# FIXME add missing error checks
module modelbuilder
-import parser
import model
-import poset
-import opts
-import toolcontext
import phase
+private import more_collections
+
###
redef class ToolContext
# Option --path
- readable var _opt_path: OptionArray = new OptionArray("Set include path for loaders (may be used more than once)", "-I", "--path")
+ var opt_path = new OptionArray("Set include path for loaders (may be used more than once)", "-I", "--path")
# Option --only-metamodel
- readable var _opt_only_metamodel: OptionBool = new OptionBool("Stop after meta-model processing", "--only-metamodel")
+ var opt_only_metamodel = new OptionBool("Stop after meta-model processing", "--only-metamodel")
# Option --only-parse
- readable var _opt_only_parse: OptionBool = new OptionBool("Only proceed to parse step of loaders", "--only-parse")
+ var opt_only_parse = new OptionBool("Only proceed to parse step of loaders", "--only-parse")
+
+ # Option --ignore-visibility
+ var opt_ignore_visibility = new OptionBool("Do not check, and produce errors, on visibility issues.", "--ignore-visibility")
redef init
do
super
- option_context.add_option(opt_path, opt_only_parse, opt_only_metamodel)
+ option_context.add_option(opt_path, opt_only_parse, opt_only_metamodel, opt_ignore_visibility)
end
+ # The modelbuilder 1-to-1 associated with the toolcontext
fun modelbuilder: ModelBuilder do return modelbuilder_real.as(not null)
+
private var modelbuilder_real: nullable ModelBuilder = null
+ # Combine module to make a single one if required.
+ fun make_main_module(mmodules: Array[MModule]): MModule
+ do
+ assert not mmodules.is_empty
+ var mainmodule
+ if mmodules.length == 1 then
+ mainmodule = mmodules.first
+ else
+ # We need a main module, so we build it by importing all modules
+ mainmodule = new MModule(modelbuilder.model, null, mmodules.first.name + "-m", new Location(mmodules.first.location.file, 0, 0, 0, 0))
+ mainmodule.is_fictive = true
+ mainmodule.set_imported_mmodules(mmodules)
+ end
+ return mainmodule
+ end
+
+ # Run `process_mainmodule` on all phases
+ fun run_global_phases(mmodules: Array[MModule])
+ do
+ var mainmodule = make_main_module(mmodules)
+ for phase in phases_list do
+ if phase.disabled then continue
+ phase.process_mainmodule(mainmodule, mmodules)
+ end
+ end
end
+redef class Phase
+ # Specific action to execute on the whole program.
+ # Called by the `ToolContext::run_global_phases`.
+ #
+ # `mainmodule` is the main module of the program.
+ # It could be an implicit module (called like the first given_mmodules).
+ #
+ # `given_modules` is the list of explicitely requested modules.
+ # from the command-line for instance.
+ #
+ # REQUIRE: `not given_modules.is_empty`
+ # REQUIRE: `(given_modules.length == 1) == (mainmodule == given_modules.first)`
+ #
+ # @toimplement
+ fun process_mainmodule(mainmodule: MModule, given_mmodules: SequenceRead[MModule]) do end
+end
+
+
# A model builder knows how to load nit source files and build the associated model
class ModelBuilder
# The model where new modules, classes and properties are added
paths.append(path_env.split_with(':'))
end
- path_env = "NIT_DIR".environ
- if not path_env.is_empty then
- var libname = "{path_env}/lib"
+ var nit_dir = toolcontext.nit_dir
+ if nit_dir != null then
+ var libname = "{nit_dir}/lib"
if libname.file_exists then paths.add(libname)
end
-
- var libname = "{sys.program_name.dirname}/../lib"
- if libname.file_exists then paths.add(libname.simplify_path)
end
# Load a bunch of modules.
- # `modules' can contains filenames or module names.
+ # `modules` can contains filenames or module names.
# Imported modules are automatically loaded and modelized.
# The result is the corresponding model elements.
# Errors and warnings are printed with the toolcontext.
var time0 = get_time
# Parse and recursively load
self.toolcontext.info("*** PARSE ***", 1)
- var mmodules = new Array[MModule]
+ var mmodules = new ArraySet[MModule]
for a in modules do
- var nmodule = self.load_module(null, a)
+ var nmodule = self.load_module(a)
if nmodule == null then continue # Skip error
mmodules.add(nmodule.mmodule.as(not null))
end
exit(0)
end
- return mmodules
+ return mmodules.to_a
end
- # Return a class named `name' visible by the module `mmodule'.
