mirror of
https://github.com/ggerganov/llama.cpp.git
synced 2024-11-11 21:39:52 +00:00
f3f65429c4
* scripts : update sync [no ci] * files : relocate [no ci] * ci : disable kompute build [no ci] * cmake : fixes [no ci] * server : fix mingw build ggml-ci * cmake : minor [no ci] * cmake : link math library [no ci] * cmake : build normal ggml library (not object library) [no ci] * cmake : fix kompute build ggml-ci * make,cmake : fix LLAMA_CUDA + replace GGML_CDEF_PRIVATE ggml-ci * move public backend headers to the public include directory (#8122) * move public backend headers to the public include directory * nix test * spm : fix metal header --------- Co-authored-by: Georgi Gerganov <ggerganov@gmail.com> * scripts : fix sync paths [no ci] * scripts : sync ggml-blas.h [no ci] --------- Co-authored-by: slaren <slarengh@gmail.com>
221 lines
9.2 KiB
Python
221 lines
9.2 KiB
Python
#!/usr/bin/env python
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import logging
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import argparse
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import asyncio
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import os
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from tempfile import gettempdir
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logger = logging.getLogger("ggml-vk-generate-shaders")
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GLSLC = "glslc"
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type_names = [
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"f32",
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"f16",
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"q4_0",
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"q4_1",
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"q5_0",
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"q5_1",
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"q8_0",
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"q2_k",
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"q3_k",
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"q4_k",
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"q5_k",
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"q6_k",
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]
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ASYNCIO_CONCURRENCY = 64
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input_dir = "vulkan-shaders"
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output_dir = gettempdir()
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lock = asyncio.Lock()
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shader_fnames = []
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async def string_to_spv(name, in_fname, defines, fp16=True):
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name = f"{name}{'_fp32' if not fp16 else ''}"
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out_fname = os.path.join(output_dir, f"{name}.spv")
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in_path = os.path.join(input_dir, in_fname)
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cmd = [GLSLC, "-fshader-stage=compute", "--target-env=vulkan1.2", "-O", in_path, "-o", out_fname]
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cmd.extend([f"-D{key}={value}" for key, value in defines.items()])
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proc = await asyncio.create_subprocess_exec(*cmd, stdout=asyncio.subprocess.PIPE, stderr=asyncio.subprocess.PIPE)
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stdout, stderr = await proc.communicate()
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stdout = stdout.decode()
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error = stderr.decode()
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if proc.returncode:
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cmd = " ".join(cmd)
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logger.error(f"cannot compile {name}\n\n{cmd}\n\n{error}")
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return
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async with lock:
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shader_fnames.append((name, out_fname))
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def matmul_shaders(tasks, fp16, matmul_id):
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if fp16:
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load_vec = "8"
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aligned_b_type_f32 = "mat2x4"
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aligned_b_type_f16 = "f16mat2x4"
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else:
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load_vec = "4"
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aligned_b_type_f32 = "vec4"
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aligned_b_type_f16 = "f16vec4"
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base_dict = {"FLOAT_TYPE": "float" if not fp16 else "float16_t"}
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shader_name = "matmul"
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if matmul_id:
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base_dict["MUL_MAT_ID"] = "1"
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shader_name = "matmul_id"
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if fp16:
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base_dict["FLOAT16"] = "1"
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# Shaders with f16 B_TYPE
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tasks.append(string_to_spv(f"{shader_name}_f32_f16", "mul_mm.comp", base_dict | {"DATA_A_F32": "1", "B_TYPE": "float16_t", "D_TYPE": "float"}, fp16))
