// Copyright 2011 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. #include "manifest_parser.h" #include #include #include "graph.h" #include "state.h" #include "test.h" using namespace std; struct ParserTest : public testing::Test { void AssertParse(const char* input) { ManifestParser parser(&state, &fs_); string err; EXPECT_TRUE(parser.ParseTest(input, &err)); ASSERT_EQ("", err); VerifyGraph(state); } State state; VirtualFileSystem fs_; }; TEST_F(ParserTest, Empty) { ASSERT_NO_FATAL_FAILURE(AssertParse("")); } TEST_F(ParserTest, Rules) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n" " command = cat $in > $out\n" "\n" "rule date\n" " command = date > $out\n" "\n" "build result: cat in_1.cc in-2.O\n")); ASSERT_EQ(3u, state.bindings_.GetRules().size()); const Rule* rule = state.bindings_.GetRules().begin()->second; EXPECT_EQ("cat", rule->name()); EXPECT_EQ("[cat ][$in][ > ][$out]", rule->GetBinding("command")->Serialize()); } TEST_F(ParserTest, RuleAttributes) { // Check that all of the allowed rule attributes are parsed ok. ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n" " command = a\n" " depfile = a\n" " deps = a\n" " description = a\n" " generator = a\n" " restat = a\n" " rspfile = a\n" " rspfile_content = a\n" )); } TEST_F(ParserTest, IgnoreIndentedComments) { ASSERT_NO_FATAL_FAILURE(AssertParse( " #indented comment\n" "rule cat\n" " command = cat $in > $out\n" " #generator = 1\n" " restat = 1 # comment\n" " #comment\n" "build result: cat in_1.cc in-2.O\n" " #comment\n")); ASSERT_EQ(2u, state.bindings_.GetRules().size()); const Rule* rule = state.bindings_.GetRules().begin()->second; EXPECT_EQ("cat", rule->name()); Edge* edge = state.GetNode("result", 0)->in_edge(); EXPECT_TRUE(edge->GetBindingBool("restat")); EXPECT_FALSE(edge->GetBindingBool("generator")); } TEST_F(ParserTest, IgnoreIndentedBlankLines) { // the indented blanks used to cause parse errors ASSERT_NO_FATAL_FAILURE(AssertParse( " \n" "rule cat\n" " command = cat $in > $out\n" " \n" "build result: cat in_1.cc in-2.O\n" " \n" "variable=1\n")); // the variable must be in the top level environment EXPECT_EQ("1", state.bindings_.LookupVariable("variable")); } TEST_F(ParserTest, ResponseFiles) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat_rsp\n" " command = cat $rspfile > $out\n" " rspfile = $rspfile\n" " rspfile_content = $in\n" "\n" "build out: cat_rsp in\n" " rspfile=out.rsp\n")); ASSERT_EQ(2u, state.bindings_.GetRules().size()); const Rule* rule = state.bindings_.GetRules().begin()->second; EXPECT_EQ("cat_rsp", rule->name()); EXPECT_EQ("[cat ][$rspfile][ > ][$out]", rule->GetBinding("command")->Serialize()); EXPECT_EQ("[$rspfile]", rule->GetBinding("rspfile")->Serialize()); EXPECT_EQ("[$in]", rule->GetBinding("rspfile_content")->Serialize()); } TEST_F(ParserTest, InNewline) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat_rsp\n" " command = cat $in_newline > $out\n" "\n" "build out: cat_rsp in in2\n" " rspfile=out.rsp\n")); ASSERT_EQ(2u, state.bindings_.GetRules().size()); const Rule* rule = state.bindings_.GetRules().begin()->second; EXPECT_EQ("cat_rsp", rule->name()); EXPECT_EQ("[cat ][$in_newline][ > ][$out]", rule->GetBinding("command")->Serialize()); Edge* edge = state.edges_[0]; EXPECT_EQ("cat in\nin2 > out", edge->EvaluateCommand()); } TEST_F(ParserTest, Variables) { ASSERT_NO_FATAL_FAILURE(AssertParse( "l = one-letter-test\n" "rule link\n" " command = ld $l $extra $with_under -o $out $in\n" "\n" "extra = -pthread\n" "with_under = -under\n" "build a: