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chore: import upstream snapshot with attribution
2026-07-13 12:28:05 +08:00

811 lines
27 KiB
C

/*
* test_ui.c — Tests for the graph visualization UI module.
*
* Covers: config persistence, embedded asset lookup, layout engine.
*/
#include "../src/foundation/compat.h"
#include "../src/foundation/compat_fs.h"
#include "test_framework.h"
#include "test_helpers.h"
#include "ui/config.h"
#include "ui/embedded_assets.h"
#include "ui/layout3d.h"
#include "store/store.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#ifndef _WIN32
#include <unistd.h>
#include <sys/wait.h>
#endif
/* ── Config tests ─────────────────────────────────────────────── */
TEST(config_load_defaults) {
/* Loading with no config file should give defaults */
cbm_ui_config_t cfg;
cfg.ui_enabled = true; /* set non-default to verify load overwrites */
cfg.ui_port = 1234;
/* Use a temp HOME to avoid touching real config */
char tmpdir[256];
snprintf(tmpdir, sizeof(tmpdir), "/tmp/cbm_test_config_XXXXXX");
char *td = cbm_mkdtemp(tmpdir);
ASSERT_NOT_NULL(td);
char *old_home = getenv("HOME") ? strdup(getenv("HOME")) : NULL;
cbm_setenv("HOME", td, 1);
cbm_ui_config_load(&cfg);
ASSERT_FALSE(cfg.ui_enabled);
ASSERT_EQ(cfg.ui_port, 9749);
/* Restore HOME */
if (old_home) {
cbm_setenv("HOME", old_home, 1);
free(old_home);
}
PASS();
}
TEST(config_save_and_reload) {
char tmpdir[256];
snprintf(tmpdir, sizeof(tmpdir), "/tmp/cbm_test_config_XXXXXX");
char *td = cbm_mkdtemp(tmpdir);
ASSERT_NOT_NULL(td);
char *old_home = getenv("HOME") ? strdup(getenv("HOME")) : NULL;
cbm_setenv("HOME", td, 1);
/* Save */
cbm_ui_config_t cfg = {.ui_enabled = true, .ui_port = 8080};
cbm_ui_config_save(&cfg);
/* Reload */
cbm_ui_config_t loaded;
cbm_ui_config_load(&loaded);
ASSERT_TRUE(loaded.ui_enabled);
ASSERT_EQ(loaded.ui_port, 8080);
if (old_home) {
cbm_setenv("HOME", old_home, 1);
free(old_home);
}
PASS();
}
TEST(config_overwrite) {
char tmpdir[256];
snprintf(tmpdir, sizeof(tmpdir), "/tmp/cbm_test_config_XXXXXX");
char *td = cbm_mkdtemp(tmpdir);
ASSERT_NOT_NULL(td);
char *old_home = getenv("HOME") ? strdup(getenv("HOME")) : NULL;
cbm_setenv("HOME", td, 1);
/* Save with ui_enabled=true */
cbm_ui_config_t cfg1 = {.ui_enabled = true, .ui_port = 9749};
cbm_ui_config_save(&cfg1);
/* Overwrite with ui_enabled=false */
cbm_ui_config_t cfg2 = {.ui_enabled = false, .ui_port = 9749};
cbm_ui_config_save(&cfg2);
/* Reload should show false */
cbm_ui_config_t loaded;
cbm_ui_config_load(&loaded);
ASSERT_FALSE(loaded.ui_enabled);
if (old_home) {
cbm_setenv("HOME", old_home, 1);
free(old_home);
}
PASS();
}
TEST(config_corrupt_file) {
char tmpdir[256];
snprintf(tmpdir, sizeof(tmpdir), "/tmp/cbm_test_config_XXXXXX");
char *td = cbm_mkdtemp(tmpdir);
ASSERT_NOT_NULL(td);
char *old_home = getenv("HOME") ? strdup(getenv("HOME")) : NULL;
cbm_setenv("HOME", td, 1);
/* Write garbage to config path */
char path[1024];
cbm_ui_config_path(path, (int)sizeof(path));
/* Ensure directory exists (portable — no system("mkdir -p")) */
char dir[1024];
snprintf(dir, sizeof(dir), "%s/.cache/codebase-memory-mcp", td);
cbm_mkdir_p(dir, 0755);