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tasks.append(string_to_spv(f"{shader_name}_f32_f16_aligned", "mul_mm.comp", base_dict | {"DATA_A_F32": "1", "LOAD_VEC_A": load_vec, "LOAD_VEC_B": load_vec, "B_TYPE": aligned_b_type_f16, "D_TYPE": "float"}, fp16))
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tasks.append(string_to_spv(f"{shader_name}_f16", "mul_mm.comp", base_dict | {"DATA_A_F16": "1", "B_TYPE": "float16_t", "D_TYPE": "float"}, fp16))
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tasks.append(string_to_spv(f"{shader_name}_f16_aligned", "mul_mm.comp", base_dict | {"DATA_A_F16": "1", "LOAD_VEC_A": load_vec, "LOAD_VEC_B": load_vec, "B_TYPE": aligned_b_type_f16, "D_TYPE": "float"}, fp16))
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for tname in type_names:
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data_a_key = f"DATA_A_{tname.upper()}"
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load_vec_a = load_vec if tname in ("f32", "f16") else "2"
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tasks.append(string_to_spv(f"{shader_name}_{tname}_f32", "mul_mm.comp", base_dict | {data_a_key: "1", "B_TYPE": "float", "D_TYPE": "float"}, fp16))
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tasks.append(string_to_spv(f"{shader_name}_{tname}_f32_aligned", "mul_mm.comp", base_dict | {data_a_key: "2", "LOAD_VEC_A": load_vec_a, "LOAD_VEC_B": load_vec, "B_TYPE": aligned_b_type_f32, "D_TYPE": "float"}, fp16))
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async def main():
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logger.info("ggml_vulkan: Generating and compiling shaders to SPIR-V")
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tasks = []
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for fp16 in (False, True):
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# MUL_MAT
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matmul_shaders(tasks, fp16, False)
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# MUL_MAT_ID
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matmul_shaders(tasks, fp16, True)
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for tname in type_names:
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base_dict = {"FLOAT_TYPE": "float"}
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# mul mat vec
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data_a_key = f"DATA_A_{tname.upper()}"
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shader = f"mul_mat_vec_{tname}.comp" if tname.endswith("_k") else "mul_mat_vec.comp"
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tasks.append(string_to_spv(f"mul_mat_vec_{tname}_f32_f32", shader, base_dict | {data_a_key: "1", "B_TYPE": "float", "D_TYPE": "float"}))
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tasks.append(string_to_spv(f"mul_mat_vec_{tname}_f16_f32", shader, base_dict | {data_a_key: "1", "B_TYPE": "float16_t", "D_TYPE": "float"}))
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tasks.append(string_to_spv(f"mul_mat_vec_id_{tname}_f32", shader, base_dict | {"MUL_MAT_ID": "1", data_a_key: "1", "B_TYPE": "float", "D_TYPE": "float"}))
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# Dequant shaders
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if tname != "f16":
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tasks.append(string_to_spv(f"dequant_{tname}", f"dequant_{tname}.comp", base_dict | {data_a_key: "1", "D_TYPE": "float16_t"}))
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# get_rows
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if not tname.endswith("_k"):
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shader = "get_rows.comp" if tname in ("f32", "f16") else "get_rows_quant.comp"
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if tname == "f16":
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tasks.append(string_to_spv(f"get_rows_{tname}", shader, {data_a_key: "1", "B_TYPE": "int", "D_TYPE": "float16_t", "OPTIMIZATION_ERROR_WORKAROUND": "1"}))
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else:
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tasks.append(string_to_spv(f"get_rows_{tname}", shader, {data_a_key: "1", "B_TYPE": "int", "D_TYPE": "float16_t"}))
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tasks.append(string_to_spv(f"get_rows_{tname}_f32", shader, {data_a_key: "1", "B_TYPE": "int", "D_TYPE": "float"}))
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tasks.append(string_to_spv("mul_mat_vec_p021_f16_f32", "mul_mat_vec_p021.comp", {"A_TYPE": "float16_t", "B_TYPE": "float", "D_TYPE": "float"}))
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tasks.append(string_to_spv("mul_mat_vec_nc_f16_f32", "mul_mat_vec_nc.comp", {"A_TYPE": "float16_t", "B_TYPE": "float", "D_TYPE": "float"}))
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# Norms
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tasks.append(string_to_spv("norm_f32", "norm.comp", base_dict | {"A_TYPE": "float", "D_TYPE": "float"}))
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tasks.append(string_to_spv("rms_norm_f32", "rms_norm.comp", base_dict | {"A_TYPE": "float", "D_TYPE": "float"}))
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tasks.append(string_to_spv("cpy_f32_f32", "copy.comp", {"A_TYPE": "float", "D_TYPE": "float"}))
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tasks.append(string_to_spv("cpy_f32_f16", "copy.comp", {"A_TYPE": "float", "D_TYPE": "float16_t"}))
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tasks.append(string_to_spv("cpy_f16_f16", "copy.comp", {"A_TYPE": "float16_t", "D_TYPE": "float16_t", "OPTIMIZATION_ERROR_WORKAROUND": "1"}))
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tasks.append(string_to_spv("add_f32", "add.comp", {"A_TYPE": "float", "B_TYPE": "float", "D_TYPE": "float", "FLOAT_TYPE": "float"}))