link b c\n" "nested1 = 1\n" "nested2 = $nested1/2\n" "build supernested: link x\n" " extra = $nested2/3\n")); ASSERT_EQ(2u, state.edges_.size()); Edge* edge = state.edges_[0]; EXPECT_EQ("ld one-letter-test -pthread -under -o a b c", edge->EvaluateCommand()); EXPECT_EQ("1/2", state.bindings_.LookupVariable("nested2")); edge = state.edges_[1]; EXPECT_EQ("ld one-letter-test 1/2/3 -under -o supernested x", edge->EvaluateCommand()); } TEST_F(ParserTest, VariableScope) { ASSERT_NO_FATAL_FAILURE(AssertParse( "foo = bar\n" "rule cmd\n" " command = cmd $foo $in $out\n" "\n" "build inner: cmd a\n" " foo = baz\n" "build outer: cmd b\n" "\n" // Extra newline after build line tickles a regression. )); ASSERT_EQ(2u, state.edges_.size()); EXPECT_EQ("cmd baz a inner", state.edges_[0]->EvaluateCommand()); EXPECT_EQ("cmd bar b outer", state.edges_[1]->EvaluateCommand()); } TEST_F(ParserTest, Continuation) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule link\n" " command = foo bar $\n" " baz\n" "\n" "build a: link c $\n" " d e f\n")); ASSERT_EQ(2u, state.bindings_.GetRules().size()); const Rule* rule = state.bindings_.GetRules().begin()->second; EXPECT_EQ("link", rule->name()); EXPECT_EQ("[foo bar baz]", rule->GetBinding("command")->Serialize()); } TEST_F(ParserTest, Backslash) { ASSERT_NO_FATAL_FAILURE(AssertParse( "foo = bar\\baz\n" "foo2 = bar\\ baz\n" )); EXPECT_EQ("bar\\baz", state.bindings_.LookupVariable("foo")); EXPECT_EQ("bar\\ baz", state.bindings_.LookupVariable("foo2")); } TEST_F(ParserTest, Comment) { ASSERT_NO_FATAL_FAILURE(AssertParse( "# this is a comment\n" "foo = not # a comment\n")); EXPECT_EQ("not # a comment", state.bindings_.LookupVariable("foo")); } TEST_F(ParserTest, Dollars) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule foo\n" " command = ${out}bar$$baz$$$\n" "blah\n" "x = $$dollar\n" "build $x: foo y\n" )); EXPECT_EQ("$dollar", state.bindings_.LookupVariable("x")); #ifdef _WIN32 EXPECT_EQ("$dollarbar$baz$blah", state.edges_[0]->EvaluateCommand()); #else EXPECT_EQ("'$dollar'bar$baz$blah", state.edges_[0]->EvaluateCommand()); #endif } TEST_F(ParserTest, EscapeSpaces) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule spaces\n" " command = something\n" "build foo$ bar: spaces $$one two$$$ three\n" )); EXPECT_TRUE(state.LookupNode("foo bar")); EXPECT_EQ(state.edges_[0]->outputs_[0]->path(), "foo bar"); EXPECT_EQ(state.edges_[0]->inputs_[0]->path(), "$one"); EXPECT_EQ(state.edges_[0]->inputs_[1]->path(), "two$ three"); EXPECT_EQ(state.edges_[0]->EvaluateCommand(), "something"); } TEST_F(ParserTest, CanonicalizeFile) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n" " command = cat $in > $out\n" "build out: cat in/1 in//2\n" "build in/1: cat\n" "build in/2: cat\n")); EXPECT_TRUE(state.LookupNode("in/1")); EXPECT_TRUE(state.LookupNode("in/2")); EXPECT_FALSE(state.LookupNode("in//1")); EXPECT_FALSE(state.LookupNode("in//2")); } #ifdef _WIN32 TEST_F(ParserTest, CanonicalizeFileBackslashes) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n" " command = cat $in > $out\n" "build out: cat in\\1 in\\\\2\n" "build in\\1: cat\n" "build in\\2: cat\n")); Node* node = state.LookupNode("in/1");; EXPECT_TRUE(node); EXPECT_EQ(1, node->slash_bits()); node = state.LookupNode("in/2"); EXPECT_TRUE(node); EXPECT_EQ(1, node->slash_bits()); EXPECT_FALSE(state.LookupNode("in//1")); EXPECT_FALSE(state.LookupNode("in//2")); } #endif TEST_F(ParserTest, PathVariables) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n" " command = cat $in > $out\n" "dir = out\n" "build $dir/exe: cat src\n")); EXPECT_FALSE(state.LookupNode("$dir/exe")); EXPECT_TRUE(state.LookupNode("out/exe")); } TEST_F(ParserTest, CanonicalizePaths) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n" " command = cat $in > $out\n" "build ./out.o: cat ./bar/baz/../foo.cc\n")); EXPECT_FALSE(state.LookupNode("./out.o")); EXPECT_TRUE(state.LookupNode("out.o")); EXPECT_FALSE(state.LookupNode("./bar/baz/../foo.cc")); EXPECT_TRUE(state.LookupNode("bar/foo.cc")); } #ifdef _WIN32 TEST_F(ParserTest, CanonicalizePathsBackslashes) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n" " command = cat $in > $out\n" "build ./out.o: cat ./bar/baz/../foo.cc\n" "build .\\out2.o: cat .\\bar/baz\\..\\foo.cc\n" "build .\\out3.o: cat .\\bar\\baz\\..\\foo3.cc\n" )); EXPECT_FALSE(state.LookupNode("./out.o")); EXPECT_FALSE(state.LookupNode(".\\out2.o")); EXPECT_FALSE(state.LookupNode(".\\out3.o")); EXPECT_TRUE(state.LookupNode("out.o")); EXPECT_TRUE(state.LookupNode("out2.o")); EXPECT_TRUE(state.LookupNode("out3.o")); EXPECT_FALSE(state.LookupNode("./bar/baz/../foo.cc")); EXPECT_FALSE(state.LookupNode(".\\bar/baz\\..\\foo.cc")); EXPECT_FALSE(state.LookupNode(".\\bar/baz\\..\\foo3.cc")); Node* node = state.LookupNode("bar/foo.cc"); EXPECT_TRUE(node); EXPECT_EQ(0, node->slash_bits()); node = state.LookupNode("bar/foo3.cc"); EXPECT_TRUE(node); EXPECT_EQ(1, node->slash_bits()); } #endif TEST_F(ParserTest, DuplicateEdgeWithMultipleOutputsError) { const char kInput[] = "rule cat\n" " command = cat $in > $out\n" "build out1 out2: cat in1\n" "build out1: cat in2\n" "build final: cat out1\n"; ManifestParser parser(&state, &fs_); string err; EXPECT_FALSE(parser.ParseTest(kInput, &err)); EXPECT_EQ("input:5: multiple rules generate out1\n", err); } TEST_F(ParserTest, DuplicateEdgeInIncludedFile) { fs_.Create("sub.ninja", "rule cat\n" " command = cat $in > $out\n" "build out1 out2: cat in1\n" "build out1: cat in2\n" "build final: cat out1\n"); const char kInput[] = "subninja sub.ninja\n"; ManifestParser parser(&state, &fs_); string err; EXPECT_FALSE(parser.ParseTest(kInput, &err)); EXPECT_EQ("sub.ninja:5: multiple rules generate out1\n", err); } TEST_F(ParserTest, PhonySelfReferenceIgnored) { ASSERT_NO_FATAL_FAILURE(AssertParse( "build a: phony a\n" )); Node* node = state.LookupNode("a"); Edge* edge = node->in_edge(); ASSERT_TRUE(edge->inputs_.empty()); } TEST_F(ParserTest, PhonySelfReferenceKept) { const char kInput[] = "build a: phony a\n"; ManifestParserOptions parser_opts; parser_opts.phony_cycle_action_ = kPhonyCycleActionError; ManifestParser parser(&state, &fs_, parser_opts); string err; EXPECT_TRUE(parser.ParseTest(kInput, &err)); EXPECT_EQ("", err); Node* node = state.LookupNode("a"); Edge* edge = node->in_edge(); ASSERT_EQ(edge->inputs_.size(), 1); ASSERT_EQ(edge->inputs_[0], node); } TEST_F(ParserTest, ReservedWords) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule build\n" " command = rule run $out\n" "build subninja: build include default foo.cc\n" "default subninja\n")); } TEST_F(ParserTest, Errors) { { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest(string("subn", 4), &err)); EXPECT_EQ("input:1: expected '=', got eof\n" "subn\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("foobar", &err)); EXPECT_EQ("input:1: expected '=', got eof\n" "foobar\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("x 3", &err)); EXPECT_EQ("input:1: expected '=', got identifier\n" "x 3\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("x = 