FILE *f = fopen(path, "w");
ASSERT_NOT_NULL(f);
fprintf(f, "this is not json!!!");
fclose(f);
/* Should load defaults, not crash */
cbm_ui_config_t cfg;
cbm_ui_config_load(&cfg);
ASSERT_FALSE(cfg.ui_enabled);
ASSERT_EQ(cfg.ui_port, 9749);
if (old_home) {
cbm_setenv("HOME", old_home, 1);
free(old_home);
}
PASS();
}
TEST(config_missing_fields) {
char tmpdir[256];
snprintf(tmpdir, sizeof(tmpdir), "/tmp/cbm_test_config_XXXXXX");
char *td = cbm_mkdtemp(tmpdir);
ASSERT_NOT_NULL(td);
char *old_home = getenv("HOME") ? strdup(getenv("HOME")) : NULL;
cbm_setenv("HOME", td, 1);
/* Write JSON with only ui_port */
char path[1024];
cbm_ui_config_path(path, (int)sizeof(path));
char dir[1024];
snprintf(dir, sizeof(dir), "%s/.cache/codebase-memory-mcp", td);
cbm_mkdir_p(dir, 0755);
FILE *f = fopen(path, "w");
ASSERT_NOT_NULL(f);
fprintf(f, "{\"ui_port\": 5555}");
fclose(f);
cbm_ui_config_t cfg;
cbm_ui_config_load(&cfg);
ASSERT_FALSE(cfg.ui_enabled); /* defaults for missing field */
ASSERT_EQ(cfg.ui_port, 5555); /* present field loaded */
if (old_home) {
cbm_setenv("HOME", old_home, 1);
free(old_home);
}
PASS();
}
/* ── Embedded asset tests ─────────────────────────────────────── */
TEST(embedded_lookup_not_found) {
/* With stub, everything should return NULL */
const cbm_embedded_file_t *f = cbm_embedded_lookup("/nonexistent");
ASSERT_NULL(f);
PASS();
}
TEST(embedded_stub_count) {
/* Stub should have 0 files */
ASSERT_EQ(CBM_EMBEDDED_FILE_COUNT, 0);
PASS();
}
/* ── Layout tests ─────────────────────────────────────────────── */
TEST(layout_empty_graph) {
cbm_store_t *store = cbm_store_open_memory();
ASSERT_NOT_NULL(store);
/* No nodes in store → empty result */
cbm_layout_result_t *r =
cbm_layout_compute(store, "test-project", CBM_LAYOUT_OVERVIEW, NULL, 0, 100);
ASSERT_NOT_NULL(r);
ASSERT_EQ(r->node_count, 0);
ASSERT_EQ(r->edge_count, 0);
cbm_layout_free(r);
cbm_store_close(store);
PASS();
}
TEST(layout_single_node) {
cbm_store_t *store = cbm_store_open_memory();
ASSERT_NOT_NULL(store);
cbm_store_upsert_project(store, "test", "/tmp/test");
cbm_node_t node = {
.project = "test",
.label = "Function",
.name = "main",
.qualified_name = "test::main",
.file_path = "main.c",
.start_line = 1,
.end_line = 10,
};
int64_t id = cbm_store_upsert_node(store, &node);
ASSERT_GT(id, 0);
cbm_layout_result_t *r = cbm_layout_compute(store, "test", CBM_LAYOUT_OVERVIEW, NULL, 0, 100);
ASSERT_NOT_NULL(r);
ASSERT_EQ(r->node_count, 1);
ASSERT_STR_EQ(r->nodes[0].name, "main");
ASSERT_EQ(r->total_nodes, 1);
cbm_layout_free(r);
cbm_store_close(store);
PASS();
}
TEST(layout_two_connected) {
cbm_store_t *store = cbm_store_open_memory();
ASSERT_NOT_NULL(store);
cbm_store_upsert_project(store, "test", "/tmp/test");
cbm_node_t n1 = {.project = "test",
.label = "Function",
.name = "foo",
.qualified_name = "test::foo",
.file_path = "a.c",
.start_line = 1,
.end_line = 5};
cbm_node_t n2 = {.project = "test",
.label = "Function",
.name = "bar",
.qualified_name = "test::bar",
.file_path = "b.c",
.start_line = 1,
.end_line = 5};
int64_t id1 = cbm_store_upsert_node(store, &n1);
int64_t id2 = cbm_store_upsert_node(store, &n2);
cbm_edge_t edge = {.project = "test", .source_id = id1, .target_id = id2, .type = "CALLS"};
