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import logging
import os
import json
from ctypes import byref
import pyGHDL.libghdl as libghdl
import pyGHDL.libghdl.errorout_memory as errorout_memory
import pyGHDL.libghdl.flags
import pyGHDL.libghdl.errorout as errorout
import pyGHDL.libghdl.files_map as files_map
import pyGHDL.libghdl.libraries as libraries
import pyGHDL.libghdl.name_table as name_table
import pyGHDL.libghdl.vhdl.nodes as nodes
import pyGHDL.libghdl.vhdl.lists as lists
import pyGHDL.libghdl.vhdl.std_package as std_package
import pyGHDL.libghdl.vhdl.parse
import pyGHDL.libghdl.vhdl.sem_lib as sem_lib
import pyGHDL.libghdl.utils as pyutils
from . import lsp
from . import document, symbols
log = logging.getLogger(__name__)
class ProjectError(Exception):
"Exception raised in case of unrecoverable error in the project file."
def __init__(self, msg):
super().__init__()
self.msg = msg
class Workspace(object):
def __init__(self, root_uri, server):
self._root_uri = root_uri
self._server = server
self._root_path = lsp.path_from_uri(self._root_uri)
self._docs = {} # uri -> doc
self._fe_map = {} # fe -> doc
self._prj = {}
self._last_linted_doc = None
errorout_memory.Install_Handler()
libghdl.flags.Flag_Elocations.value = True
# libghdl.Flags.Verbose.value = True
# We do analysis even in case of errors.
libghdl.vhdl.parse.Flag_Parse_Parenthesis.value = True
# Force analysis to get more feedback + navigation even in case
# of errors.
libghdl.flags.Flag_Force_Analysis.value = True
# Do not consider analysis order issues.
libghdl.flags.Flag_Elaborate_With_Outdated.value = True
libghdl.errorout.Enable_Warning(errorout.Msgid.Warnid_Unused, True)
self.read_project()
self.set_options_from_project()
libghdl.analyze_init()
self._diags_set = set() # Documents with at least one diagnostic.
self.read_files_from_project()
self.gather_diagnostics(None)
@property
def documents(self):
return self._docs
@property
def root_path(self):
return self._root_path
@property
def root_uri(self):
return self._root_uri
def _create_document(self, doc_uri, sfe, version=None):
"""Create a document and put it in this workspace."""
doc = document.Document(doc_uri, sfe, version)
self._docs[doc_uri] = doc
self._fe_map[sfe] = doc
return doc
def create_document_from_sfe(self, sfe, abspath):
# A filename has been given without a corresponding document.
# Create the document.
# Common case: an error message was reported in a non-open document.
# Create a document so that it could be reported to the client.
doc_uri = lsp.path_to_uri(os.path.normpath(abspath))
return self._create_document(doc_uri, sfe)
def create_document_from_uri(self, doc_uri, source=None, version=None):
# A document is referenced by an uri but not known. Load it.
# We assume the path is correct.
path = lsp.path_from_uri(doc_uri)
if source is None:
source = open(path).read()
sfe = document.Document.load(
source, os.path.dirname(path), os.path.basename(path)
)
return self._create_document(doc_uri, sfe)
def get_or_create_document(self, doc_uri):
res = self.get_document(doc_uri)
if res is not None:
return res
res = self.create_document_from_uri(doc_uri)
res.parse_document()
return res
def get_document(self, doc_uri):
"""Get a document from :param doc_uri: Note that the document may not exist,
and this function may return None."""
return self._docs.get(doc_uri)
def put_document(self, doc_uri, source, version=None):
doc = self.get_document(doc_uri)
if doc is None:
doc = self.create_document_from_uri(doc_uri, source=source, version=version)
else:
# The document may already be present (loaded from a project)
# In that case, overwrite it as the client may have a more
# recent version.
doc.reload(source)
return doc
def sfe_to_document(self, sfe):
"""Get the document correspond to :param sfe: source file.
