// Copyright 2015 Google Inc. All rights reserved
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// +build ignore
#include "parser.h"
#include <stack>
#include <unordered_map>
#include "expr.h"
#include "file.h"
#include "loc.h"
#include "log.h"
#include "stats.h"
#include "stmt.h"
#include "string_piece.h"
#include "strutil.h"
enum struct ParserState {
NOT_AFTER_RULE = 0,
AFTER_RULE,
MAYBE_AFTER_RULE,
};
class Parser {
struct IfState {
IfStmt* stmt;
bool is_in_else;
int num_nest;
};
typedef void (Parser::*DirectiveHandler)(
StringPiece line, StringPiece directive);
typedef unordered_map<StringPiece, DirectiveHandler> DirectiveMap;
public:
Parser(StringPiece buf, const char* filename, vector<Stmt*>* stmts)
: buf_(buf),
state_(ParserState::NOT_AFTER_RULE),
stmts_(stmts),
out_stmts_(stmts),
num_if_nest_(0),
loc_(filename, 0),
fixed_lineno_(false) {
}
Parser(StringPiece buf, const Loc& loc, vector<Stmt*>* stmts)
: buf_(buf),
state_(ParserState::NOT_AFTER_RULE),
stmts_(stmts),
out_stmts_(stmts),
num_if_nest_(0),
loc_(loc),
fixed_lineno_(true) {
}
~Parser() {
}
void Parse() {
l_ = 0;
for (l_ = 0; l_ < buf_.size();) {
size_t lf_cnt = 0;
size_t e = FindEndOfLine(&lf_cnt);
if (!fixed_lineno_)
loc_.lineno++;
StringPiece line(buf_.data() + l_, e - l_);
orig_line_with_directives_ = line;
ParseLine(line);
if (!fixed_lineno_)
loc_.lineno += lf_cnt - 1;
if (e == buf_.size())
break;
l_ = e + 1;
}
}
static void Init() {
make_directives_ = new DirectiveMap;
(*make_directives_)["include"] = &Parser::ParseInclude;
(*make_directives_)["-include"] = &Parser::ParseInclude;
(*make_directives_)["sinclude"] = &Parser::ParseInclude;
(*make_directives_)["define"] = &Parser::ParseDefine;
(*make_directives_)["ifdef"] = &Parser::ParseIfdef;
(*make_directives_)["ifndef"] = &Parser::ParseIfdef;
(*make_directives_)["ifeq"] = &Parser::ParseIfeq;
(*make_directives_)["ifneq"] = &Parser::ParseIfeq;
(*make_directives_)["else"] = &Parser::ParseElse;
(*make_directives_)["endif"] = &Parser::ParseEndif;
(*make_directives_)["override"] = &Parser::ParseOverride;
(*make_directives_)["export"] = &Parser::ParseExport;
(*make_directives_)["unexport"] = &Parser::ParseUnexport;
else_if_directives_ = new DirectiveMap;
(*else_if_directives_)["ifdef"] = &Parser::ParseIfdef;
(*else_if_directives_)["ifndef"] = &Parser::ParseIfdef;
(*else_if_directives_)["ifeq"] = &Parser::ParseIfeq;
(*else_if_directives_)["ifneq"] = &Parser::ParseIfeq;
assign_directives_ = new DirectiveMap;
(*assign_directives_)["define"] = &Parser::ParseDefine;
(*assign_directives_)["export"] = &Parser::ParseExport;
(*assign_directives_)["override"] = &Parser::ParseOverride;
shortest_directive_len_ = 9999;
longest_directive_len_ = 0;
for (auto p : *make_directives_) {
size_t len = p.first.size();
shortest_directive_len_ = min(len, shortest_directive_len_);
longest_directive_len_ = max(len, longest_directive_len_);
}
}
static void Quit() {
delete make_directives_;
}
void set_state(ParserState st) { state_ = st; }
static vector<ParseErrorStmt*> parse_errors;
private:
void Error(const string& msg) {
ParseErrorStmt* stmt = new ParseErrorStmt();
stmt->set_loc(loc_);
stmt->msg = msg;
out_stmts_->push_back(stmt);
parse_errors.push_back(stmt);
}
size_t FindEndOfLine(size_t* lf_cnt) {
return ::FindEndOfLine(buf_, l_, lf_cnt);
}
Value* ParseExpr(StringPiece s, ParseExprOpt opt = ParseExprOpt::NORMAL) {
return ::ParseExpr(loc_, s, opt);
}