cbm_store_insert_edge(store, &edge);
cbm_layout_result_t *r = cbm_layout_compute(store, "test", CBM_LAYOUT_OVERVIEW, NULL, 0, 100);
ASSERT_NOT_NULL(r);
ASSERT_EQ(r->node_count, 2);
/* Nodes should be positioned apart (not at same point) */
float dx = r->nodes[0].x - r->nodes[1].x;
float dy = r->nodes[0].y - r->nodes[1].y;
float dz = r->nodes[0].z - r->nodes[1].z;
float dist = sqrtf(dx * dx + dy * dy + dz * dz);
ASSERT_GT((long long)(dist * 100), 0);
ASSERT_EQ(r->edge_count, 1);
cbm_layout_free(r);
cbm_store_close(store);
PASS();
}
TEST(layout_respects_max_nodes) {
cbm_store_t *store = cbm_store_open_memory();
ASSERT_NOT_NULL(store);
cbm_store_upsert_project(store, "test", "/tmp/test");
/* Insert 20 nodes */
for (int i = 0; i < 20; i++) {
char name[32], qn[64];
snprintf(name, sizeof(name), "fn%d", i);
snprintf(qn, sizeof(qn), "test::fn%d", i);
cbm_node_t n = {.project = "test",
.label = "Function",
.name = name,
.qualified_name = qn,
.file_path = "a.c",
.start_line = i,
.end_line = i + 1};
cbm_store_upsert_node(store, &n);
}
/* max_nodes=5 should return at most 5 */
cbm_layout_result_t *r = cbm_layout_compute(store, "test", CBM_LAYOUT_OVERVIEW, NULL, 0, 5);
ASSERT_NOT_NULL(r);
ASSERT_LTE(r->node_count, 5);
ASSERT_EQ(r->total_nodes, 20);
cbm_layout_free(r);
cbm_store_close(store);
PASS();
}
TEST(layout_clamps_render_cap_from_env) {
cbm_store_t *store = cbm_store_open_memory();
ASSERT_NOT_NULL(store);
const char *old_raw = getenv("CBM_UI_MAX_RENDER_NODES");
char *old_cap = old_raw ? strdup(old_raw) : NULL;
cbm_setenv("CBM_UI_MAX_RENDER_NODES", "25", 1);
cbm_store_upsert_project(store, "test", "/tmp/test");
for (int i = 0; i < 40; i++) {
char name[32], qn[64];
snprintf(name, sizeof(name), "fn%d", i);
snprintf(qn, sizeof(qn), "test::fn%d", i);
cbm_node_t n = {.project = "test",
.label = "Function",
.name = name,
.qualified_name = qn,
.file_path = "a.c",
.start_line = i,
.end_line = i + 1};
cbm_store_upsert_node(store, &n);
}
cbm_layout_result_t *r = cbm_layout_compute(store, "test", CBM_LAYOUT_OVERVIEW, NULL, 0, 50000);
ASSERT_NOT_NULL(r);
ASSERT_LTE(r->node_count, 25);
ASSERT_EQ(r->total_nodes, 40);
cbm_layout_free(r);
cbm_store_close(store);
if (old_cap) {
cbm_setenv("CBM_UI_MAX_RENDER_NODES", old_cap, 1);
free(old_cap);
} else {
cbm_unsetenv("CBM_UI_MAX_RENDER_NODES");
}
PASS();
}
/* A caller-requested budget above the default must be honored (up to the hard
* ceiling) when no env cap is set — the default is a default, not a ceiling. */
TEST(layout_honors_budget_above_default) {
cbm_store_t *store = cbm_store_open_memory();
ASSERT_NOT_NULL(store);
const char *old_raw = getenv("CBM_UI_MAX_RENDER_NODES");
char *old_cap = old_raw ? strdup(old_raw) : NULL;
cbm_unsetenv("CBM_UI_MAX_RENDER_NODES");
cbm_store_upsert_project(store, "test", "/tmp/test");
enum { BUDGET_NODES = 5100 };
for (int i = 0; i < BUDGET_NODES; i++) {
char name[32], qn[64];
snprintf(name, sizeof(name), "fn%d", i);
snprintf(qn, sizeof(qn), "test::fn%d", i);
cbm_node_t n = {.project = "test",
.label = "Function",
.name = name,
.qualified_name = qn,
.file_path = "a.c",
.start_line = i,
.end_line = i + 1};