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tasks.append(string_to_spv("split_k_reduce", "mul_mat_split_k_reduce.comp", {}))
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tasks.append(string_to_spv("mul_f32", "mul.comp", {"A_TYPE": "float", "B_TYPE": "float", "D_TYPE": "float", "FLOAT_TYPE": "float"}))
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tasks.append(string_to_spv("div_f32", "div.comp", {"A_TYPE": "float", "B_TYPE": "float", "D_TYPE": "float", "FLOAT_TYPE": "float"}))
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tasks.append(string_to_spv("scale_f32", "scale.comp", {"A_TYPE": "float", "D_TYPE": "float", "FLOAT_TYPE": "float"}))
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tasks.append(string_to_spv("sqr_f32", "square.comp", {"A_TYPE": "float", "D_TYPE": "float", "FLOAT_TYPE": "float"}))
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tasks.append(string_to_spv("clamp_f32", "clamp.comp", {"A_TYPE": "float", "D_TYPE": "float", "FLOAT_TYPE": "float"}))
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tasks.append(string_to_spv("gelu_f32", "gelu.comp", {"A_TYPE": "float", "D_TYPE": "float"}))
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tasks.append(string_to_spv("silu_f32", "silu.comp", {"A_TYPE": "float", "D_TYPE": "float"}))
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tasks.append(string_to_spv("relu_f32", "relu.comp", {"A_TYPE": "float", "D_TYPE": "float"}))
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tasks.append(string_to_spv("diag_mask_inf_f32", "diag_mask_inf.comp", {"A_TYPE": "float", "D_TYPE": "float"}))
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tasks.append(string_to_spv("soft_max_f32", "soft_max.comp", base_dict | {"A_TYPE": "float", "B_TYPE": "float", "D_TYPE": "float"}))
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tasks.append(string_to_spv("soft_max_f32_f16", "soft_max.comp", base_dict | {"A_TYPE": "float", "B_TYPE": "float16_t", "D_TYPE": "float"}))
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tasks.append(string_to_spv("rope_norm_f32", "rope_norm.comp", {"A_TYPE": "float", "D_TYPE": "float"}))
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tasks.append(string_to_spv("rope_norm_f16", "rope_norm.comp", {"A_TYPE": "float16_t", "D_TYPE": "float16_t"}))
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tasks.append(string_to_spv("rope_neox_f32", "rope_neox.comp", {"A_TYPE": "float", "D_TYPE": "float"}))
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tasks.append(string_to_spv("rope_neox_f16", "rope_neox.comp", {"A_TYPE": "float16_t", "D_TYPE": "float16_t"}))
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tasks.append(string_to_spv("argsort_f32", "argsort.comp", {"A_TYPE": "float"}))
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tasks.append(string_to_spv("sum_rows_f32", "sum_rows.comp", base_dict | {"A_TYPE": "float", "D_TYPE": "float"}))
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# Helper to decorate tasks with semaphore acquisition.
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async def withSemaphore(sem, task):
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async with sem:
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return await task
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# Run tasks concurrently guarded by a concurrency limit.
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sem = asyncio.Semaphore(ASYNCIO_CONCURRENCY)
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await asyncio.gather(*(withSemaphore(sem, task) for task in tasks))
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with open("ggml-vulkan-shaders.hpp", "w") as f:
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f.write("#include <cstdint>\n\n")
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for name, path in sorted(shader_fnames):
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with open(path, "rb") as spv:
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counter = 0
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newline_counter = 0
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f.write(f"unsigned char {name}_data[] = {{\n")
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for val in spv.read():
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f.write(f"0x{val:02x},")
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newline_counter += 1
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counter += 1
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if newline_counter >= 12:
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newline_counter = 0
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f.write("\n")
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f.write("\n};\n")
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f.write(f"const uint64_t {name}_len = {counter};\n\n")
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os.remove(path)
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if __name__ == "__main__":
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parser = argparse.ArgumentParser(description="GGML Vulkan Shader Generator")
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parser.add_argument("--glslc", help="Path to glslc")
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parser.add_argument("--verbose", action="store_true", help="increase output verbosity")
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args = parser.parse_args()
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logging.basicConfig(level=logging.DEBUG if args.verbose else logging.INFO)
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if args.glslc:
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GLSLC = args.glslc
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asyncio.run(main())
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