anvil/tests/script_execution_test.rs

// ==========================================================================
// Script Execution Tests
// ==========================================================================
//
// These tests extract a real Anvil project to a temp directory and then
// ACTUALLY EXECUTE the generated scripts.  They are not fast and they
// require real build-machine dependencies:
//
//   test.sh / test/run_tests.sh  -->  cmake, g++ (or clang++), git
//   build.sh                     -->  arduino-cli (with arduino:avr core)
//
// If a dependency is missing, the test is SKIPPED (shown as "ignored"
// in cargo test output).  Detection happens at compile time via build.rs
// which sets cfg flags: has_cmake, has_cpp_compiler, has_git,
// has_arduino_cli.
//
// On Windows the .bat variants are tested instead.
// ==========================================================================

use std::fs;
use std::path::Path;
use std::process::Command;
use tempfile::TempDir;
use serial_test::serial;

use anvil::templates::{TemplateContext, TemplateManager};
use anvil::version::ANVIL_VERSION;

// --------------------------------------------------------------------------
// Helpers
// --------------------------------------------------------------------------

/// Build a TemplateContext with sensible defaults for testing.
fn test_context(name: &str) -> TemplateContext {
    TemplateContext {
        project_name: name.to_string(),
        anvil_version: ANVIL_VERSION.to_string(),
        board_name: "Arduino Uno (ATmega328P)".to_string(),
        fqbn: "arduino:avr:uno".to_string(),
        baud: 115200,
    }
}

/// Extract a fresh project into a temp directory and return the TempDir.
fn extract_project(name: &str) -> TempDir {
    let tmp = TempDir::new().expect("Failed to create temp directory");
    let ctx = test_context(name);
    let count = TemplateManager::extract("basic", tmp.path(), &ctx)
        .expect("Failed to extract template");
    assert!(count > 0, "Template extraction produced zero files");
    tmp
}

/// Make all .sh files under `root` executable (Unix only).
#[cfg(unix)]
fn chmod_scripts(root: &Path) {
    chmod_recursive(root);
}

#[cfg(unix)]
fn chmod_recursive(dir: &Path) {
    use std::os::unix::fs::PermissionsExt;

    let entries = match fs::read_dir(dir) {
        Ok(e) => e,
        Err(_) => return,
    };
    for entry in entries.filter_map(|e| e.ok()) {
        let path = entry.path();
        if path.is_dir() {
            chmod_recursive(&path);
        } else if path.extension().map(|e| e == "sh").unwrap_or(false) {
            let mut perms = match fs::metadata(&path) {
                Ok(m) => m.permissions(),
                Err(_) => continue,
            };
            perms.set_mode(0o755);
            let _ = fs::set_permissions(&path, perms);
        }
    }
}

/// Run a shell script (bash on Unix, cmd /C on Windows).
/// Returns (success, stdout, stderr).
fn run_script(dir: &Path, script: &str) -> (bool, String, String) {
    let output = if cfg!(windows) {
        Command::new("cmd")
            .args(["/C", script])
            .current_dir(dir)
            .output()
    } else {
        Command::new("bash")
            .arg(script)
            .current_dir(dir)
            .output()
    };

    let output = output.unwrap_or_else(|e| panic!("Failed to execute {}: {}", script, e));
    let stdout = String::from_utf8_lossy(&output.stdout).to_string();
    let stderr = String::from_utf8_lossy(&output.stderr).to_string();
    (output.status.success(), stdout, stderr)
}

/// Run a script with extra arguments.
fn run_script_with_args(dir: &Path, script: &str, args: &[&str]) -> (bool, String, String) {
    let output = if cfg!(windows) {
        let mut all_args = vec!["/C", script];
        all_args.extend_from_slice(args);
        Command::new("cmd")
            .args(&all_args)
            .current_dir(dir)
            .output()
    } else {
        Command::new("bash")
            .arg(script)
            .args(args)
            .current_dir(dir)
            .output()
    };

    let output = output.unwrap_or_else(|e| panic!("Failed to execute {}: {}", script, e));
    let stdout = String::from_utf8_lossy(&output.stdout).to_string();
    let stderr = String::from_utf8_lossy(&output.stderr).to_string();
    (output.status.success(), stdout, stderr)
}

/// Platform-appropriate script paths.
fn root_test_script() -> &'static str {
    if cfg!(windows) { "test.bat" } else { "test.sh" }
}

fn inner_test_script() -> &'static str {
    if cfg!(windows) { "test\\run_tests.bat" } else { "test/run_tests.sh" }
}

fn build_script() -> &'static str {
    if cfg!(windows) { "build.bat" } else { "build.sh" }
}