cbm_store_upsert_node(store, &n);
}
cbm_layout_result_t *r =
cbm_layout_compute(store, "test", CBM_LAYOUT_OVERVIEW, NULL, 0, BUDGET_NODES);
ASSERT_NOT_NULL(r);
ASSERT_EQ(r->node_count, BUDGET_NODES);
ASSERT_EQ(r->total_nodes, BUDGET_NODES);
cbm_layout_free(r);
cbm_store_close(store);
if (old_cap) {
cbm_setenv("CBM_UI_MAX_RENDER_NODES", old_cap, 1);
free(old_cap);
}
PASS();
}
TEST(layout_deterministic) {
cbm_store_t *store = cbm_store_open_memory();
ASSERT_NOT_NULL(store);
cbm_store_upsert_project(store, "test", "/tmp/test");
cbm_node_t n1 = {.project = "test",
.label = "Function",
.name = "alpha",
.qualified_name = "test::alpha",
.file_path = "a.c",
.start_line = 1,
.end_line = 5};
cbm_node_t n2 = {.project = "test",
.label = "Function",
.name = "beta",
.qualified_name = "test::beta",
.file_path = "b.c",
.start_line = 1,
.end_line = 5};
cbm_store_upsert_node(store, &n1);
cbm_store_upsert_node(store, &n2);
/* Run twice, check positions match */
cbm_layout_result_t *r1 = cbm_layout_compute(store, "test", CBM_LAYOUT_OVERVIEW, NULL, 0, 100);
cbm_layout_result_t *r2 = cbm_layout_compute(store, "test", CBM_LAYOUT_OVERVIEW, NULL, 0, 100);
ASSERT_NOT_NULL(r1);
ASSERT_NOT_NULL(r2);
ASSERT_EQ(r1->node_count, r2->node_count);
for (int i = 0; i < r1->node_count; i++) {
ASSERT_FLOAT_EQ(r1->nodes[i].x, r2->nodes[i].x, 0.001);
ASSERT_FLOAT_EQ(r1->nodes[i].y, r2->nodes[i].y, 0.001);
ASSERT_FLOAT_EQ(r1->nodes[i].z, r2->nodes[i].z, 0.001);
}
cbm_layout_free(r1);
cbm_layout_free(r2);
cbm_store_close(store);
PASS();
}
TEST(layout_to_json) {
cbm_store_t *store = cbm_store_open_memory();
ASSERT_NOT_NULL(store);
cbm_store_upsert_project(store, "test", "/tmp/test");
cbm_node_t n = {.project = "test",
.label = "Function",
.name = "hello",
.qualified_name = "test::hello",
.file_path = "a.c",
.start_line = 1,
.end_line = 5};
cbm_store_upsert_node(store, &n);
cbm_layout_result_t *r = cbm_layout_compute(store, "test", CBM_LAYOUT_OVERVIEW, NULL, 0, 100);
ASSERT_NOT_NULL(r);
char *json = cbm_layout_to_json(r);
ASSERT_NOT_NULL(json);
/* Should contain key fields */
ASSERT(strstr(json, "\"nodes\"") != NULL);
ASSERT(strstr(json, "\"edges\"") != NULL);
ASSERT(strstr(json, "\"total_nodes\"") != NULL);
ASSERT(strstr(json, "\"hello\"") != NULL);
ASSERT(strstr(json, "\"Function\"") != NULL);
free(json);
cbm_layout_free(r);
cbm_store_close(store);
PASS();
}
TEST(layout_null_inputs) {
/* NULL store → NULL result */
cbm_layout_result_t *r = cbm_layout_compute(NULL, "test", CBM_LAYOUT_OVERVIEW, NULL, 0, 100);
ASSERT_NULL(r);
/* NULL project → NULL result */
cbm_store_t *store = cbm_store_open_memory();
r = cbm_layout_compute(store, NULL, CBM_LAYOUT_OVERVIEW, NULL, 0, 100);
ASSERT_NULL(r);
/* cbm_layout_free(NULL) should not crash */
cbm_layout_free(NULL);
/* cbm_layout_to_json(NULL) should return NULL */
char *json = cbm_layout_to_json(NULL);
ASSERT_NULL(json);
cbm_store_close(store);
PASS();
}
/* ── Dead-code classification (distilled from PR #789) ────────── */
static const cbm_layout_node_t *find_layout_node(const cbm_layout_result_t *r, const char *name) {
for (int i = 0; i < r->node_count; i++) {
if (r->nodes[i].name && strcmp(r->nodes[i].name, name) == 0) {
