122 lines
5.0 KiB
C++
122 lines
5.0 KiB
C++
#include "gguf-model-data.h"
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#include <cstdio>
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#define TEST_ASSERT(cond, msg) \
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do { \
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if (!(cond)) { \
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fprintf(stderr, "FAIL: %s (line %d): %s\n", #cond, __LINE__, msg); \
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return 1; \
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} \
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} while (0)
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int main() {
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fprintf(stderr, "=== test-gguf-model-data ===\n");
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// Fetch Qwen3-0.6B Q8_0 metadata
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auto result = gguf_fetch_model_meta("ggml-org/Qwen3-0.6B-GGUF", "Q8_0");
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if (!result.has_value()) {
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fprintf(stderr, "SKIP: could not fetch model metadata (no network or HTTP disabled)\n");
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return 0;
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}
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const auto & model = result.value();
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fprintf(stderr, "Architecture: %s\n", model.architecture.c_str());
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fprintf(stderr, "n_embd: %u\n", model.n_embd);
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fprintf(stderr, "n_ff: %u\n", model.n_ff);
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fprintf(stderr, "n_vocab: %u\n", model.n_vocab);
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fprintf(stderr, "n_layer: %u\n", model.n_layer);
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fprintf(stderr, "n_head: %u\n", model.n_head);
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fprintf(stderr, "n_head_kv: %u\n", model.n_head_kv);
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fprintf(stderr, "n_expert: %u\n", model.n_expert);
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fprintf(stderr, "n_embd_head_k: %u\n", model.n_embd_head_k);
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fprintf(stderr, "n_embd_head_v: %u\n", model.n_embd_head_v);
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fprintf(stderr, "tensors: %zu\n", model.tensors.size());
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// Verify architecture
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TEST_ASSERT(model.architecture == "qwen3", "expected architecture 'qwen3'");
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// Verify key dimensions (Qwen3-0.6B)
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TEST_ASSERT(model.n_layer == 28, "expected n_layer == 28");
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TEST_ASSERT(model.n_embd == 1024, "expected n_embd == 1024");
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TEST_ASSERT(model.n_head == 16, "expected n_head == 16");
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TEST_ASSERT(model.n_head_kv == 8, "expected n_head_kv == 8");
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TEST_ASSERT(model.n_expert == 0, "expected n_expert == 0 (not MoE)");
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TEST_ASSERT(model.n_vocab == 151936, "expected n_vocab == 151936");
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// Verify tensor count
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TEST_ASSERT(model.tensors.size() == 311, "expected tensor count == 311");
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// Verify known tensor names exist
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bool found_attn_q = false;
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bool found_token_embd = false;
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bool found_output_norm = false;
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for (const auto & t : model.tensors) {
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if (t.name == "blk.0.attn_q.weight") {
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found_attn_q = true;
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}
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if (t.name == "token_embd.weight") {
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found_token_embd = true;
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}
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if (t.name == "output_norm.weight") {
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found_output_norm = true;
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}
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}
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TEST_ASSERT(found_attn_q, "expected tensor 'blk.0.attn_q.weight'");
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TEST_ASSERT(found_token_embd, "expected tensor 'token_embd.weight'");
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TEST_ASSERT(found_output_norm, "expected tensor 'output_norm.weight'");
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// Verify token_embd.weight shape
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for (const auto & t : model.tensors) {
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if (t.name == "token_embd.weight") {
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TEST_ASSERT(t.ne[0] == 1024, "expected token_embd.weight ne[0] == 1024");
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TEST_ASSERT(t.n_dims == 2, "expected token_embd.weight to be 2D");
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break;
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}
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}
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// Test that second call uses cache (just call again, it should work)
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auto result2 = gguf_fetch_model_meta("ggml-org/Qwen3-0.6B-GGUF", "Q8_0");
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TEST_ASSERT(result2.has_value(), "cached fetch should succeed");
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TEST_ASSERT(result2->tensors.size() == model.tensors.size(), "cached result should match");
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// Test a split MoE model without specifying quant (should default to Q8_0)
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auto result3 = gguf_fetch_model_meta("ggml-org/GLM-4.6V-GGUF");
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if (!result3.has_value()) {
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fprintf(stderr, "SKIP: could not fetch GLM-4.6V metadata (no network?)\n");
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return 0;
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}
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const auto & model3 = result3.value();
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fprintf(stderr, "Architecture: %s\n", model3.architecture.c_str());
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fprintf(stderr, "n_embd: %u\n", model3.n_embd);
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fprintf(stderr, "n_ff: %u\n", model3.n_ff);
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fprintf(stderr, "n_vocab: %u\n", model3.n_vocab);
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fprintf(stderr, "n_layer: %u\n", model3.n_layer);
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fprintf(stderr, "n_head: %u\n", model3.n_head);
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fprintf(stderr, "n_head_kv: %u\n", model3.n_head_kv);
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fprintf(stderr, "n_expert: %u\n", model3.n_expert);
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fprintf(stderr, "n_embd_head_k: %u\n", model3.n_embd_head_k);
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fprintf(stderr, "n_embd_head_v: %u\n", model3.n_embd_head_v);
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fprintf(stderr, "tensors: %zu\n", model3.tensors.size());
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// Verify architecture
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TEST_ASSERT(model3.architecture == "glm4moe", "expected architecture 'glm4moe'");
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// Verify key dimensions (GLM-4.6V)
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TEST_ASSERT(model3.n_layer == 46, "expected n_layer == 46");
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TEST_ASSERT(model3.n_embd == 4096, "expected n_embd == 4096");
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TEST_ASSERT(model3.n_head == 96, "expected n_head == 96");
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TEST_ASSERT(model3.n_head_kv == 8, "expected n_head_kv == 8");
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TEST_ASSERT(model3.n_expert == 128, "expected n_expert == 128 (MoE)");
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TEST_ASSERT(model3.n_vocab == 151552, "expected n_vocab == 151552");
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// Verify tensor count
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TEST_ASSERT(model3.tensors.size() == 780, "expected tensor count == 780");
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fprintf(stderr, "=== ALL TESTS PASSED ===\n");
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return 0;
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}
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