3", &err)); EXPECT_EQ("input:1: unexpected EOF\n" "x = 3\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("x = 3\ny 2", &err)); EXPECT_EQ("input:2: expected '=', got identifier\n" "y 2\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("x = $", &err)); EXPECT_EQ("input:1: bad $-escape (literal $ must be written as $$)\n" "x = $\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("x = $\n $[\n", &err)); EXPECT_EQ("input:2: bad $-escape (literal $ must be written as $$)\n" " $[\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("x = a$\n b$\n $\n", &err)); EXPECT_EQ("input:4: unexpected EOF\n" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("build\n", &err)); EXPECT_EQ("input:1: expected path\n" "build\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("build x: y z\n", &err)); EXPECT_EQ("input:1: unknown build rule 'y'\n" "build x: y z\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("build x:: y z\n", &err)); EXPECT_EQ("input:1: expected build command name\n" "build x:: y z\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("rule cat\n command = cat ok\n" "build x: cat $\n :\n", &err)); EXPECT_EQ("input:4: expected newline, got ':'\n" " :\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("rule cat\n", &err)); EXPECT_EQ("input:2: expected 'command =' line\n", err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("rule cat\n" " command = echo\n" "rule cat\n" " command = echo\n", &err)); EXPECT_EQ("input:3: duplicate rule 'cat'\n" "rule cat\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("rule cat\n" " command = echo\n" " rspfile = cat.rsp\n", &err)); EXPECT_EQ( "input:4: rspfile and rspfile_content need to be both specified\n", err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("rule cat\n" " command = ${fafsd\n" "foo = bar\n", &err)); EXPECT_EQ("input:2: bad $-escape (literal $ must be written as $$)\n" " command = ${fafsd\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("rule cat\n" " command = cat\n" "build $.: cat foo\n", &err)); EXPECT_EQ("input:3: bad $-escape (literal $ must be written as $$)\n" "build $.: cat foo\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("rule cat\n" " command = cat\n" "build $: cat foo\n", &err)); EXPECT_EQ("input:3: expected ':', got newline ($ also escapes ':')\n" "build $: cat foo\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("rule %foo\n", &err)); EXPECT_EQ("input:1: expected rule name\n" "rule %foo\n" " ^ near here", err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("rule cc\n" " command = foo\n" " othervar = bar\n", &err)); EXPECT_EQ("input:3: unexpected variable 'othervar'\n" " othervar = bar\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("rule cc\n command = foo\n" "build $.: cc bar.cc\n", &err)); EXPECT_EQ("input:3: bad $-escape (literal $ must be written as $$)\n" "build $.: cc bar.cc\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("rule cc\n command = foo\n && bar", &err)); EXPECT_EQ("input:3: expected variable name\n" " && bar\n" " ^ near here", err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("rule cc\n command = foo\n" "build $: cc bar.cc\n", &err)); EXPECT_EQ("input:3: expected ':', got newline ($ also escapes ':')\n" "build $: cc bar.cc\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("default\n", &err)); EXPECT_EQ("input:1: expected target name\n" "default\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("default nonexistent\n", &err)); EXPECT_EQ("input:1: unknown target 'nonexistent'\n" "default