return &r->nodes[i];
}
}
return NULL;
}
/* A function with zero callers/usages and no entry/test/exported flag is
* "dead"; entry-point, test, and exported functions are NOT dead even at zero
* callers; a called function reports its true full-graph incoming CALLS degree
* ("single" at 1, "normal" at >=2). Non-Function labels are "structural". */
TEST(layout_dead_code_classification) {
cbm_store_t *store = cbm_store_open_memory();
ASSERT_NOT_NULL(store);
ASSERT_EQ(cbm_store_upsert_project(store, "dc", "/tmp/dc"), CBM_STORE_OK);
/* Candidates (Function, non-test path unless noted). */
cbm_node_t dead = {.project = "dc",
.label = "Function",
.name = "deadfn",
.qualified_name = "dc::deadfn",
.file_path = "src/a.c",
.properties_json = "{\"is_entry_point\":false,\"is_test\":false,"
"\"is_exported\":false}"};
cbm_node_t entry = {.project = "dc",
.label = "Function",
.name = "entryfn",
.qualified_name = "dc::entryfn",
.file_path = "src/b.c",
.properties_json = "{\"is_entry_point\":true}"};
cbm_node_t tst = {.project = "dc",
.label = "Function",
.name = "testfn",
.qualified_name = "dc::testfn",
.file_path = "src/c.c",
.properties_json = "{\"is_test\":true}"};
cbm_node_t tstpath = {.project = "dc",
.label = "Function",
.name = "bypathfn",
.qualified_name = "dc::bypathfn",
.file_path = "tests/mod_helpers.c",
.properties_json = "{}"};
cbm_node_t exp = {.project = "dc",
.label = "Function",
.name = "exportedfn",
.qualified_name = "dc::exportedfn",
.file_path = "src/d.c",
.properties_json = "{\"is_exported\":true}"};
cbm_node_t single = {.project = "dc",
.label = "Function",
.name = "calledonce",
.qualified_name = "dc::calledonce",
.file_path = "src/e.c",
.properties_json = "{}"};
cbm_node_t norm = {.project = "dc",
.label = "Function",
.name = "callednormal",
.qualified_name = "dc::callednormal",
.file_path = "src/f.c",
.properties_json = "{}"};
cbm_node_t caller = {.project = "dc",
.label = "Function",
.name = "caller",
.qualified_name = "dc::caller",
.file_path = "src/g.c",
.properties_json = "{}"};
/* A structural (non-Function) node is never a dead-code candidate. */
cbm_node_t cls = {.project = "dc",
.label = "Class",
.name = "SomeClass",
.qualified_name = "dc::SomeClass",
.file_path = "src/h.c",
.properties_json = "{}"};
int64_t id_dead = cbm_store_upsert_node(store, &dead);
cbm_store_upsert_node(store, &entry);
cbm_store_upsert_node(store, &tst);
cbm_store_upsert_node(store, &tstpath);
cbm_store_upsert_node(store, &exp);
int64_t id_single = cbm_store_upsert_node(store, &single);
int64_t id_norm = cbm_store_upsert_node(store, &norm);
int64_t id_caller = cbm_store_upsert_node(store, &caller);
cbm_store_upsert_node(store, &cls);
ASSERT_GT(id_dead, 0);
/* calledonce ← 1 CALLS; callednormal ← 2 CALLS (full-graph inbound). */
cbm_edge_t e1 = {
.project = "dc", .source_id = id_caller, .target_id = id_single, .type = "CALLS"};
cbm_edge_t e2 = {
.project = "dc", .source_id = id_caller, .target_id = id_norm, .type = "CALLS"};
cbm_edge_t e3 = {.project = "dc", .source_id = id_dead, .target_id = id_norm, .type = "CALLS"};
cbm_store_insert_edge(store, &e1);
cbm_store_insert_edge(store, &e2);