+ # Return a class named `name` visible by the module `mmodule`.
# Visibility in modules is correctly handled.
# If no such a class exists, then null is returned.
- # If more than one class exists, then an error on `anode' is displayed and null is returned.
+ # If more than one class exists, then an error on `anode` is displayed and null is returned.
# FIXME: add a way to handle class name conflict
fun try_get_mclass_by_name(anode: ANode, mmodule: MModule, name: String): nullable MClass
do
return res
end
- # Return a property named `name' on the type `mtype' visible in the module `mmodule'.
+ # Return a property named `name` on the type `mtype` visible in the module `mmodule`.
# Visibility in modules is correctly handled.
# Protected properties are returned (it is up to the caller to check and reject protected properties).
# If no such a property exists, then null is returned.
- # If more than one property exists, then an error on `anode' is displayed and null is returned.
+ # If more than one property exists, then an error on `anode` is displayed and null is returned.
# FIXME: add a way to handle property name conflict
fun try_get_mproperty_by_name2(anode: ANode, mmodule: MModule, mtype: MType, name: String): nullable MProperty
do
if not mmodule.is_visible(mprop.intro_mclassdef.mmodule, mprop.visibility) then continue
if res == null then
res = mprop
- else
+ continue
+ end
+
+ # Two global properties?
+ # First, special case for init, keep the most specific ones
+ if res isa MMethod and mprop isa MMethod and res.is_init and mprop.is_init then
var restype = res.intro_mclassdef.bound_mtype
var mproptype = mprop.intro_mclassdef.bound_mtype
- if restype.is_subtype(mmodule, null, mproptype) then
- # we keep res
- else if mproptype.is_subtype(mmodule, null, restype) then
+ if mproptype.is_subtype(mmodule, null, restype) then
+ # found a most specific constructor, so keep it
res = mprop
- else
- if ress == null then ress = new Array[MProperty]
- ress.add(mprop)
+ continue
end
end
+
+ # Ok, just keep all prop in the ress table
+ if ress == null then
+ ress = new Array[MProperty]
+ ress.add(res)
+ end
+ ress.add(mprop)
end
- if ress != null then
+
+ # There is conflict?
+ if ress != null and res isa MMethod and res.is_init then
+ # special case forinit again
var restype = res.intro_mclassdef.bound_mtype
+ var ress2 = new Array[MProperty]
for mprop in ress do
var mproptype = mprop.intro_mclassdef.bound_mtype
if not restype.is_subtype(mmodule, null, mproptype) then
- self.error(anode, "Ambigous property name '{name}' for {mtype}; conflict between {mprop.full_name} and {res.full_name}")
- return null
+ ress2.add(mprop)
+ else if not mprop isa MMethod or not mprop.is_init then
+ ress2.add(mprop)
end
end
+ if ress2.is_empty then
+ ress = null
+ else
+ ress = ress2
+ ress.add(res)
+ end
+ end
+
+ if ress != null then
+ assert ress.length > 1
+ var s = new Array[String]
+ for mprop in ress do s.add mprop.full_name
+ self.error(anode, "Ambigous property name '{name}' for {mtype}; conflict between {s.join(" and ")}")
end
self.try_get_mproperty_by_name2_cache[mmodule, mtype, name] = res
return res
end
- private var try_get_mproperty_by_name2_cache: HashMap3[MModule, MType, String, nullable MProperty] = new HashMap3[MModule, MType, String, nullable MProperty]
+ private var try_get_mproperty_by_name2_cache = new HashMap3[MModule, MType, String, nullable MProperty]
# Alias for try_get_mproperty_by_name2(anode, mclassdef.mmodule, mclassdef.mtype, name)
# The list is initially set with :
# * the toolcontext --path option
# * the NIT_PATH environment variable
- # * some heuristics including the NIT_DIR environment variable and the progname of the process
+ # * `toolcontext.nit_dir`
# Path can be added (or removed) by the client
- var paths: Array[String] = new Array[String]
+ var paths = new Array[String]
- # Get a module by its short name; if required, the module is loaded, parsed and its hierarchies computed.
- # If `mmodule' is set, then the module search starts from it up to the top level (see `paths');
- # if `mmodule' is null then the module is searched in the top level only.