void ParseLine(StringPiece line) {
if (!define_name_.empty()) {
ParseInsideDefine(line);
return;
}
if (line.empty() || (line.size() == 1 && line[0] == '\r'))
return;
current_directive_ = AssignDirective::NONE;
if (line[0] == '\t' && state_ != ParserState::NOT_AFTER_RULE) {
CommandStmt* stmt = new CommandStmt();
stmt->set_loc(loc_);
stmt->expr = ParseExpr(line.substr(1), ParseExprOpt::COMMAND);
stmt->orig = line;
out_stmts_->push_back(stmt);
return;
}
line = TrimLeftSpace(line);
if (line[0] == '#')
return;
if (HandleDirective(line, make_directives_)) {
return;
}
ParseRuleOrAssign(line);
}
void ParseRuleOrAssign(StringPiece line) {
size_t sep = FindThreeOutsideParen(line, ':', '=', ';');
if (sep == string::npos || line[sep] == ';') {
ParseRule(line, string::npos);
} else if (line[sep] == '=') {
ParseAssign(line, sep);
} else if (line.get(sep+1) == '=') {
ParseAssign(line, sep+1);
} else if (line[sep] == ':') {
ParseRule(line, sep);
} else {
CHECK(false);
}
}
void ParseRule(StringPiece line, size_t sep) {
if (current_directive_ != AssignDirective::NONE) {
if (IsInExport())
return;
if (sep != string::npos) {
sep += orig_line_with_directives_.size() - line.size();
}
line = orig_line_with_directives_;
}
line = TrimLeftSpace(line);
if (line.empty())
return;
if (orig_line_with_directives_[0] == '\t') {
Error("*** commands commence before first target.");
return;
}
const bool is_rule = sep != string::npos && line[sep] == ':';
RuleStmt* stmt = new RuleStmt();
stmt->set_loc(loc_);
size_t found = FindTwoOutsideParen(line.substr(sep + 1), '=', ';');
if (found != string::npos) {
found += sep + 1;
stmt->term = line[found];
ParseExprOpt opt =
stmt->term == ';' ? ParseExprOpt::COMMAND : ParseExprOpt::NORMAL;
stmt->after_term = ParseExpr(TrimLeftSpace(line.substr(found + 1)), opt);
stmt->expr = ParseExpr(TrimSpace(line.substr(0, found)));
} else {
stmt->term = 0;
stmt->after_term = NULL;
stmt->expr = ParseExpr(line);
}
out_stmts_->push_back(stmt);
state_ = is_rule ? ParserState::AFTER_RULE : ParserState::MAYBE_AFTER_RULE;
}
void ParseAssign(StringPiece line, size_t sep) {
if (sep == 0) {
Error("*** empty variable name ***");
return;
}
StringPiece lhs;
StringPiece rhs;
AssignOp op;
ParseAssignStatement(line, sep, &lhs, &rhs, &op);
AssignStmt* stmt = new AssignStmt();
stmt->set_loc(loc_);
stmt->lhs = ParseExpr(lhs);
stmt->rhs = ParseExpr(rhs);
stmt->orig_rhs = rhs;
stmt->op = op;
stmt->directive = current_directive_;
out_stmts_->push_back(stmt);
state_ = ParserState::NOT_AFTER_RULE;
}
void ParseInclude(StringPiece line, StringPiece directive) {
IncludeStmt* stmt = new IncludeStmt();
stmt->set_loc(loc_);
stmt->expr = ParseExpr(line);
stmt->should_exist = directive[0] == 'i';
out_stmts_->push_back(stmt);
state_ = ParserState::NOT_AFTER_RULE;
}
void ParseDefine(StringPiece line, StringPiece) {
if (line.empty()) {
Error("*** empty variable name.");
return;
}
define_name_ = line;
define_start_ = 0;
define_start_line_ = loc_.lineno;
state_ = ParserState::NOT_AFTER_RULE;
}
void ParseInsideDefine(StringPiece line) {
line = TrimLeftSpace(line);
if (GetDirective(line) != "endef") {
if (define_start_ == 0)
define_start_ = l_;
return;
}
StringPiece rest = TrimRightSpace(RemoveComment(TrimLeftSpace(
line.substr(sizeof("endef")))));
if (!rest.empty()) {
WARN("%s:%d: extraneous text after `endef' directive", LOCF(loc_));
}
AssignStmt* stmt = new AssignStmt();
stmt->set_loc(Loc(loc_.filename, define_start_line_));