nonexistent\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("rule r\n command = r\n" "build b: r\n" "default b:\n", &err)); EXPECT_EQ("input:4: expected newline, got ':'\n" "default b:\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("default $a\n", &err)); EXPECT_EQ("input:1: empty path\n" "default $a\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("rule r\n" " command = r\n" "build $a: r $c\n", &err)); // XXX the line number is wrong; we should evaluate paths in ParseEdge // as we see them, not after we've read them all! EXPECT_EQ("input:4: empty path\n", err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; // the indented blank line must terminate the rule // this also verifies that "unexpected (token)" errors are correct EXPECT_FALSE(parser.ParseTest("rule r\n" " command = r\n" " \n" " generator = 1\n", &err)); EXPECT_EQ("input:4: unexpected indent\n", err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("pool\n", &err)); EXPECT_EQ("input:1: expected pool name\n" "pool\n" " ^ near here", err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("pool foo\n", &err)); EXPECT_EQ("input:2: expected 'depth =' line\n", err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("pool foo\n" " depth = 4\n" "pool foo\n", &err)); EXPECT_EQ("input:3: duplicate pool 'foo'\n" "pool foo\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("pool foo\n" " depth = -1\n", &err)); EXPECT_EQ("input:2: invalid pool depth\n" " depth = -1\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_FALSE(parser.ParseTest("pool foo\n" " bar = 1\n", &err)); EXPECT_EQ("input:2: unexpected variable 'bar'\n" " bar = 1\n" " ^ near here" , err); } { State local_state; ManifestParser parser(&local_state, NULL); string err; // Pool names are dereferenced at edge parsing time. EXPECT_FALSE(parser.ParseTest("rule run\n" " command = echo\n" " pool = unnamed_pool\n" "build out: run in\n", &err)); EXPECT_EQ("input:5: unknown pool name 'unnamed_pool'\n", err); } } TEST_F(ParserTest, MissingInput) { State local_state; ManifestParser parser(&local_state, &fs_); string err; EXPECT_FALSE(parser.Load("build.ninja", &err)); EXPECT_EQ("loading 'build.ninja': No such file or directory", err); } TEST_F(ParserTest, MultipleOutputs) { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_TRUE(parser.ParseTest("rule cc\n command = foo\n depfile = bar\n" "build a.o b.o: cc c.cc\n", &err)); EXPECT_EQ("", err); } TEST_F(ParserTest, MultipleOutputsWithDeps) { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_TRUE(parser.ParseTest("rule cc\n command = foo\n deps = gcc\n" "build a.o b.o: cc c.cc\n", &err)); EXPECT_EQ("", err); } TEST_F(ParserTest, SubNinja) { fs_.Create("test.ninja", "var = inner\n" "build $builddir/inner: varref\n"); ASSERT_NO_FATAL_FAILURE(AssertParse( "builddir = some_dir/\n" "rule varref\n" " command = varref $var\n" "var = outer\n" "build $builddir/outer: varref\n" "subninja test.ninja\n" "build $builddir/outer2: varref\n")); ASSERT_EQ(1u, fs_.files_read_.size()); EXPECT_EQ("test.ninja", fs_.files_read_[0]); EXPECT_TRUE(state.LookupNode("some_dir/outer")); // Verify our builddir setting is inherited. EXPECT_TRUE(state.LookupNode("some_dir/inner")); ASSERT_EQ(3u, state.edges_.size()); EXPECT_EQ("varref outer", state.edges_[0]->EvaluateCommand()); EXPECT_EQ("varref inner", state.edges_[1]->EvaluateCommand()); EXPECT_EQ("varref outer", state.edges_[2]->EvaluateCommand()); } TEST_F(ParserTest, MissingSubNinja) { ManifestParser parser(&state, &fs_); string err; EXPECT_FALSE(parser.ParseTest("subninja