cbm_store_insert_edge(store, &e3);
cbm_layout_result_t *r = cbm_layout_compute(store, "dc", CBM_LAYOUT_OVERVIEW, NULL, 0, 100);
ASSERT_NOT_NULL(r);
const cbm_layout_node_t *ln;
ln = find_layout_node(r, "deadfn");
ASSERT_NOT_NULL(ln);
ASSERT_STR_EQ(ln->status, "dead");
ASSERT_EQ(ln->in_calls, 0);
ln = find_layout_node(r, "entryfn");
ASSERT_NOT_NULL(ln);
ASSERT_STR_EQ(ln->status, "entry");
ln = find_layout_node(r, "testfn");
ASSERT_NOT_NULL(ln);
ASSERT_STR_EQ(ln->status, "test");
ln = find_layout_node(r, "bypathfn"); /* test detected via file path */
ASSERT_NOT_NULL(ln);
ASSERT_STR_EQ(ln->status, "test");
ln = find_layout_node(r, "exportedfn");
ASSERT_NOT_NULL(ln);
ASSERT_STR_EQ(ln->status, "exported");
ln = find_layout_node(r, "calledonce");
ASSERT_NOT_NULL(ln);
ASSERT_STR_EQ(ln->status, "single");
ASSERT_EQ(ln->in_calls, 1);
ln = find_layout_node(r, "callednormal");
ASSERT_NOT_NULL(ln);
ASSERT_STR_EQ(ln->status, "normal");
ASSERT_EQ(ln->in_calls, 2);
ln = find_layout_node(r, "SomeClass");
ASSERT_NOT_NULL(ln);
ASSERT_STR_EQ(ln->status, "structural");
/* The classification must survive JSON serialization. */
char *json = cbm_layout_to_json(r);
ASSERT_NOT_NULL(json);
ASSERT(strstr(json, "\"status\":\"dead\"") != NULL);
ASSERT(strstr(json, "\"in_calls\":2") != NULL);
free(json);
cbm_layout_free(r);
cbm_store_close(store);
PASS();
}
/* ── Octree recursion guard (distilled from PR #821; refs #498/#726/#402) ── */
/* Bodies that share a position made octree_insert subdivide forever — the
* cell around them shrinks but never separates them, so one octree cell is
* calloc'd per level until the process dies (stack overflow) or freezes the
* machine allocating (the 34GB-swap reports). Fixed by the depth/half-size
* floor in src/ui/layout3d.c (OCTREE_MAX_DEPTH / OCTREE_MIN_HALF).
*
* Coincident positions are reachable through the public layout API: layout3d
* anchors each node by fnv1a(file cluster key) and jitters it with a PRNG
* seeded by fnv1a(qualified_name). The three QNs below are distinct strings
* with IDENTICAL 32-bit FNV-1a hashes (0x06bb012e, found by offline brute
* force), so in the same file they get bit-identical positions on every
* platform (integer hashing only — no libm in the coincidence path).
*
* A literal sub-ULP-separated pair cannot be constructed through the public
* API: same-anchor positions are quantized to exact multiples of the jitter
* quantum (5/4096 — exactly 20 ULP at anchor magnitude ~600), and
* cross-anchor separations depend on the platform's cosf/sinf bits. Exact
* coincidence is the API-reachable degenerate input, and it necessarily
* drives the recursion through the sub-ULP regime: half_size falls below
* ULP(center) with the bodies still unseparated, freezing child centers
* while cells keep being allocated.
*/
#if !defined(_WIN32)
/* Child body: builds the store and runs the layout so a crash or hang cannot
* take down the runner (alarm bounds a hang, fork isolates a SIGSEGV).
* Deliberately NO memory rlimit: under a rlimit a failing calloc makes
* octree_insert silently truncate and the UNFIXED code would complete —
* turning this guard vacuously green. The alarm alone bounds the runaway.