stmt->lhs = ParseExpr(define_name_);
StringPiece rhs;
if (define_start_)
rhs = buf_.substr(define_start_, l_ - define_start_ - 1);
stmt->rhs = ParseExpr(rhs, ParseExprOpt::DEFINE);
stmt->orig_rhs = rhs;
stmt->op = AssignOp::EQ;
stmt->directive = current_directive_;
out_stmts_->push_back(stmt);
define_name_.clear();
}
void EnterIf(IfStmt* stmt) {
IfState* st = new IfState();
st->stmt = stmt;
st->is_in_else = false;
st->num_nest = num_if_nest_;
if_stack_.push(st);
out_stmts_ = &stmt->true_stmts;
}
void ParseIfdef(StringPiece line, StringPiece directive) {
IfStmt* stmt = new IfStmt();
stmt->set_loc(loc_);
stmt->op = directive[2] == 'n' ? CondOp::IFNDEF : CondOp::IFDEF;
stmt->lhs = ParseExpr(line);
stmt->rhs = NULL;
out_stmts_->push_back(stmt);
EnterIf(stmt);
}
bool ParseIfEqCond(StringPiece s, IfStmt* stmt) {
if (s.empty()) {
return false;
}
if (s[0] == '(' && s[s.size() - 1] == ')') {
s = s.substr(1, s.size() - 2);
char terms[] = {',', '\0'};
size_t n;
stmt->lhs = ParseExprImpl(loc_, s, terms, ParseExprOpt::NORMAL, &n, true);
if (s[n] != ',')
return false;
s = TrimLeftSpace(s.substr(n+1));
stmt->rhs = ParseExprImpl(loc_, s, NULL, ParseExprOpt::NORMAL, &n);
s = TrimLeftSpace(s.substr(n));
} else {
for (int i = 0; i < 2; i++) {
if (s.empty())
return false;
char quote = s[0];
if (quote != '\'' && quote != '"')
return false;
size_t end = s.find(quote, 1);
if (end == string::npos)
return false;
Value* v = ParseExpr(s.substr(1, end - 1), ParseExprOpt::NORMAL);
if (i == 0)
stmt->lhs = v;
else
stmt->rhs = v;
s = TrimLeftSpace(s.substr(end+1));
}
}
if (!s.empty()) {
WARN("%s:%d: extraneous text after `ifeq' directive", LOCF(loc_));
return true;
}
return true;
}
void ParseIfeq(StringPiece line, StringPiece directive) {
IfStmt* stmt = new IfStmt();
stmt->set_loc(loc_);
stmt->op = directive[2] == 'n' ? CondOp::IFNEQ : CondOp::IFEQ;
if (!ParseIfEqCond(line, stmt)) {
Error("*** invalid syntax in conditional.");
return;
}
out_stmts_->push_back(stmt);
EnterIf(stmt);
}
void ParseElse(StringPiece line, StringPiece) {
if (!CheckIfStack("else"))
return;
IfState* st = if_stack_.top();
if (st->is_in_else) {
Error("*** only one `else' per conditional.");
return;
}
st->is_in_else = true;
out_stmts_ = &st->stmt->false_stmts;
StringPiece next_if = TrimLeftSpace(line);
if (next_if.empty())
return;
num_if_nest_ = st->num_nest + 1;
if (!HandleDirective(next_if, else_if_directives_)) {
WARN("%s:%d: extraneous text after `else' directive", LOCF(loc_));
}
num_if_nest_ = 0;
}
void ParseEndif(StringPiece line, StringPiece) {
if (!CheckIfStack("endif"))
return;
if (!line.empty()) {
Error("extraneous text after `endif` directive");
return;
}
IfState st = *if_stack_.top();
for (int t = 0; t <= st.num_nest; t++) {
delete if_stack_.top();
if_stack_.pop();
if (if_stack_.empty()) {
out_stmts_ = stmts_;
} else {
IfState* st = if_stack_.top();
if (st->is_in_else)
out_stmts_ = &st->stmt->false_stmts;
else
out_stmts_ = &st->stmt->true_stmts;
}
}
}
bool IsInExport() const {
return (static_cast<int>(current_directive_) &
static_cast<int>(AssignDirective::EXPORT));
}
void CreateExport(StringPiece line, bool is_export) {
ExportStmt* stmt = new ExportStmt;
stmt->set_loc(loc_);
stmt->expr = ParseExpr(line);
stmt->is_export = is_export;
out_stmts_->push_back(stmt);
}
void ParseOverride(StringPiece line, StringPiece) {
current_directive_ =
static_cast<AssignDirective>(