foo.ninja\n", &err)); EXPECT_EQ("input:1: loading 'foo.ninja': No such file or directory\n" "subninja foo.ninja\n" " ^ near here" , err); } TEST_F(ParserTest, DuplicateRuleInDifferentSubninjas) { // Test that rules are scoped to subninjas. fs_.Create("test.ninja", "rule cat\n" " command = cat\n"); ManifestParser parser(&state, &fs_); string err; EXPECT_TRUE(parser.ParseTest("rule cat\n" " command = cat\n" "subninja test.ninja\n", &err)); } TEST_F(ParserTest, DuplicateRuleInDifferentSubninjasWithInclude) { // Test that rules are scoped to subninjas even with includes. fs_.Create("rules.ninja", "rule cat\n" " command = cat\n"); fs_.Create("test.ninja", "include rules.ninja\n" "build x : cat\n"); ManifestParser parser(&state, &fs_); string err; EXPECT_TRUE(parser.ParseTest("include rules.ninja\n" "subninja test.ninja\n" "build y : cat\n", &err)); } TEST_F(ParserTest, Include) { fs_.Create("include.ninja", "var = inner\n"); ASSERT_NO_FATAL_FAILURE(AssertParse( "var = outer\n" "include include.ninja\n")); ASSERT_EQ(1u, fs_.files_read_.size()); EXPECT_EQ("include.ninja", fs_.files_read_[0]); EXPECT_EQ("inner", state.bindings_.LookupVariable("var")); } TEST_F(ParserTest, BrokenInclude) { fs_.Create("include.ninja", "build\n"); ManifestParser parser(&state, &fs_); string err; EXPECT_FALSE(parser.ParseTest("include include.ninja\n", &err)); EXPECT_EQ("include.ninja:1: expected path\n" "build\n" " ^ near here" , err); } TEST_F(ParserTest, Implicit) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n" " command = cat $in > $out\n" "build foo: cat bar | baz\n")); Edge* edge = state.LookupNode("foo")->in_edge(); ASSERT_TRUE(edge->is_implicit(1)); } TEST_F(ParserTest, OrderOnly) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n command = cat $in > $out\n" "build foo: cat bar || baz\n")); Edge* edge = state.LookupNode("foo")->in_edge(); ASSERT_TRUE(edge->is_order_only(1)); } TEST_F(ParserTest, Validations) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n command = cat $in > $out\n" "build foo: cat bar |@ baz\n")); Edge* edge = state.LookupNode("foo")->in_edge(); ASSERT_EQ(edge->validations_.size(), 1); EXPECT_EQ(edge->validations_[0]->path(), "baz"); } TEST_F(ParserTest, ImplicitOutput) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n" " command = cat $in > $out\n" "build foo | imp: cat bar\n")); Edge* edge = state.LookupNode("imp")->in_edge(); ASSERT_EQ(edge->outputs_.size(), 2); EXPECT_TRUE(edge->is_implicit_out(1)); } TEST_F(ParserTest, ImplicitOutputEmpty) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n" " command = cat $in > $out\n" "build foo | : cat bar\n")); Edge* edge = state.LookupNode("foo")->in_edge(); ASSERT_EQ(edge->outputs_.size(), 1); EXPECT_FALSE(edge->is_implicit_out(0)); } TEST_F(ParserTest, ImplicitOutputDupeError) { const char kInput[] = "rule cat\n" " command = cat $in > $out\n" "build foo baz | foo baq foo: cat bar\n"; ManifestParser parser(&state, &fs_); string err; EXPECT_FALSE(parser.ParseTest(kInput, &err)); EXPECT_EQ("input:4: foo is defined as an output multiple times\n", err); } TEST_F(ParserTest, ImplicitOutputDupesError) { const char kInput[] = "rule cat\n" " command = cat $in > $out\n" "build foo foo foo | foo foo foo foo: cat bar\n"; ManifestParser parser(&state, &fs_); string err; EXPECT_FALSE(parser.ParseTest(kInput, &err)); EXPECT_EQ("input:4: foo is defined as an output multiple times\n", err); } TEST_F(ParserTest, NoExplicitOutput) { ManifestParser parser(&state, NULL); string err; EXPECT_TRUE(parser.ParseTest( "rule