/// Recursively list directory contents using only std::fs (no external crates).
/// Used for diagnostic output when a test assertion fails.
fn list_dir_recursive(dir: &Path) -> String {
    if !dir.exists() {
        return format!("  (directory does not exist: {})", dir.display());
    }
    let mut lines = Vec::new();
    collect_dir_entries(dir, 0, 4, &mut lines);
    lines.join("\n")
}

fn collect_dir_entries(dir: &Path, depth: usize, max_depth: usize, lines: &mut Vec<String>) {
    if depth > max_depth {
        return;
    }
    let entries = match fs::read_dir(dir) {
        Ok(e) => e,
        Err(_) => return,
    };
    let mut sorted: Vec<_> = entries.filter_map(|e| e.ok()).collect();
    sorted.sort_by_key(|e| e.file_name());
    for entry in sorted {
        let indent = "  ".repeat(depth + 1);
        let name = entry.file_name();
        let name_str = name.to_string_lossy();
        lines.push(format!("{}{}", indent, name_str));
        let path = entry.path();
        if path.is_dir() {
            collect_dir_entries(&path, depth + 1, max_depth, lines);
        }
    }
}

/// Search recursively for a file whose name starts with the given prefix.
/// Uses only std::fs (no external crates).
fn find_file_recursive(dir: &Path, prefix: &str) -> bool {
    let entries = match fs::read_dir(dir) {
        Ok(e) => e,
        Err(_) => return false,
    };
    for entry in entries.filter_map(|e| e.ok()) {
        let path = entry.path();
        let name = entry.file_name();
        if name.to_string_lossy().starts_with(prefix) {
            return true;
        }
        if path.is_dir() && find_file_recursive(&path, prefix) {
            return true;
        }
    }
    false
}

// ==========================================================================
// ROOT test.sh / test.bat EXECUTION
//
// The root-level test script is the primary test entry point for the
// generated project.  It must work out of the box.
//
// Required on build machine: cmake, g++ or clang++, git
// ==========================================================================

#[test]
#[cfg_attr(not(has_cmake), ignore = "cmake not found")]
#[cfg_attr(not(has_cpp_compiler), ignore = "C++ compiler not found")]
#[cfg_attr(not(has_git), ignore = "git not found")]
fn test_root_test_script_executes_successfully() {
    let tmp = extract_project("root_test");

    #[cfg(unix)]
    chmod_scripts(tmp.path());

    let (success, stdout, stderr) = run_script(tmp.path(), root_test_script());

    println!("--- {} stdout ---\n{}", root_test_script(), stdout);
    if !stderr.is_empty() {
        eprintln!("--- {} stderr ---\n{}", root_test_script(), stderr);
    }

    assert!(
        success,
        "{} failed!\n\nstdout:\n{}\n\nstderr:\n{}",
        root_test_script(), stdout, stderr
    );
}

#[test]
#[cfg_attr(not(has_cmake), ignore = "cmake not found")]
#[cfg_attr(not(has_cpp_compiler), ignore = "C++ compiler not found")]
#[cfg_attr(not(has_git), ignore = "git not found")]
fn test_root_test_script_tests_actually_ran() {
    let tmp = extract_project("root_verify");

    #[cfg(unix)]
    chmod_scripts(tmp.path());

    let (success, stdout, stderr) = run_script(tmp.path(), root_test_script());

    assert!(
        success,
        "{} failed.\nstdout:\n{}\nstderr:\n{}",
        root_test_script(), stdout, stderr
    );

    // Verify that tests actually executed -- not a silent no-op
    let combined = format!("{}{}", stdout, stderr);
    let tests_ran = combined.contains("passed")
        || combined.contains("PASSED")
        || combined.contains("tests passed")
        || combined.contains("100%")
        || combined.contains("PASS");
    assert!(
        tests_ran,
        "{} output does not indicate any tests actually executed.\n\n\
         stdout:\n{}\n\nstderr:\n{}",
        root_test_script(), stdout, stderr
    );
}

#[test]
#[cfg_attr(not(has_cmake), ignore = "cmake not found")]
#[cfg_attr(not(has_cpp_compiler), ignore = "C++ compiler not found")]
#[cfg_attr(not(has_git), ignore = "git not found")]
fn test_root_test_script_idempotent() {
    let tmp = extract_project("root_idem");

