
end
- # Force the identification of all ModulePath of the group and sub-groups in the file system.
+ # Force the identification of all MModule of the group and sub-groups in the file system.
#
# When a group is scanned, its sub-groups hierarchy is filled (see `MGroup::in_nesting`)
- # and the potential modules (and nested modules) are identified (see `MGroup::module_paths`).
+ # and the potential modules (and nested modules) are identified (see `MGroup::modules`).
#
- # Basically, this recursively call `get_mgroup` and `identify_file` on each directory entry.
+ # Basically, this recursively call `identify_group` and `identify_module` on each directory entry.
#
# No-op if the group was already scanned (see `MGroup::scanned`).
fun scan_group(mgroup: MGroup) do
var p = mgroup.filepath
# a virtual group has nothing to scan
if p == null then return
- for f in p.files do
+ var files = p.files
+ alpha_comparator.sort(files)
+ for f in files do
var fp = p/f
- var g = get_mgroup(fp)
- # Recursively scan for groups of the same project
- if g != null and g.mproject == mgroup.mproject then
+ var g = identify_group(fp)
+ # Recursively scan for groups of the same package
+ if g == null then
+ identify_module(fp)
+ else if g.mpackage == mgroup.mpackage then
scan_group(g)
end
- identify_file(fp)
end
end
# Transform relative paths (starting with '../') into absolute paths
private fun module_absolute_path(path: String): String do
- return getcwd.join_path(path).simplify_path
+ return path.realpath
end
# Try to load a module AST using a path.
# Display an error if there is a problem (IO / lexer / parser) and return null
+ #
+ # The AST is loaded as is total independence of the model and its entities.
+ #
+ # AST are not cached or reused thus a new AST is returned on success.
fun load_module_ast(filename: String): nullable AModule
do
- if filename.file_extension != "nit" then
+ if not filename.has_suffix(".nit") then
self.toolcontext.error(null, "Error: file `{filename}` is not a valid nit module.")
return null
end
var keep = new Array[String]
var res = new Array[String]
for a in args do
- var l = identify_file(a)
+ var l = identify_module(a)
if l == null then
keep.add a
else
# Display an error if there is a problem (IO / lexer / parser) and return null.
# Note: usually, you do not need this method, use `get_mmodule_by_name` instead.
#
- # The MModule is created however, the importation is not performed,
- # therefore you should call `build_module_importation`.
+ # The MModule is located, created, parsed and the importation is performed.
fun load_module(filename: String): nullable AModule
do
# Look for the module
- var file = identify_file(filename)
- if file == null then
+ var mmodule = identify_module(filename)
+ if mmodule == null then
if filename.file_exists then
toolcontext.error(null, "Error: `{filename}` is not a Nit source file.")
else
return null
end
- # Already known and loaded? then return it
- var mmodule = file.mmodule
- if mmodule != null then
- return mmodule2nmodule[mmodule]
- end
-
- # Load it manually
- var nmodule = load_module_ast(file.filepath)
- if nmodule == null then return null # forward error
-
- # build the mmodule and load imported modules
- mmodule = build_a_mmodule(file.mgroup, file.name, nmodule)
-
- if mmodule == null then return null # forward error
-
- # Update the file information
- file.mmodule = mmodule
-
- return nmodule
+ # Load it
+ return mmodule.load(self)
end
# Injection of a new module without source.
var mmodule = new MModule(model, mgroup, mod_name, nmodule.location)
nmodule.mmodule = mmodule
nmodules.add(nmodule)
+ parsed_modules.add mmodule
self.mmodule2nmodule[mmodule] = nmodule
if parent!= null then
end
# Visit the AST and create the `MModule` object
- private fun build_a_mmodule(mgroup: nullable MGroup, mod_name: String, nmodule: AModule): nullable MModule
+ private fun build_a_mmodule(mgroup: nullable MGroup, nmodule: AModule)
do
+ var mmodule = nmodule.mmodule
+ assert mmodule != null
+
# Check the module name
var decl = nmodule.n_moduledecl
if decl != null then
var decl_name = decl.n_name.n_id.text
- if decl_name != mod_name then
- error(decl.n_name, "Error: module name mismatch; declared {decl_name} file named {mod_name}.")