- # If no module exists or there is a name conflict, then an error on `anode' is displayed and null is returned.
- # FIXME: add a way to handle module name conflict
- fun get_mmodule_by_name(anode: ANode, mmodule: nullable MModule, name: String): nullable MModule
+ # Like (an used by) `get_mmodule_by_name` but just return the ModulePath
+ private fun search_mmodule_by_name(anode: ANode, mgroup: nullable MGroup, name: String): nullable ModulePath
do
- var origmmodule = mmodule
- var modules = model.get_mmodules_by_name(name)
-
- var tries = new Array[String]
-
- var lastmodule = mmodule
- while mmodule != null do
- var dirname = mmodule.location.file.filename.dirname
-
- # Determine the owner
- var owner: nullable MModule
- if dirname.basename("") != mmodule.name then
- owner = mmodule.direct_owner
- else
- owner = mmodule
- end
-
- # First, try the already known nested modules
- if modules != null then
- for candidate in modules do
- if candidate.direct_owner == owner then
- return candidate
- end
- end
- end
+ # First, look in groups
+ var c = mgroup
+ while c != null do
+ var dirname = c.filepath
+ if dirname == null then break # virtual group
+ if dirname.has_suffix(".nit") then break # singleton project
# Second, try the directory to find a file
var try_file = dirname + "/" + name + ".nit"
- tries.add try_file
if try_file.file_exists then
- var res = self.load_module(owner, try_file.simplify_path)
- if res == null then return null # Forward error
- return res.mmodule.as(not null)
+ var res = self.identify_file(try_file.simplify_path)
+ assert res != null
+ return res
end
- # Third, try if the requested module is itself an owner
+ # Third, try if the requested module is itself a group
try_file = dirname + "/" + name + "/" + name + ".nit"
if try_file.file_exists then
- var res = self.load_module(owner, try_file.simplify_path)
- if res == null then return null # Forward error
- return res.mmodule.as(not null)
+ var res = self.identify_file(try_file.simplify_path)
+ assert res != null
+ return res
end
- lastmodule = mmodule
- mmodule = mmodule.direct_owner
+ c = c.parent
end
- if modules != null then
- for candidate in modules do
- if candidate.direct_owner == null then
- return candidate
+ # Look at some known directories
+ var lookpaths = self.paths
+
+ # Look in the directory of the group project also (even if not explicitely in the path)
+ if mgroup != null then
+ # path of the root group
+ var dirname = mgroup.mproject.root.filepath
+ if dirname != null then
+ dirname = dirname.join_path("..").simplify_path
+ if not lookpaths.has(dirname) and dirname.file_exists then
+ lookpaths = lookpaths.to_a
+ lookpaths.add(dirname)
end
end
end
- # Look at some known directories
- var lookpaths = self.paths
+ var candidate = search_module_in_paths(anode.hot_location, name, lookpaths)
- # Look in the directory of the last module also (event if not in the path)
- if lastmodule != null then
- var dirname = lastmodule.location.file.filename.dirname
- if dirname.basename("") == lastmodule.name then
- dirname = dirname.dirname
- end
- if not lookpaths.has(dirname) then
- lookpaths = lookpaths.to_a
- lookpaths.add(dirname)
+ if candidate == null then
+ if mgroup != null then
+ error(anode, "Error: cannot find module {name} from {mgroup.name}. tried {lookpaths.join(", ")}")
+ else
+ error(anode, "Error: cannot find module {name}. tried {lookpaths.join(", ")}")
end
+ return null
end
+ return candidate
+ end
+
+ # Get a module by its short name; if required, the module is loaded, parsed and its hierarchies computed.
+ # If `mgroup` is set, then the module search starts from it up to the top level (see `paths`);
+ # if `mgroup` is null then the module is searched in the top level only.