    #[cfg(unix)]
    chmod_scripts(tmp.path());

    let (success1, _, _) = run_script(tmp.path(), root_test_script());
    assert!(success1, "First run of {} failed", root_test_script());

    let (success2, stdout2, stderr2) = run_script(tmp.path(), root_test_script());
    assert!(
        success2,
        "Second run of {} failed (should be idempotent).\nstdout:\n{}\nstderr:\n{}",
        root_test_script(), stdout2, stderr2
    );
}

// ==========================================================================
// INNER test/run_tests.sh / test\run_tests.bat EXECUTION
//
// The test/ subdirectory script builds and runs the C++ unit tests
// directly.  It must also work standalone.
//
// Required on build machine: cmake, g++ or clang++, git
// ==========================================================================

#[test]
#[cfg_attr(not(has_cmake), ignore = "cmake not found")]
#[cfg_attr(not(has_cpp_compiler), ignore = "C++ compiler not found")]
#[cfg_attr(not(has_git), ignore = "git not found")]
fn test_inner_run_tests_script_executes_successfully() {
    let tmp = extract_project("inner_test");

    #[cfg(unix)]
    chmod_scripts(tmp.path());

    let (success, stdout, stderr) = run_script(tmp.path(), inner_test_script());

    println!("--- {} stdout ---\n{}", inner_test_script(), stdout);
    if !stderr.is_empty() {
        eprintln!("--- {} stderr ---\n{}", inner_test_script(), stderr);
    }

    assert!(
        success,
        "{} failed!\n\nstdout:\n{}\n\nstderr:\n{}",
        inner_test_script(), stdout, stderr
    );
}

#[test]
#[cfg_attr(not(has_cmake), ignore = "cmake not found")]
#[cfg_attr(not(has_cpp_compiler), ignore = "C++ compiler not found")]
#[cfg_attr(not(has_git), ignore = "git not found")]
fn test_inner_run_tests_google_tests_actually_ran() {
    let tmp = extract_project("inner_gtest");

    #[cfg(unix)]
    chmod_scripts(tmp.path());

    let (success, stdout, stderr) = run_script(tmp.path(), inner_test_script());

    assert!(
        success,
        "{} failed.\nstdout:\n{}\nstderr:\n{}",
        inner_test_script(), stdout, stderr
    );

    let combined = format!("{}{}", stdout, stderr);
    let tests_ran = combined.contains("passed")
        || combined.contains("PASSED")
        || combined.contains("tests passed")
        || combined.contains("100%")
        || combined.contains("PASS");
    assert!(
        tests_ran,
        "{} output does not indicate any Google Tests actually executed.\n\n\
         stdout:\n{}\n\nstderr:\n{}",
        inner_test_script(), stdout, stderr
    );
}

#[test]
#[cfg_attr(not(has_cmake), ignore = "cmake not found")]
#[cfg_attr(not(has_cpp_compiler), ignore = "C++ compiler not found")]
#[cfg_attr(not(has_git), ignore = "git not found")]
fn test_inner_run_tests_clean_flag_rebuilds() {
    let tmp = extract_project("inner_clean");

    #[cfg(unix)]
    chmod_scripts(tmp.path());

    // First run -- populates build dir and fetches gtest
    let (success, _, _) = run_script(tmp.path(), inner_test_script());
    assert!(success, "First run of {} failed", inner_test_script());

    // Verify build artifacts exist
    let build_dir = tmp.path().join("test").join("build");
    assert!(
        build_dir.exists(),
        "test/build/ directory should exist after first run"
    );

    // Second run with --clean -- should nuke build dir and rebuild
    let (success, stdout, stderr) =
        run_script_with_args(tmp.path(), inner_test_script(), &["--clean"]);

    println!("--- clean rebuild stdout ---\n{}", stdout);
    if !stderr.is_empty() {
        eprintln!("--- clean rebuild stderr ---\n{}", stderr);
    }

    assert!(
        success,
        "Clean rebuild of {} failed.\nstdout:\n{}\nstderr:\n{}",
        inner_test_script(), stdout, stderr
    );
}

#[test]
#[cfg_attr(not(has_cmake), ignore = "cmake not found")]
#[cfg_attr(not(has_cpp_compiler), ignore = "C++ compiler not found")]
#[cfg_attr(not(has_git), ignore = "git not found")]
fn test_inner_run_tests_produces_test_binary() {
    let tmp = extract_project("inner_bin");

