# _*_ coding=utf-8 _*_ class text(): header_list = """#include \n#include \n#include \n#include \n#include \n#include \n""" header_inttype = "#include \n" main_sig = 'int main(int argc, char** argv)' pragma_weak_main = '#pragma weak main' pre_header_guard = "\n// first line intentionally left blank\n" header_guard_begin = "#ifndef _AUTO_XXX_H\n#define _AUTO_XXX_H\n" pragma_endif = "#endif\n" autogen_warning = "// automatically generated by faultreiber\n" last_comment = "// last line intentionally left blank\n\n" read_func_sig = "int read_structured_file(char* path)" #c_read_elem_sig = "XXX ft_read_YYY(int _fd) {\n" #c_read_elem_sig = "void ft_read_YYY(int _fd, XXX* dummyZZZ) {\n" #c_read_elem_sig = "void ft_read_YYY(int _fd, XXX* dummy) {\n" #c_read_elem_sig_h = "void ft_read_YYY(int _fd, XXX* dummy);\n" c_read_elem_sig = "void* ft_read_YYY(int _fd, XXX** dummy, void*** void_train, uint64_t* current_void_size, uint64_t* current_void_count) {\n" c_read_elem_sig_h = "void* ft_read_YYY(int _fd, XXX** dummy, void*** void_train, uint64_t* current_void_size, uint64_t* current_void_count);\n" c_read_elem_sig_1 = "ft_read_XXX(_fd)" c_read_elem_sig_2 = "ft_read_XXX(_fd, YYY, ZZZ, current_void_size, current_void_count)" c_open_file = "int ft_read_file = open(_ft_file_path, RDONLY);\n" c_function_close = "}\n" c_function_dummy_dec = "XXX dummy;\n" c_function_return_type = "return dummy;\n" c_read_def_1 = "uint8_t XXX;\n" c_read_def_2 = "uint16_t XXX;\n" c_read_def_4 = "uint32_t XXX;\n" c_read_def_8 = "uint64_t XXX;\n" c_read_1 = "read(_fd, &XXX, sizeof(uint8_t));\n" c_read_2 = "read(_fd, &XXX, sizeof(uint16_t));\n" c_read_4 = "read(_fd, &XXX, sizeof(uint32_t));\n" c_read_8 = "read(_fd, &XXX, sizeof(uint64_t));\n" c_read_gen = "read(_fd, &XXX, sizeof(YYY));\n" c_read_gen_no = "read(_fd, XXX, sizeof(YYY));\n" c_read_gen_2 = "read(_fd, &XXX, YYY);\n" c_read_gen_2_no = "read(_fd, XXX, YYY);\n" c_assign_struct = "XXX.YYY = ZZZ;\n" simple_loop = "for (int i = 0; i < XXX; ++i) {\nYYY}\n" c_read_leb_u_def = """ uint64_t read_leb_128_u(int _fd, int max_size) { uint8_t read_bytes = 0U; uint8_t byte = 0; uint64_t result = 0U; uint32_t shift = 0U; do { read(_fd, &byte, 1);read_bytes++;read_bytes++; result |= (byte & 0x7f) << shift; shift += 7; } while(((byte & 0x80) != 0) && (read_bytes < max_size)); return result; }""" c_read_leb_s_def = """ int64_t read_leb_128_s(int _fd, int max_size) { uint8_t byte; uint8_t read_bytes = 0U; uint8_t last_byte; int64_t result; uint32_t shift = 0U; read(_fd, &byte, 1); do { read(_fd, &byte, 1);read_bytes++; result |= (byte & 0x7f) << shift; last_byte = byte; shift += 7; } while(((byte & 0x80) != 0) && read_bytes < max_size); if ((last_byte & 0x40) != 0) result |= -(1 << shift); return result; }""" c_read_until_delimiter = """ int32_t read_until_delimiter(int _fd, uint8_t delimiter) { uint8_t dummy = 0; int32_t pos = 0; while(1) { read(_fd, &dummy, 1); pos++; if (dummy == delimiter) { lseek(_fd, -pos, SEEK_CUR); return pos; }} }""" c_void_manager = """ void void_manager(void* ptr, void*** void_train, uint64_t* current_void_size, uint64_t* current_void_count) { if (*current_void_size == 0) { *void_train = malloc(100*sizeof(void*)); *current_void_size = 100; } if (*current_void_count == *current_void_size) { *current_void_size*=2; *void_train = realloc(*void_train, *current_void_size*sizeof(void*)); if (*void_train == NULL) { printf("void train couldnt allocate more memory.\\n"); } } (*void_train)[*current_void_count] = ptr; (*current_void_count)++; }""" c_read_leb_128_s_sig = "int64_t read_leb_128_s(int _fd, int max_size);\n" c_read_leb_128_u_sig = "uint64_t read_leb_128_u(int _fd, int max_size);\n" c_read_until_delimiter_sig = "int32_t read_until_delimiter(int _fd, uint8_t delimiter);\n" c_read_until_delimiter_proto = "read_until_delimiter(_fd, XXX)" c_void_manager_sig = "void void_manager(void* ptr, void*** void_train, uint64_t* current_void_size, uint64_t* current_void_count);" c_void_manager_proto = "void_manager(XXX, void_train, current_void_size, current_void_count);" c_read_leb_macro_defs = """ #define READ_VAR_UINT_1(FD) read_leb128_u(FD, 1) #define READ_VAR_UINT_7(FD) read_leb128_u(FD, 1) #define READ_VAR_UINT_32(FD) read_leb128_u(FD, 5) #define READ_VAR_INT_1(FD) read_leb128_s(FD, 1) #define READ_VAR_INT_7(FD) read_leb128_s(FD, 1) """ c_read_leb_macro_varuin1 = "READ_VAR_UINT_1(XXX)" c_read_leb_macro_varuin7 = "READ_VAR_UINT_7(XXX)" c_read_leb_macro_varuin32 = "READ_VAR_UINT_32(XXX)" c_read_leb_macro_varin1 = "READ_VAR_INT_1(XXX)" c_read_leb_macro_varin7 = "READ_VAR_INT_7(XXX)" c_read_leb_macro_varin32 = "READ_VAR_INT_32(XXX)" c_read_leb_128_u = "read_leb_128_u(_fd, 5);\n" c_read_leb_128_s = "read_leb_128_s(_fd, 5);\n" c_define_str_buff_size = "#define STR_BUFF_SIZE XXX" c_define_str_buff_grow_fact = "#define STR_BUFFER_GROW_FACTOR XXX" c_define_void_buff_size = "#define VOID_BUFF_SIZE XXX" c_define_void_buff_grow_fact = "#define VOID_BUFFER_GROW_FACTOR XXX" c_reserve_void_ptr = "malloc(XXX)"