+ if decl_name != mmodule.name then
+ error(decl.n_name, "Error: module name mismatch; declared {decl_name} file named {mmodule.name}.")
end
end
- # Check for conflicting module names in the project
+ # Check for conflicting module names in the package
if mgroup != null then
- var others = model.get_mmodules_by_name(mod_name)
+ var others = model.get_mmodules_by_name(mmodule.name)
if others != null then for other in others do
- if other.mgroup!= null and other.mgroup.mproject == mgroup.mproject then
+ if other != mmodule and mmodule2nmodule.has_key(mmodule) and other.mgroup!= null and other.mgroup.mpackage == mgroup.mpackage then
var node: ANode
if decl == null then node = nmodule else node = decl.n_name
error(node, "Error: a module named `{other.full_name}` already exists at {other.location}.")
end
end
- # Create the module
- var mmodule = new MModule(model, mgroup, mod_name, nmodule.location)
- nmodule.mmodule = mmodule
nmodules.add(nmodule)
self.mmodule2nmodule[mmodule] = nmodule
var mdoc = ndoc.to_mdoc
mmodule.mdoc = mdoc
mdoc.original_mentity = mmodule
- else
- advice(decl, "missing-doc", "Documentation warning: Undocumented module `{mmodule}`")
end
# Is the module a test suite?
mmodule.is_test_suite = not decl.get_annotations("test_suite").is_empty
end
-
- return mmodule
end
# Resolve the module identification for a given `AModuleName`.
#
# This method handles qualified names as used in `AModuleName`.
- fun seach_module_by_amodule_name(n_name: AModuleName, mgroup: nullable MGroup): nullable ModulePath
+ fun seach_module_by_amodule_name(n_name: AModuleName, mgroup: nullable MGroup): nullable MModule
do
- if n_name.n_quad != null then mgroup = null # Start from top level
- for grp in n_name.n_path do
- var path = search_mmodule_by_name(grp, mgroup, grp.text)
- if path == null then return null # Forward error
- mgroup = path.mgroup
- end
var mod_name = n_name.n_id.text
- return search_mmodule_by_name(n_name, mgroup, mod_name)
+
+ # If a quad is given, we ignore the starting group (go from path)
+ if n_name.n_quad != null then mgroup = null
+
+ # If name not qualified, just search the name
+ if n_name.n_path.is_empty then
+ # Fast search if no n_path
+ return search_mmodule_by_name(n_name, mgroup, mod_name)
+ end
+
+ # If qualified and in a group
+ if mgroup != null then
+ # First search in the package
+ var r = mgroup.mpackage.root
+ assert r != null
+ scan_group(r)
+ # Get all modules with the final name
+ var res = r.mmodules_by_name(mod_name)
+ # Filter out the name that does not match the qualifiers
+ res = [for x in res do if match_amodulename(n_name, x) then x]
+ if res.not_empty then
+ if res.length > 1 then
+ error(n_name, "Error: conflicting module files for `{mod_name}`: `{[for x in res do x.filepath or else x.full_name].join("`, `")}`")
+ end
+ return res.first
+ end
+ end
+
+ # If no module yet, then assume that the first element of the path
+ # Is to be searched in the path.
+ var root_name = n_name.n_path.first.text
+ var roots = search_group_in_paths(root_name, paths)
+ if roots.is_empty then
+ error(n_name, "Error: cannot find `{root_name}`. Tried: {paths.join(", ")}.")
+ return null
+ end
+
+ var res = new ArraySet[MModule]
+ for r in roots do
+ # Then, for each root, collect modules that matches the qualifiers
+ scan_group(r)
+ var root_res = r.mmodules_by_name(mod_name)
+ for x in root_res do if match_amodulename(n_name, x) then res.add x
+ end
+ if res.not_empty then
+ if res.length > 1 then
+ error(n_name, "Error: conflicting module files for `{mod_name}`: `{[for x in res do x.filepath or else x.full_name].join("`, `")}`")
+ end
+ return res.first
+ end
+ # If still nothing, just call a basic search that will fail and will produce an error message
+ error(n_name, "Error: cannot find module `{mod_name}` from `{root_name}`. Tried: {paths.join(", ")}.")