+ # 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: 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
+ var res = self.load_module(path.filepath)
+ if res == null then return null # Forward error
+ return res.mmodule.as(not null)
+ 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
+ do
var candidate: nullable String = null
for dirname in lookpaths do
var try_file = (dirname + "/" + name + ".nit").simplify_path
- tries.add try_file
if try_file.file_exists then
if candidate == null then
candidate = try_file
else if candidate != try_file then
- error(anode, "Error: conflicting module file for {name}: {candidate} {try_file}")
+ # try to disambiguate conflicting modules
+ var abs_candidate = module_absolute_path(candidate)
+ var abs_try_file = module_absolute_path(try_file)
+ if abs_candidate != abs_try_file then
+ toolcontext.error(location, "Error: conflicting module file for {name}: {candidate} {try_file}")
+ end
end
end
try_file = (dirname + "/" + name + "/" + name + ".nit").simplify_path
if candidate == null then
candidate = try_file
else if candidate != try_file then
- error(anode, "Error: conflicting module file for {name}: {candidate} {try_file}")
+ # try to disambiguate conflicting modules
+ var abs_candidate = module_absolute_path(candidate)
+ var abs_try_file = module_absolute_path(try_file)
+ if abs_candidate != abs_try_file then
+ toolcontext.error(location, "Error: conflicting module file for {name}: {candidate} {try_file}")
+ end
end
end
end
- if candidate == null then
- if origmmodule != null then
- error(anode, "Error: cannot find module {name} from {origmmodule}. tried {tries.join(", ")}")
+ if candidate == null then return null
+ return identify_file(candidate)
+ end
+
+ # cache for `identify_file` by realpath
+ private var identified_files = new HashMap[String, nullable ModulePath]
+
+ # Identify a source file
+ # Load the associated project and groups if required
+ private fun identify_file(path: String): nullable ModulePath
+ do
+ # special case for not a nit file
+ if path.file_extension != "nit" then
+ # search in known -I paths
+ var res = search_module_in_paths(null, path, self.paths)
+ if res != null then return res
+
+ # Found nothins? maybe it is a group...
+ var candidate = null
+ if path.file_exists then
+ var mgroup = get_mgroup(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
+ end
+
+ if candidate == null then
+ toolcontext.error(null, "Error: cannot find module `{path}`.")
+ return null
+ end
+ path = candidate
+ end
+
+ # Fast track, the path is already known
+ var pn = path.basename(".nit")
+ var rp = module_absolute_path(path)
+ if identified_files.has_key(rp) then return identified_files[rp]
+
+ # Search for a group
+ var mgrouppath = path.join_path("..").simplify_path
+ var mgroup = get_mgroup(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
+ mgroup.filepath = path
+ mproject.root = mgroup
+ toolcontext.info("found project `{pn}` at {path}", 2)
+ end
+
+ var res = new ModulePath(pn, path, mgroup)
+ mgroup.module_paths.add(res)
+
+ identified_files[rp] = res
+ return res
+ end
+
+ # groups by path
+ private var mgroups = new HashMap[String, nullable MGroup]
+
+ # return the mgroup associated to a directory path
+ # if the directory is not a group null is returned
+ private fun get_mgroup(dirpath: String): nullable MGroup
+ do
+ var rdp = module_absolute_path(dirpath)
+ if mgroups.has_key(rdp) then
+ return mgroups[rdp]
+ end
+
+ # Hack, a group is determined by:
+ # * the presence of a honomymous nit file
+ # * the fact that the directory is named `src`
+ var pn = rdp.basename(".nit")
+ var mp = dirpath.join_path(pn + ".nit").simplify_path
+
+ 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
- error(anode, "Error: cannot find module {name}. tried {tries.join(", ")}")
+ return null
end
- return null
end
- var res = self.load_module(mmodule, candidate)
- if res == null then return null # Forward error
- return res.mmodule.as(not null)
+
+ # check parent directory
+ var parentpath = dirpath.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)
+ else
+ mgroup = new MGroup(pn, parent.mproject, parent)
+ toolcontext.info("found sub group `{mgroup.full_name}` at {dirpath}", 2)
+ end
+ var readme = dirpath2.join_path("README.md")
+ if not readme.file_exists then readme = dirpath2.join_path("README")
+ if readme.file_exists then
+ var mdoc = new MDoc
+ var s = new IFStream.open(readme)
+ while not s.eof do
+ mdoc.content.add(s.read_line)
+ end
+ mgroup.mdoc = mdoc
+ mdoc.original_mentity = mgroup
+ end
+ mgroup.filepath = dirpath
+ mgroups[rdp] = mgroup
+ return mgroup
+ 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
end
- # Try to load a module using a path.
+ # Try to load a module AST using a path.
# 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.
- fun load_module(owner: nullable MModule, filename: String): nullable AModule
+ fun load_module_ast(filename: String): nullable AModule
do
+ if filename.file_extension != "nit" then
+ self.toolcontext.error(null, "Error: file {filename} is not a valid nit module.")