cat\n" " command = cat $in > $out\n" "build | imp : cat bar\n", &err)); } TEST_F(ParserTest, DefaultDefault) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n command = cat $in > $out\n" "build a: cat foo\n" "build b: cat foo\n" "build c: cat foo\n" "build d: cat foo\n")); string err; EXPECT_EQ(4u, state.DefaultNodes(&err).size()); EXPECT_EQ("", err); } TEST_F(ParserTest, DefaultDefaultCycle) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n command = cat $in > $out\n" "build a: cat a\n")); string err; EXPECT_EQ(0u, state.DefaultNodes(&err).size()); EXPECT_EQ("could not determine root nodes of build graph", err); } TEST_F(ParserTest, DefaultStatements) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n command = cat $in > $out\n" "build a: cat foo\n" "build b: cat foo\n" "build c: cat foo\n" "build d: cat foo\n" "third = c\n" "default a b\n" "default $third\n")); string err; vector nodes = state.DefaultNodes(&err); EXPECT_EQ("", err); ASSERT_EQ(3u, nodes.size()); EXPECT_EQ("a", nodes[0]->path()); EXPECT_EQ("b", nodes[1]->path()); EXPECT_EQ("c", nodes[2]->path()); } TEST_F(ParserTest, UTF8) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule utf8\n" " command = true\n" " description = compilaci\xC3\xB3\n")); } TEST_F(ParserTest, CRLF) { State local_state; ManifestParser parser(&local_state, NULL); string err; EXPECT_TRUE(parser.ParseTest("# comment with crlf\r\n", &err)); EXPECT_TRUE(parser.ParseTest("foo = foo\nbar = bar\r\n", &err)); EXPECT_TRUE(parser.ParseTest( "pool link_pool\r\n" " depth = 15\r\n\r\n" "rule xyz\r\n" " command = something$expand \r\n" " description = YAY!\r\n", &err)); } TEST_F(ParserTest, DyndepNotSpecified) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n" " command = cat $in > $out\n" "build result: cat in\n")); Edge* edge = state.GetNode("result", 0)->in_edge(); ASSERT_FALSE(edge->dyndep_); } TEST_F(ParserTest, DyndepNotInput) { State lstate; ManifestParser parser(&lstate, NULL); string err; EXPECT_FALSE(parser.ParseTest( "rule touch\n" " command = touch $out\n" "build result: touch\n" " dyndep = notin\n", &err)); EXPECT_EQ("input:5: dyndep 'notin' is not an input\n", err); } TEST_F(ParserTest, DyndepExplicitInput) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n" " command = cat $in > $out\n" "build result: cat in\n" " dyndep = in\n")); Edge* edge = state.GetNode("result", 0)->in_edge(); ASSERT_TRUE(edge->dyndep_); EXPECT_TRUE(edge->dyndep_->dyndep_pending()); EXPECT_EQ(edge->dyndep_->path(), "in"); } TEST_F(ParserTest, DyndepImplicitInput) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n" " command = cat $in > $out\n" "build result: cat in | dd\n" " dyndep = dd\n")); Edge* edge = state.GetNode("result", 0)->in_edge(); ASSERT_TRUE(edge->dyndep_); EXPECT_TRUE(edge->dyndep_->dyndep_pending()); EXPECT_EQ(edge->dyndep_->path(), "dd"); } TEST_F(ParserTest, DyndepOrderOnlyInput) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n" " command = cat $in > $out\n" "build result: cat in || dd\n" " dyndep = dd\n")); Edge* edge = state.GetNode("result", 0)->in_edge(); ASSERT_TRUE(edge->dyndep_); EXPECT_TRUE(edge->dyndep_->dyndep_pending()); EXPECT_EQ(edge->dyndep_->path(), "dd"); } TEST_F(ParserTest, DyndepRuleInput) { ASSERT_NO_FATAL_FAILURE(AssertParse( "rule cat\n" " command = cat $in > $out\n" " dyndep = $in\n" "build result: cat in\n")); Edge* edge = state.GetNode("result", 0)->in_edge(); ASSERT_TRUE(edge->dyndep_); EXPECT_TRUE(edge->dyndep_->dyndep_pending()); EXPECT_EQ(edge->dyndep_->path(), "in"); }