+ return null
+ end
+
+ # Is elements of `n_name` correspond to the group nesting of `m`?
+ #
+ # Basically it check that `bar::foo` matches `bar/foo.nit` and `bar/baz/foo.nit`
+ # but not `baz/foo.nit` nor `foo/bar.nit`
+ #
+ # Is used by `seach_module_by_amodule_name` to validate qualified names.
+ private fun match_amodulename(n_name: AModuleName, m: MModule): Bool
+ do
+ var g: nullable MGroup = m.mgroup
+ for grp in n_name.n_path.reverse_iterator do
+ while g != null and grp.text != g.name do
+ g = g.parent
+ end
+ end
+ return g != null
end
# Analyze the module importation and fill the module_importation_hierarchy
#
- # Unless you used `load_module`, the importation is already done and this method does a no-op.
+ # If the importation was already done (`nmodule.is_importation_done`), this method does a no-op.
+ #
+ # REQUIRE `nmodule.mmodule != null`
+ # ENSURE `nmodule.is_importation_done`
fun build_module_importation(nmodule: AModule)
do
if nmodule.is_importation_done then return
end
# Load the imported module
- var suppath = seach_module_by_amodule_name(aimport.n_name, mmodule.mgroup)
- if suppath == null then
+ var sup = seach_module_by_amodule_name(aimport.n_name, mmodule.mgroup)
+ if sup == null then
+ mmodule.is_broken = true
nmodule.mmodule = null # invalidate the module
continue # Skip error
end
- var sup = load_module_path(suppath)
- if sup == null then
+ var ast = sup.load(self)
+ if ast == null then
+ mmodule.is_broken = true
nmodule.mmodule = null # invalidate the module
continue # Skip error
end
imported_modules.add(sup)
var mvisibility = aimport.n_visibility.mvisibility
if mvisibility == protected_visibility then
+ mmodule.is_broken = true
error(aimport.n_visibility, "Error: only properties can be protected.")
+ mmodule.is_broken = true
nmodule.mmodule = null # invalidate the module
return
end
if sup == mmodule then
error(aimport.n_name, "Error: dependency loop in module {mmodule}.")
+ mmodule.is_broken = true
nmodule.mmodule = null # invalidate the module
end
if sup.in_importation < mmodule then
error(aimport.n_name, "Error: dependency loop between modules {mmodule} and {sup}.")
+ mmodule.is_broken = true
nmodule.mmodule = null # invalidate the module
return
end
mmodule.set_visibility_for(sup, mvisibility)
end
if stdimport then
- var mod_name = "standard"
+ var mod_name = "core"
var sup = self.get_mmodule_by_name(nmodule, null, mod_name)
if sup == null then
+ mmodule.is_broken = true
nmodule.mmodule = null # invalidate the module
else # Skip error
imported_modules.add(sup)
end
# The rule
- var rule = new Array[Object]
+ var rule = new Array[MModule]
# First element is the goal, thus
rule.add suppath
self.toolcontext.info("{mmodule} imports {mmodule.in_importation.direct_greaters.join(", ")}", 3)
- # Force standard to be public if imported
+ # Force `core` to be public if imported
for sup in mmodule.in_importation.greaters do
- if sup.name == "standard" then
+ if sup.name == "core" then
mmodule.set_visibility_for(sup, public_visibility)
end
end
# It means that the first module is the module to automatically import.
# The remaining modules are the conditions of the rule.
#
- # Each module is either represented by a MModule (if the module is already loaded)
- # or by a ModulePath (if the module is not yet loaded).
- #
# Rules are declared by `build_module_importation` and are applied by `apply_conditional_importations`
# (and `build_module_importation` that calls it).
#
# TODO (when the loader will be rewritten): use a better representation and move up rules in the model.
- private var conditional_importations = new Array[SequenceRead[Object]]
+ private var conditional_importations = new Array[SequenceRead[MModule]]
# Extends the current importations according to imported rules about conditional importation
fun apply_conditional_importations(mmodule: MModule)
for ci in conditional_importations do
# Check conditions
for i in [1..ci.length[ do
- var rule_element = ci[i]
- # An element of a rule is either a MModule or a ModulePath
- # We need the mmodule to resonate on the importation
- var m
- if rule_element isa MModule then
- m = rule_element
- else if rule_element isa ModulePath then
- m = rule_element.mmodule
- # Is loaded?