+ return null
+ end
if not filename.file_exists then
self.toolcontext.error(null, "Error: file {filename} not found.")
return null
end
- var x = if owner != null then owner.to_s else "."
- self.toolcontext.info("load module {filename} in {x}", 2)
+ self.toolcontext.info("load module {filename}", 2)
# Load the file
var file = new IFStream.open(filename)
return null
end
+ return nmodule
+ end
+
+ # Try to load a module and its imported modules using a path.
+ # Display an error if there is a problem (IO / lexer / parser / importation) and return null
+ # Note: usually, you do not need this method, use `get_mmodule_by_name` instead.
+ fun load_module(filename: String): nullable AModule
+ do
+ # Look for the module
+ var file = identify_file(filename)
+ if file == null then return null # forward error
+
+ # 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
+
+ # Load imported module
+ build_module_importation(nmodule)
+
+ return nmodule
+ end
+
+ # Injection of a new module without source.
+ # Used by the interpreted
+ fun load_rt_module(parent: nullable MModule, nmodule: AModule, mod_name: String): nullable AModule
+ do
+ # Create the module
+
+ var mgroup = null
+ if parent != null then mgroup = parent.mgroup
+ var mmodule = new MModule(model, mgroup, mod_name, nmodule.location)
+ nmodule.mmodule = mmodule
+ nmodules.add(nmodule)
+ self.mmodule2nmodule[mmodule] = nmodule
+
+ if parent!= null then
+ var imported_modules = new Array[MModule]
+ imported_modules.add(parent)
+ mmodule.set_visibility_for(parent, intrude_visibility)
+ mmodule.set_imported_mmodules(imported_modules)
+ else
+ build_module_importation(nmodule)
+ end
+
+ return nmodule
+ end
+
+ # Visit the AST and create the `MModule` object
+ private fun build_a_mmodule(mgroup: nullable MGroup, mod_name: String, nmodule: AModule): nullable MModule
+ do
# Check the module name
- var mod_name = filename.basename(".nit")
var decl = nmodule.n_moduledecl
if decl == null then
#warning(nmodule, "Warning: Missing 'module' keyword") #FIXME: NOT YET FOR COMPATIBILITY
end
# Create the module
- var mmodule = new MModule(model, owner, mod_name, nmodule.location)
+ var mmodule = new MModule(model, mgroup, mod_name, nmodule.location)
nmodule.mmodule = mmodule
nmodules.add(nmodule)
self.mmodule2nmodule[mmodule] = nmodule
- build_module_importation(nmodule)
+ if decl != null then
+ var ndoc = decl.n_doc
+ if ndoc != null then
+ var mdoc = ndoc.to_mdoc
+ mmodule.mdoc = mdoc
+ mdoc.original_mentity = mmodule
+ else
+ advice(decl, "missing-doc", "Documentation warning: Undocumented module `{mmodule}`")
+ end
+ end
- return nmodule
+ return mmodule
end
# Analysis the module importation and fill the module_importation_hierarchy
if not aimport isa AStdImport then
continue
end
+ var mgroup = mmodule.mgroup
+ if aimport.n_name.n_quad != null then mgroup = null # Start from top level
+ for grp in aimport.n_name.n_path do
+ var path = search_mmodule_by_name(grp, mgroup, grp.text)
+ if path == null then return # Skip error
+ mgroup = path.mgroup
+ end
var mod_name = aimport.n_name.n_id.text
- var sup = self.get_mmodule_by_name(aimport.n_name, mmodule, mod_name)
+ var sup = self.get_mmodule_by_name(aimport.n_name, mgroup, mod_name)
if sup == null then continue # Skip error
+ aimport.mmodule = sup
imported_modules.add(sup)
var mvisibility = aimport.n_visibility.mvisibility
+ if mvisibility == protected_visibility then
+ error(aimport.n_visibility, "Error: only properties can be protected.")
+ return
+ end
+ if sup == mmodule then
+ error(aimport.n_name, "Error: Dependency loop in module {mmodule}.")
+ end
+ if sup.in_importation < mmodule then
+ error(aimport.n_name, "Error: Dependency loop between modules {mmodule} and {sup}.")
+ return
+ end
mmodule.set_visibility_for(sup, mvisibility)
end
if stdimport then
end
self.toolcontext.info("{mmodule} imports {imported_modules.join(", ")}", 3)
mmodule.set_imported_mmodules(imported_modules)
+
+ # TODO: Correctly check for useless importation
+ # It is even doable?