(static_cast<int>(current_directive_) |
static_cast<int>(AssignDirective::OVERRIDE)));
if (HandleDirective(line, assign_directives_))
return;
if (IsInExport()) {
CreateExport(line, true);
}
ParseRuleOrAssign(line);
}
void ParseExport(StringPiece line, StringPiece) {
current_directive_ =
static_cast<AssignDirective>(
(static_cast<int>(current_directive_) |
static_cast<int>(AssignDirective::EXPORT)));
if (HandleDirective(line, assign_directives_))
return;
CreateExport(line, true);
ParseRuleOrAssign(line);
}
void ParseUnexport(StringPiece line, StringPiece) {
CreateExport(line, false);
}
bool CheckIfStack(const char* keyword) {
if (if_stack_.empty()) {
Error(StringPrintf("*** extraneous `%s'.", keyword));
return false;
}
return true;
}
StringPiece RemoveComment(StringPiece line) {
size_t i = FindOutsideParen(line, '#');
if (i == string::npos)
return line;
return line.substr(0, i);
}
StringPiece GetDirective(StringPiece line) {
if (line.size() < shortest_directive_len_)
return StringPiece();
StringPiece prefix = line.substr(0, longest_directive_len_ + 1);
size_t space_index = prefix.find_first_of(" \t#");
return prefix.substr(0, space_index);
}
bool HandleDirective(StringPiece line, const DirectiveMap* directive_map) {
StringPiece directive = GetDirective(line);
auto found = directive_map->find(directive);
if (found == directive_map->end())
return false;
StringPiece rest = TrimRightSpace(RemoveComment(TrimLeftSpace(
line.substr(directive.size()))));
(this->*found->second)(rest, directive);
return true;
}
StringPiece buf_;
size_t l_;
ParserState state_;
vector<Stmt*>* stmts_;
vector<Stmt*>* out_stmts_;
StringPiece define_name_;
size_t define_start_;
int define_start_line_;
StringPiece orig_line_with_directives_;
AssignDirective current_directive_;
int num_if_nest_;
stack<IfState*> if_stack_;
Loc loc_;
bool fixed_lineno_;
static DirectiveMap* make_directives_;
static DirectiveMap* else_if_directives_;
static DirectiveMap* assign_directives_;
static size_t shortest_directive_len_;
static size_t longest_directive_len_;
};
void Parse(Makefile* mk) {
COLLECT_STATS("parse file time");
Parser parser(StringPiece(mk->buf()),
mk->filename().c_str(),
mk->mutable_stmts());
parser.Parse();
}
void Parse(StringPiece buf, const Loc& loc, vector<Stmt*>* out_stmts) {
COLLECT_STATS("parse eval time");
Parser parser(buf, loc, out_stmts);
parser.Parse();
}
void ParseNotAfterRule(StringPiece buf, const Loc& loc,
vector<Stmt*>* out_stmts) {
Parser parser(buf, loc, out_stmts);
parser.set_state(ParserState::NOT_AFTER_RULE);
parser.Parse();
}
void InitParser() {
Parser::Init();
}
void QuitParser() {
Parser::Quit();
}
Parser::DirectiveMap* Parser::make_directives_;
Parser::DirectiveMap* Parser::else_if_directives_;
Parser::DirectiveMap* Parser::assign_directives_;
size_t Parser::shortest_directive_len_;
size_t Parser::longest_directive_len_;
vector<ParseErrorStmt*> Parser::parse_errors;
void ParseAssignStatement(StringPiece line, size_t sep,
StringPiece* lhs, StringPiece* rhs, AssignOp* op) {
CHECK(sep != 0);
*op = AssignOp::EQ;
size_t lhs_end = sep;
switch (line[sep-1]) {
case ':':
lhs_end--;
*op = AssignOp::COLON_EQ;
break;
case '+':
lhs_end--;
*op = AssignOp::PLUS_EQ;
break;
case '?':
lhs_end--;
*op = AssignOp::QUESTION_EQ;
break;
}
*lhs = TrimSpace(line.substr(0, lhs_end));
*rhs = TrimLeftSpace(line.substr(sep + 1));
}
const vector<ParseErrorStmt*>& GetParseErrors() {
return Parser::parse_errors;
}