    #[cfg(unix)]
    chmod_scripts(tmp.path());

    let (success, _, _) = run_script(tmp.path(), inner_test_script());
    assert!(success, "{} failed", inner_test_script());

    // The cmake build should produce a test_unit binary somewhere
    // under test/build/
    let build_dir = tmp.path().join("test").join("build");
    let has_binary = find_file_recursive(&build_dir, "test_unit");

    assert!(
        has_binary,
        "Expected test_unit binary under test/build/ after running tests.\n\
         Contents of test/build/:\n{}",
        list_dir_recursive(&build_dir)
    );
}

#[test]
#[cfg_attr(not(has_cmake), ignore = "cmake not found")]
#[cfg_attr(not(has_cpp_compiler), ignore = "C++ compiler not found")]
#[cfg_attr(not(has_git), ignore = "git not found")]
fn test_inner_run_tests_idempotent() {
    let tmp = extract_project("inner_idem");

    #[cfg(unix)]
    chmod_scripts(tmp.path());

    let (success1, _, _) = run_script(tmp.path(), inner_test_script());
    assert!(success1, "First run failed");

    let (success2, stdout2, stderr2) = run_script(tmp.path(), inner_test_script());
    assert!(
        success2,
        "Second run failed (should be idempotent).\nstdout:\n{}\nstderr:\n{}",
        stdout2, stderr2
    );
}

// ==========================================================================
// BUILD SCRIPT EXECUTION (arduino-cli compile)
//
// Extracts a project, then runs build.sh/build.bat which:
//   1. Reads .anvil.toml for FQBN, include_dirs, extra_flags
//   2. Invokes arduino-cli compile with those settings
//
// Required on build machine: arduino-cli with arduino:avr core installed
// ==========================================================================

#[test]
#[serial]
#[cfg_attr(not(has_arduino_cli), ignore = "arduino-cli not found")]
fn test_build_script_compiles_sketch() {
    let tmp = extract_project("build_test");

    #[cfg(unix)]
    chmod_scripts(tmp.path());

    let (success, stdout, stderr) = run_script(tmp.path(), build_script());

    println!("--- {} stdout ---\n{}", build_script(), stdout);
    if !stderr.is_empty() {
        eprintln!("--- {} stderr ---\n{}", build_script(), stderr);
    }

    assert!(
        success,
        "{} failed!\n\nstdout:\n{}\n\nstderr:\n{}",
        build_script(), stdout, stderr
    );
}

#[test]
#[serial]
#[cfg_attr(not(has_arduino_cli), ignore = "arduino-cli not found")]
fn test_build_script_produces_compilation_output() {
    let tmp = extract_project("compile_out");

    #[cfg(unix)]
    chmod_scripts(tmp.path());

    let (success, stdout, stderr) = run_script(tmp.path(), build_script());
    assert!(
        success,
        "{} failed.\nstdout:\n{}\nstderr:\n{}",
        build_script(), stdout, stderr
    );

    // arduino-cli compile produces output indicating sketch size
    let combined = format!("{}{}", stdout, stderr);
    let compiled = combined.contains("Sketch uses")
        || combined.contains("bytes")
        || combined.contains("Compiling")
        || combined.contains("Used")
        || combined.contains("compiled")
        || combined.contains("flash");
    assert!(
        compiled,
        "{} output does not indicate a successful arduino-cli compilation.\n\n\
         stdout:\n{}\n\nstderr:\n{}",
        build_script(), stdout, stderr
    );
}

#[test]
#[serial]
#[cfg_attr(not(has_arduino_cli), ignore = "arduino-cli not found")]
fn test_build_script_idempotent() {
    let tmp = extract_project("build_idem");

    #[cfg(unix)]
    chmod_scripts(tmp.path());

    let (success1, _, _) = run_script(tmp.path(), build_script());
    assert!(success1, "First build failed");

    let (success2, stdout2, stderr2) = run_script(tmp.path(), build_script());
    assert!(
        success2,
        "Second build failed (should be idempotent).\nstdout:\n{}\nstderr:\n{}",
        stdout2, stderr2
    );
}

// ==========================================================================
// COMBINED: build + test scripts all succeed on the same project
//
// Full end-to-end: one extracted project, all testable scripts pass.
// ==========================================================================

#[test]
#[serial]
#[cfg_attr(not(has_cmake), ignore = "cmake not found")]
#[cfg_attr(not(has_cpp_compiler), ignore = "C++ compiler not found")]
#[cfg_attr(not(has_git), ignore = "git not found")]
#[cfg_attr(not(has_arduino_cli), ignore = "arduino-cli not found")]
fn test_full_project_all_scripts_pass() {
    let tmp = extract_project("full_e2e");