+ var directs = mmodule.in_importation.direct_greaters
+ for nim in nmodule.n_imports do
+ if not nim isa AStdImport then continue
+ var im = nim.mmodule
+ if im == null then continue
+ if directs.has(im) then continue
+ # This generates so much noise that it is simpler to just comment it
+ #warning(nim, "Warning: possible useless importation of {im}")
+ end
end
# All the loaded modules
- var nmodules: Array[AModule] = new Array[AModule]
+ var nmodules = new Array[AModule]
# Register the nmodule associated to each mmodule
- # FIXME: why not refine the MModule class with a nullable attribute?
- var mmodule2nmodule: HashMap[MModule, AModule] = new HashMap[MModule, AModule]
+ # FIXME: why not refine the `MModule` class with a nullable attribute?
+ var mmodule2nmodule = new HashMap[MModule, AModule]
# Helper function to display an error on a node.
- # Alias for `self.toolcontext.error(n.hot_location, text)'
+ # Alias for `self.toolcontext.error(n.hot_location, text)`
fun error(n: ANode, text: String)
do
self.toolcontext.error(n.hot_location, text)
end
# Helper function to display a warning on a node.
- # Alias for: `self.toolcontext.warning(n.hot_location, text)'
- fun warning(n: ANode, text: String)
+ # Alias for: `self.toolcontext.warning(n.hot_location, text)`
+ fun warning(n: ANode, tag, text: String)
+ do
+ self.toolcontext.warning(n.hot_location, tag, text)
+ end
+
+ # Helper function to display an advice on a node.
+ # Alias for: `self.toolcontext.advice(n.hot_location, text)`
+ fun advice(n: ANode, tag, text: String)
do
- self.toolcontext.warning(n.hot_location, text)
+ self.toolcontext.advice(n.hot_location, tag, text)
end
- # Force to get the primitive method named `name' on the type `recv' or do a fatal error on `n'
- fun force_get_primitive_method(n: ANode, name: String, recv: MType, mmodule: MModule): MMethod
+ # Force to get the primitive method named `name` on the type `recv` or do a fatal error on `n`
+ fun force_get_primitive_method(n: nullable ANode, name: String, recv: MClass, mmodule: MModule): MMethod
do
var res = mmodule.try_get_primitive_method(name, recv)
if res == null then
- self.toolcontext.fatal_error(n.hot_location, "Fatal Error: {recv} must have a property named {name}.")
+ var l = null
+ if n != null then l = n.hot_location
+ self.toolcontext.fatal_error(l, "Fatal Error: {recv} must have a property named {name}.")
abort
end
return res
end
end
+# placeholder to a module file identified but not always loaded in a project
+private class ModulePath
+ # The name of the module
+ # (it's the basename of the filepath)
+ var name: String
+
+ # The human path of the module
+ var filepath: String
+
+ # The group (and the project) of the possible module
+ var mgroup: MGroup
+
+ # The loaded module (if any)
+ var mmodule: nullable MModule = null
+
+ redef fun to_s do return filepath
+end
+
+redef class MGroup
+ # modules paths associated with the group
+ private var module_paths = new Array[ModulePath]
+end
+
+redef class AStdImport
+ # The imported module once determined
+ var mmodule: nullable MModule = null
+end
+
redef class AModule
- # The associated MModule once build by a `ModelBuilder'
+ # The associated MModule once build by a `ModelBuilder`
var mmodule: nullable MModule
# Flag that indicate if the importation is already completed
var is_importation_done: Bool = false
redef class APrivateVisibility
redef fun mvisibility do return private_visibility
end
+
+redef class ADoc
+ private var mdoc_cache: nullable MDoc
+ fun to_mdoc: MDoc
+ do
+ var res = mdoc_cache
+ if res != null then return res
+ res = new MDoc
+ for c in n_comment do
+ var text = c.text
+ if text.length < 2 then
+ res.content.add ""
+ continue
+ end
+ assert text.chars[0] == '#'
+ if text.chars[1] == ' ' then
+ text = text.substring_from(2) # eat starting `#` and space
+ else
+ text = text.substring_from(1) # eat atarting `#` only
+ end
+ if text.chars.last == '\n' then text = text.substring(0, text.length-1) # drop \n
+ res.content.add(text)
+ end
+ mdoc_cache = res
+ return res
+ end
+end