Can create the document if needed."""
assert sfe != 0
doc = self._fe_map.get(sfe, None)
if doc is None:
# Could be a document from outside...
filename = pyutils.name_image(files_map.Get_File_Name(sfe))
if not os.path.isabs(filename):
dirname = pyutils.name_image(files_map.Get_Directory_Name(sfe))
filename = os.path.join(dirname, filename)
doc = self.create_document_from_sfe(sfe, filename)
return doc
def add_vhdl_file(self, name):
log.info("loading %s", name)
if os.path.isabs(name):
absname = name
else:
absname = os.path.join(self._root_path, name)
# Create a document for this file.
try:
fd = open(absname)
sfe = document.Document.load(fd.read(), self._root_path, name)
fd.close()
except OSError as err:
self._server.show_message(
lsp.MessageType.Error, "cannot load {}: {}".format(name, err.strerror)
)
return
doc = self.create_document_from_sfe(sfe, absname)
doc.parse_document()
def read_project(self):
prj_file = os.path.join(self.root_path, "hdl-prj.json")
if not os.path.exists(prj_file):
log.info("project file %s does not exist", prj_file)
return
try:
f = open(prj_file)
except OSError as err:
self._server.show_message(
lsp.MessageType.Error,
"cannot open project file {}: {}".format(prj_file, err.strerror),
)
return
log.info("reading project file %s", prj_file)
try:
self._prj = json.load(f)
except json.decoder.JSONDecodeError as e:
log.info("error in project file")
self._server.show_message(
lsp.MessageType.Error,
"json error in project file {}:{}:{}".format(
prj_file, e.lineno, e.colno
),
)
f.close()
def set_options_from_project(self):
try:
if self._prj is None:
return
if not isinstance(self._prj, dict):
raise ProjectError("project file is not a dictionnary")
opts = self._prj.get("options", None)
if opts is None:
return
if not isinstance(opts, dict):
raise ProjectError("'options' is not a dictionnary")
ghdl_opts = opts.get("ghdl_analysis", None)
if ghdl_opts is None:
return
log.info("Using options: %s", ghdl_opts)
for opt in ghdl_opts:
if not libghdl.set_option(opt.encode("utf-8")):
self._server.show_message(
lsp.MessageType.Error, "error with option: {}".format(opt)
)
except ProjectError as e:
self._server.show_message(
lsp.MessageType.Error, "error in project file: {}".format(e.msg)
)
def read_files_from_project(self):
try:
files = self._prj.get("files", [])
if not isinstance(files, list):
raise ProjectError("'files' is not a list")
for f in files:
if not isinstance(f, dict):
raise ProjectError("an element of 'files' is not a dict")
name = f.get("file")
if not isinstance(name, str):
raise ProjectError("a 'file' is not a string")
lang = f.get("language", "vhdl")
if lang == "vhdl":
self.add_vhdl_file(name)
except ProjectError as e:
self._server.show_message(
lsp.MessageType.Error, "error in project file: {}".format(e.msg)
)
def get_configuration(self):
self._server.configuration(
[{"scopeUri": "", "section": "vhdl.maxNumberOfProblems"}]
)
def gather_diagnostics(self, doc):
# Gather messages (per file)
nbr_msgs = errorout_memory.Get_Nbr_Messages()
diags = {}
diag = {}
for i in range(nbr_msgs):
hdr = errorout_memory.Get_Error_Record(i + 1)
msg = errorout_memory.Get_Error_Message(i + 1).decode("utf-8")
if hdr.file == 0:
# Possible for error limit reached.
continue
err_range = {
"start": {"line": hdr.line - 1, "character": hdr.offset},
"end": {"line": hdr.line - 1, "character": hdr.offset + hdr.length},
}
if hdr.group <= errorout_memory.Msg_Main:
if hdr.id <= errorout.Msgid.Msgid_Note:
severity = lsp.DiagnosticSeverity.Information
elif hdr.id <= errorout.Msgid.Msgid_Warning:
severity = lsp.DiagnosticSeverity.Warning
else:
severity = lsp.DiagnosticSeverity.Error
diag = {
"source": "ghdl",
"range": err_range,
"message": msg,
"severity": severity,
}
if hdr.group == errorout_memory.Msg_Main:
diag["relatedInformation"] = []
fdiag = diags.get(hdr.file, None)
if fdiag is None:
diags[hdr.file] = [diag]
else:
fdiag.append(diag)
else:
assert diag
if True:
doc = self.sfe_to_document(hdr.file)
diag["relatedInformation"].append(
{
"location": {"uri": doc.uri, "range": err_range},
"message": msg,
}
)
errorout_memory.Clear_Errors()
# Publish diagnostics
for sfe, diag in diags.items():
doc = self.sfe_to_document(sfe)
self.publish_diagnostics(doc.uri, diag)
if doc is not None and doc._fe not in diags:
# Clear previous diagnostics for the doc.
self.publish_diagnostics(doc.uri, [])
def obsolete_dependent_units(self, unit, antideps):
"""Obsolete units that depends of :param unit:"""
udeps = antideps.get(unit, None)
if udeps is None:
# There are no units.
return
# Avoid infinite recursion
antideps[unit] = None
for un in udeps:
log.debug(
"obsolete %d %s", un, pyutils.name_image(nodes.Get_Identifier(un))
)
# Recurse
self.obsolete_dependent_units(un, antideps)
if nodes.Set_Date_State(un) == nodes.Date_State.Disk:
# Already obsolete!
continue
# FIXME: just de-analyze ?
nodes.Set_Date_State(un, nodes.Date_State.Disk)
sem_lib.Free_Dependence_List(un)
loc = nodes.Get_Location(un)
fil = files_map.Location_To_File(loc)
pos = files_map.Location_File_To_Pos(loc, fil)
line = files_map.Location_File_To_Line(loc, fil)
col = files_map.Location_File_Line_To_Offset(loc, fil, line)
nodes.Set_Design_Unit_Source_Pos(un, pos)
nodes.Set_Design_Unit_Source_Line(un, line)
nodes.Set_Design_Unit_Source_Col(un, col)
def obsolete_doc(self, doc):
if doc._tree == nodes.Null_Iir:
return
# Free old tree
assert nodes.Get_Kind(doc._tree) == nodes.Iir_Kind.Design_File
if self._last_linted_doc == doc:
antideps = None
else:
antideps = self.compute_anti_dependences()
unit = nodes.Get_First_Design_Unit(doc._tree)
while unit != nodes.Null_Iir:
if antideps is not None:
self.obsolete_dependent_units(unit, antideps)
# FIXME: free unit; it is not referenced.
unit = nodes.Get_Chain(unit)
libraries.Purge_Design_File(doc._tree)
doc._tree = nodes.Null_Iir
def lint(self, doc_uri):
doc = self.get_document(doc_uri)
self.obsolete_doc(doc)
doc.compute_diags()
self.gather_diagnostics(doc)
def apply_changes(self, doc_uri, contentChanges, new_version):
doc = self.get_document(doc_uri)
assert doc is not None, "try to modify a non-loaded document"
self.obsolete_doc(doc)
prev_sfe = doc._fe
for change in contentChanges:
doc.apply_change(change)
if doc._fe != prev_sfe:
del self._fe_map[prev_sfe]
self._fe_map[doc._fe] = doc
# Like lint
doc.compute_diags()
self.gather_diagnostics(doc)
def check_document(self, doc_uri, source):
self._docs[doc_uri].check_document(source)
def rm_document(self, doc_uri):
pass
def apply_edit(self, edit):
return self._server.request("workspace/applyEdit", {"edit": edit})
def publish_diagnostics(self, doc_uri, diagnostics):
self._server.notify(
"textDocument/publishDiagnostics",
params={"uri": doc_uri, "diagnostics": diagnostics},
)
def show_message(self, message, msg_type=lsp.MessageType.Info):
self._server.notify(
"window/showMessage", params={"type": msg_type, "message": message}
)
def declaration_to_location(self, decl):
"Convert declaration :param decl: to an LSP Location"
decl_loc = nodes.Get_Location(decl)
if decl_loc == std_package.Std_Location.value:
# There is no real file for the std.standard package.
return None
if decl_loc == libraries.Library_Location.value:
# Libraries declaration are virtual.
return None
fe = files_map.Location_To_File(decl_loc)
doc = self.sfe_to_document(fe)
res = {"uri": doc.uri}
nid = nodes.Get_Identifier(decl)
res["range"] = {
"start": symbols.location_to_position(fe, decl_loc),
"end": symbols.location_to_position(
fe, decl_loc + name_table.Get_Name_Length(nid)
),
}
return res
def goto_definition(self, doc_uri, position):
decl = self._docs[doc_uri].goto_definition(position)
if decl is None:
return None
decl_loc = self.declaration_to_location(decl)
if decl_loc is None:
return None
res = [decl_loc]
if nodes.Get_Kind(decl) == nodes.Iir_Kind.Component_Declaration:
ent = libraries.Find_Entity_For_Component(nodes.Get_Identifier(decl))
if ent != nodes.Null_Iir:
res.append(self.declaration_to_location(nodes.Get_Library_Unit(ent)))
return res
def x_show_all_files(self):
res = []
for fe in range(1, files_map.Get_Last_Source_File_Entry() + 1):
doc = self._fe_map.get(fe, None)
res.append(
{
"fe": fe,
"uri": doc.uri if doc is not None else None,
"name": pyutils.name_image(files_map.Get_File_Name(fe)),
"dir": pyutils.name_image(files_map.Get_Directory_Name(fe)),
}
)
return res
def x_get_all_entities(self):
res = []
lib = libraries.Get_Libraries_Chain()
while lib != nodes.Null_Iir:
files = nodes.Get_Design_File_Chain(lib)
ents = []
while files != nodes.Null_Iir:
units = nodes.Get_First_Design_Unit(files)
while units != nodes.Null_Iir:
unitlib = nodes.Get_Library_Unit(units)
if nodes.Get_Kind(unitlib) == nodes.Iir_Kind.Entity_Declaration:
ents.append(unitlib)
units = nodes.Get_Chain(units)
files = nodes.Get_Chain(files)
ents = [pyutils.name_image(nodes.Get_Identifier(e)) for e in ents]
lib_name = pyutils.name_image(nodes.Get_Identifier(lib))
res.extend([{"name": n, "library": lib_name} for n in ents])
lib = nodes.Get_Chain(lib)
return res
def x_get_entity_interface(self, library, name):
def create_interfaces(inters):
res = []
while inters != nodes.Null_Iir:
res.append(
{
"name": name_table.Get_Name_Ptr(
nodes.Get_Identifier(inters)
).decode("latin-1")
}
)
inters = nodes.Get_Chain(inters)
return res
# Find library
lib_id = name_table.Get_Identifier(library.encode("utf-8"))
lib = libraries.Get_Library_No_Create(lib_id)
if lib == name_table.Null_Identifier:
return None
# Find entity
ent_id = name_table.Get_Identifier(name.encode("utf-8"))
unit = libraries.Find_Primary_Unit(lib, ent_id)
if unit == nodes.Null_Iir:
return None
ent = nodes.Get_Library_Unit(unit)
return {
"library": library,
"entity": name,
"generics": create_interfaces(nodes.Get_Generic_Chain(ent)),
"ports": create_interfaces(nodes.Get_Port_Chain(ent)),
}
def compute_anti_dependences(self):
"""Return a dictionnary of anti dependencies for design unit"""
res = {}
lib = libraries.Get_Libraries_Chain()
while lib != nodes.Null_Iir:
files = nodes.Get_Design_File_Chain(lib)
while files != nodes.Null_Iir:
units = nodes.Get_First_Design_Unit(files)
while units != nodes.Null_Iir:
if nodes.Get_Date_State(units) == nodes.Date_State.Analyze:
# The unit has been analyzed, so the dependencies are know.
deps = nodes.Get_Dependence_List(units)
assert deps != nodes.Null_Iir_List
deps_it = lists.Iterate(deps)
while lists.Is_Valid(byref(deps_it)):
el = lists.Get_Element(byref(deps_it))
if nodes.Get_Kind(el) == nodes.Iir_Kind.Design_Unit:
if res.get(el, None):
res[el].append(units)
else:
res[el] = [units]
else:
assert False
lists.Next(byref(deps_it))
units = nodes.Get_Chain(units)
files = nodes.Get_Chain(files)
lib = nodes.Get_Chain(lib)
return res
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