* Exit codes: 0 ok, 2 store setup, 3 layout NULL, 4 node count/lookup,
* 5 fixture no longer coincident, 6 non-finite coordinate. Never returns. */
static void layout_octree_guard_child(void) {
alarm(5); /* post-fix the whole child runs in milliseconds */
cbm_store_t *store = cbm_store_open_memory();
if (!store)
_exit(2);
if (cbm_store_upsert_project(store, "test", "/tmp/test") != CBM_STORE_OK)
_exit(2);
/* Distinct QNs, one fnv1a hash — coincident after anchor + jitter. */
static const char *cqn[3] = {"test::octree_c5988474", "test::octree_c11394919",
"test::octree_c33141700"};
for (int i = 0; i < 3; i++) {
char name[32];
snprintf(name, sizeof(name), "co%d", i);
cbm_node_t n = {.project = "test",
.label = "Function",
.name = name,
.qualified_name = cqn[i],
.file_path = "pkg/sub/mod/a.c",
.start_line = i + 1,
.end_line = i + 2};
if (cbm_store_upsert_node(store, &n) <= 0)
_exit(2);
}
/* A few normally-spread nodes so the octree root box has realistic
* (non-degenerate) extent, as in the reported repositories. */
for (int i = 0; i < 3; i++) {
char name[32], qn[64], fp[32];
snprintf(name, sizeof(name), "fn%d", i);
snprintf(qn, sizeof(qn), "test::spread_fn%d", i);
snprintf(fp, sizeof(fp), "dir%d/f%d.c", i, i);
cbm_node_t n = {.project = "test",
.label = "Function",
.name = name,
.qualified_name = qn,
.file_path = fp,
.start_line = 1,
.end_line = 2};
if (cbm_store_upsert_node(store, &n) <= 0)
_exit(2);
}
cbm_layout_result_t *r = cbm_layout_compute(store, "test", CBM_LAYOUT_OVERVIEW, NULL, 0, 100);
if (!r)
_exit(3);
if (r->node_count != 6)
_exit(4);
/* The colliding QNs must actually be coincident — identical output
* coordinates (identical seeds → identical positions, and coincident
* bodies receive identical forces every iteration, so they stay
* together). If a seeding change ever breaks this, the fixture no longer
* reproduces the bug: fail loudly instead of going vacuously green. */
int ci[3], nc = 0;
for (int i = 0; i < r->node_count && nc < 3; i++) {
if (r->nodes[i].qualified_name &&
strncmp(r->nodes[i].qualified_name, "test::octree_c", 14) == 0)
ci[nc++] = i;
}
if (nc != 3)
_exit(4);
for (int k = 1; k < 3; k++) {
if (r->nodes[ci[k]].x != r->nodes[ci[0]].x || r->nodes[ci[k]].y != r->nodes[ci[0]].y ||
r->nodes[ci[k]].z != r->nodes[ci[0]].z)
_exit(5);
}
for (int i = 0; i < r->node_count; i++) {
if (!isfinite(r->nodes[i].x) || !isfinite(r->nodes[i].y) || !isfinite(r->nodes[i].z))
_exit(6);
}
cbm_layout_free(r);
cbm_store_close(store);
_exit(0);
}
#endif
TEST(layout_coincident_nodes_bounded) {
#if defined(_WIN32)
SKIP_PLATFORM("fork/alarm not available; POSIX-only bounded-hang reproduction");
#else
fflush(NULL);
pid_t pid = fork();
if (pid < 0)
FAIL("fork() failed");
if (pid == 0)
layout_octree_guard_child(); /* never returns */
int status = 0;
(void)waitpid(pid, &status, 0);
/* Unfixed code dies here: SIGSEGV (unbounded recursion overflowing the
* stack) or SIGALRM (tail-call-optimized allocation runaway cut off by
* the child's alarm). Fixed code exits 0 well within the budget. */
ASSERT_FALSE(WIFSIGNALED(status));
ASSERT_TRUE(WIFEXITED(status));
ASSERT_EQ(WEXITSTATUS(status), 0);
PASS();
#endif
}
/* ── Suite ────────────────────────────────────────────────────── */
SUITE(ui) {
/* Config */
RUN_TEST(config_load_defaults);
RUN_TEST(config_save_and_reload);
RUN_TEST(config_overwrite);
RUN_TEST(config_corrupt_file);
RUN_TEST(config_missing_fields);
/* Embedded assets (stub) */
RUN_TEST(embedded_lookup_not_found);
RUN_TEST(embedded_stub_count);
/* Layout engine */
RUN_TEST(layout_empty_graph);
RUN_TEST(layout_single_node);
RUN_TEST(layout_two_connected);
RUN_TEST(layout_respects_max_nodes);
RUN_TEST(layout_clamps_render_cap_from_env);
RUN_TEST(layout_honors_budget_above_default);
RUN_TEST(layout_deterministic);
RUN_TEST(layout_to_json);
RUN_TEST(layout_null_inputs);
RUN_TEST(layout_dead_code_classification);
RUN_TEST(layout_coincident_nodes_bounded);
}