    #[cfg(unix)]
    chmod_scripts(tmp.path());

    // 1. Build the sketch with arduino-cli
    let (build_ok, build_out, build_err) = run_script(tmp.path(), build_script());
    println!("--- {} stdout ---\n{}", build_script(), build_out);
    if !build_err.is_empty() {
        eprintln!("--- {} stderr ---\n{}", build_script(), build_err);
    }
    assert!(
        build_ok,
        "{} failed in full E2E.\nstdout:\n{}\nstderr:\n{}",
        build_script(), build_out, build_err
    );

    // 2. Run root-level test script
    let (root_ok, root_out, root_err) = run_script(tmp.path(), root_test_script());
    println!("--- {} stdout ---\n{}", root_test_script(), root_out);
    if !root_err.is_empty() {
        eprintln!("--- {} stderr ---\n{}", root_test_script(), root_err);
    }
    assert!(
        root_ok,
        "{} failed in full E2E.\nstdout:\n{}\nstderr:\n{}",
        root_test_script(), root_out, root_err
    );

    // 3. Run inner test/run_tests script
    let (inner_ok, inner_out, inner_err) = run_script(tmp.path(), inner_test_script());
    println!("--- {} stdout ---\n{}", inner_test_script(), inner_out);
    if !inner_err.is_empty() {
        eprintln!("--- {} stderr ---\n{}", inner_test_script(), inner_err);
    }
    assert!(
        inner_ok,
        "{} failed in full E2E.\nstdout:\n{}\nstderr:\n{}",
        inner_test_script(), inner_out, inner_err
    );
}

// ==========================================================================
// SCRIPT CONTENT SANITY CHECKS
//
// Verify the scripts are well-formed before even executing them.
// These tests have NO external dependencies.
// ==========================================================================

#[test]
fn test_all_sh_scripts_have_strict_error_handling() {
    let tmp = extract_project("strict_mode");

    let sh_scripts = vec![
        "build.sh",
        "upload.sh",
        "monitor.sh",
        "test.sh",
        "test/run_tests.sh",
    ];

    for script in &sh_scripts {
        let path = tmp.path().join(script);
        if !path.exists() {
            continue;
        }
        let content = fs::read_to_string(&path)
            .unwrap_or_else(|_| panic!("Failed to read {}", script));

        assert!(
            content.contains("set -e") || content.contains("set -euo pipefail"),
            "{} must use 'set -e' or 'set -euo pipefail' for strict error handling",
            script
        );
    }
}

#[test]
fn test_all_sh_scripts_have_shebangs() {
    let tmp = extract_project("shebang");

    let sh_scripts = vec![
        "build.sh",
        "upload.sh",
        "monitor.sh",
        "test.sh",
        "test/run_tests.sh",
    ];

    for script in &sh_scripts {
        let path = tmp.path().join(script);
        if !path.exists() {
            continue;
        }
        let content = fs::read_to_string(&path)
            .unwrap_or_else(|_| panic!("Failed to read {}", script));

        assert!(
            content.starts_with("#!/"),
            "{} must start with a shebang line (#!/...)",
            script
        );
    }
}

#[test]
fn test_bat_scripts_exist_for_windows_parity() {
    let tmp = extract_project("win_parity");

    let pairs = vec![
        ("build.sh", "build.bat"),
        ("upload.sh", "upload.bat"),
        ("monitor.sh", "monitor.bat"),
        ("test.sh", "test.bat"),
        ("test/run_tests.sh", "test/run_tests.bat"),
    ];

    for (sh, bat) in &pairs {
        let sh_exists = tmp.path().join(sh).exists();
        let bat_exists = tmp.path().join(bat).exists();
        if sh_exists {
            assert!(
                bat_exists,
                "{} exists but {} is missing -- Windows parity broken",
                sh, bat
            );
        }
    }
}

#[test]
fn test_cmake_lists_fetches_google_test() {
    let tmp = extract_project("cmake_gtest");

    let cmake_path = tmp.path().join("test").join("CMakeLists.txt");
    assert!(cmake_path.exists(), "test/CMakeLists.txt must exist");

    let content = fs::read_to_string(&cmake_path).unwrap();

    assert!(
        content.contains("FetchContent") || content.contains("fetchcontent"),
        "CMakeLists.txt should use FetchContent to download Google Test"
    );
    assert!(
        content.contains("googletest") || content.contains("GTest"),
        "CMakeLists.txt should reference Google Test"
    );
}