- if m == null then continue label
- else
- abort
- end
+ var m = ci[i]
# Is imported?
if not mmodule.in_importation.greaters.has(m) then continue label
end
# Still here? It means that all conditions modules are loaded and imported
# Identify the module to automatically import
- var suppath = ci.first.as(ModulePath)
- var sup = load_module_path(suppath)
- if sup == null then continue
+ var sup = ci.first
+ var ast = sup.load(self)
+ if ast == null then continue
# Do nothing if already imported
if mmodule.in_importation.greaters.has(sup) then continue label
end
end
-# File-system location of a module (file) that is identified but not always loaded.
-class ModulePath
- # The name of the module
- # (it's the basename of the filepath)
- var name: String
+redef class MModule
+ # Force the parsing of the module using `modelbuilder`.
+ #
+ # If the module was already parsed, the existing ASI is returned.
+ # Else the source file is loaded, and parsed and some
+ #
+ # The importation is not done by this
+ #
+ # REQUIRE: `filepath != null`
+ # ENSURE: `modelbuilder.parsed_modules.has(self)`
+ fun parse(modelbuilder: ModelBuilder): nullable AModule
+ do
+ # Already known and loaded? then return it
+ var nmodule = modelbuilder.mmodule2nmodule.get_or_null(self)
+ if nmodule != null then return nmodule
- # The human path of the module
- var filepath: String
+ var filepath = self.filepath
+ assert filepath != null
+ # Load it manually
+ nmodule = modelbuilder.load_module_ast(filepath)
+ if nmodule == null then return null # forward error
- # The group (and the project) of the possible module
- var mgroup: MGroup
+ # build the mmodule
+ nmodule.mmodule = self
+ self.location = nmodule.location
+ modelbuilder.build_a_mmodule(mgroup, nmodule)
- # The loaded module (if any)
- var mmodule: nullable MModule = null
+ modelbuilder.parsed_modules.add self
+ return nmodule
+ end
+
+ # Parse and process importation of a given MModule.
+ #
+ # Basically chains `parse` and `build_module_importation`.
+ fun load(modelbuilder: ModelBuilder): nullable AModule
+ do
+ var nmodule = parse(modelbuilder)
+ if nmodule == null then return null
- redef fun to_s do return filepath
+ modelbuilder.build_module_importation(nmodule)
+ return nmodule
+ end
end
-redef class MGroup
- # Modules paths associated with the group
- var module_paths = new Array[ModulePath]
+redef class MPackage
+ # The associated `.ini` file, if any
+ #
+ # The `ini` file is given as is and might contain invalid or missing information.
+ #
+ # Some packages, like stand-alone packages or virtual packages have no `ini` file associated.
+ var ini: nullable ConfigTree = null
+end
+redef class MGroup
# Is the group interesting for a final user?
#
- # Groups are mandatory in the model but for simple projects they are not
+ # Groups are mandatory in the model but for simple packages they are not
# always interesting.
#
# A interesting group has, at least, one of the following true:
# * it has a documentation
fun is_interesting: Bool
do
- return module_paths.length > 1 or
- mmodules.length > 1 or
+ return mmodules.length > 1 or
not in_nesting.direct_smallers.is_empty or
mdoc != null or
(mmodules.length == 1 and default_mmodule == null)
#
# If `self` is not scanned (see `ModelBuilder::scan_group`) the
# results might be partial.
- fun mmodule_paths_by_name(name: String): Array[ModulePath]
+ fun mmodules_by_name(name: String): Array[MModule]
do
- var res = new Array[ModulePath]
+ var res = new Array[MModule]
for g in in_nesting.smallers do
- for mp in g.module_paths do
+ for mp in g.mmodules do
if mp.name == name then
res.add mp
end
redef class AModule
# The associated MModule once build by a `ModelBuilder`
- var mmodule: nullable MModule
+ var mmodule: nullable MModule = null
+
# Flag that indicate if the importation is already completed
var is_importation_done: Bool = false
end