#[test]
fn test_scripts_all_reference_anvil_toml() {
    let tmp = extract_project("toml_refs");

    // Build and upload scripts must read .anvil.toml for configuration.
    // On Windows, build.bat is a thin wrapper that calls build.ps1,
    // so we check the .ps1 file for content.
    let config_scripts = vec![
        "build.sh",
        "build.ps1",
        "upload.sh",
        "upload.bat",
    ];

    for script in &config_scripts {
        let path = tmp.path().join(script);
        if !path.exists() {
            continue;
        }
        let content = fs::read_to_string(&path)
            .unwrap_or_else(|_| panic!("Failed to read {}", script));

        assert!(
            content.contains(".anvil.toml"),
            "{} should reference .anvil.toml for project configuration",
            script
        );
    }
}

#[test]
fn test_scripts_invoke_arduino_cli_not_anvil() {
    let tmp = extract_project("no_anvil_dep");

    // Build/upload/monitor scripts must invoke arduino-cli directly.
    // On Windows, build.bat is a thin wrapper calling build.ps1,
    // so we check the .ps1 file for content.
    let scripts = vec![
        "build.sh", "build.ps1",
        "upload.sh", "upload.bat",
        "monitor.sh", "monitor.bat",
    ];

    for script in &scripts {
        let path = tmp.path().join(script);
        if !path.exists() {
            continue;
        }
        let content = fs::read_to_string(&path)
            .unwrap_or_else(|_| panic!("Failed to read {}", script));

        assert!(
            content.contains("arduino-cli"),
            "{} should invoke arduino-cli directly",
            script
        );

        // No line should shell out to the anvil binary
        let has_anvil_cmd = content.lines().any(|line| {
            let trimmed = line.trim();
            // Skip comments
            if trimmed.starts_with('#')
                || trimmed.starts_with("::")
                || trimmed.starts_with("REM")
                || trimmed.starts_with("rem")
            {
                return false;
            }
            // Skip output/diagnostic lines -- these often contain
            // suggestions like "Run: anvil doctor" which are messages
            // to the user, not command invocations.
            if trimmed.starts_with("echo")
                || trimmed.starts_with("Echo")
                || trimmed.starts_with("ECHO")
                || trimmed.starts_with("printf")
                || trimmed.starts_with("die ")
                || trimmed.starts_with("die(")
                || trimmed.starts_with("warn ")
                || trimmed.starts_with("warn(")
                || trimmed.starts_with("info ")
                || trimmed.starts_with("info(")
                || trimmed.starts_with("ok ")
                || trimmed.starts_with("ok(")
                || trimmed.starts_with(">&2")
                || trimmed.starts_with("1>&2")
                || trimmed.starts_with("Write-Host")
                || trimmed.starts_with("Write-Error")
                || trimmed.starts_with("Write-Warning")
                || trimmed.starts_with("Fail ")
                || trimmed.starts_with("Fail(")
                || trimmed.starts_with("Fail \"")
                || trimmed.starts_with("Fail @")
            {
                return false;
            }
            // Skip string assignments that contain suggestion text
            // e.g.  MSG="Run: anvil devices"
            if trimmed.contains("=\"") && trimmed.contains("anvil ") {
                return false;
            }
            // Check for "anvil " as a command invocation
            trimmed.contains("anvil ")
                && !trimmed.contains("anvil.toml")
                && !trimmed.contains("Anvil")
                && !trimmed.contains("anvilignore")
                && !trimmed.contains("\"anvil ")  // quoted suggestion text
                && !trimmed.contains("'anvil ")   // single-quoted suggestion
        });
        assert!(
            !has_anvil_cmd,
            "{} should not invoke the anvil binary -- project must be self-contained",
            script
        );
    }
}

#[test]
fn test_all_expected_scripts_exist() {
    let tmp = extract_project("all_scripts");

    let expected = vec![
        "build.sh",
        "build.bat",
        "build.ps1",
        "upload.sh",
        "upload.bat",
        "monitor.sh",
        "monitor.bat",
        "test.sh",
        "test.bat",
        "test/run_tests.sh",
        "test/run_tests.bat",
    ];

    for script in &expected {
        let path = tmp.path().join(script);
        assert!(
            path.exists(),
            "Expected script missing: {}\n\nProject contents:\n{}",
            script,
            list_dir_recursive(tmp.path())
        );
    }
}