Mercurial > vec
view utils/gengeneric.c @ 38:fd42f9b1b95e
docs: update copyright for 2025, update the README with more info
I slightly edited vec.h however to use calloc directly rather
than malloc + memset.
| author | Paper <paper@tflc.us> |
|---|---|
| date | Sat, 26 Apr 2025 02:54:44 -0400 |
| parents | 4b5a557aa64f |
| children | f9ca85d2f14c |
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/** * vec - a tiny SIMD vector library in C99 * * Copyright (c) 2024-2025 Paper * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. **/ /* Use this file to generate include/vec/impl/generic.h !! * * `gcc -o gengeneric gengeneric.c` */ #include <stdio.h> #include <stdlib.h> #include <string.h> #include <ctype.h> #define ARRAY_SIZE(x) (sizeof(x)/sizeof((x)[0])) /* XXX: would it be faster to unroll literally everything instead of defining everything, * and then unpacking it all? */ static const char *header = "/**\n" " * vec - a tiny SIMD vector library in C99\n" " * \n" " * Copyright (c) 2024-2025 Paper\n" " * \n" " * Permission is hereby granted, free of charge, to any person obtaining a copy\n" " * of this software and associated documentation files (the \"Software\"), to deal\n" " * in the Software without restriction, including without limitation the rights\n" " * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell\n" " * copies of the Software, and to permit persons to whom the Software is\n" " * furnished to do so, subject to the following conditions:\n" " * \n" " * The above copyright notice and this permission notice shall be included in all\n" " * copies or substantial portions of the Software.\n" " * \n" " * THE SOFTWARE IS PROVIDED \"AS IS\", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR\n" " * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,\n" " * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE\n" " * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER\n" " * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,\n" " * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE\n" " * SOFTWARE.\n" "**/\n" "\n" "/* This file is automatically generated! Do not edit it directly!\n" " * Edit the code that generates it in utils/gengeneric.c --paper */\n" "\n" "#ifndef VEC_IMPL_GENERIC_H_\n" "#define VEC_IMPL_GENERIC_H_\n" "\n" "#include <string.h>\n" "\n" "// -----------------------------------------------------------------\n" "\n" "#define VEC_GENERIC_OPERATION(op, sign, bits, size) \\\n" " do { \\\n" " int i; \\\n" " \\\n" " for (i = 0; i < size; i++) \\\n" " vec1.generic[i] = (op); \\\n" " \\\n" " return vec1; \\\n" " } while (0)\n" "\n" "#define VEC_GENERIC_BUILTIN_OPERATION(op, sign, bits, size) \\\n" " VEC_GENERIC_OPERATION(vec1.generic[i] op vec2.generic[i], sign, bits, size)\n" "\n" "#define VEC_GENERIC_CMP(op, sign, bits, size) \\\n" " VEC_GENERIC_OPERATION((vec1.generic[i] op vec2.generic[i]) ? (vec_##sign##int##bits)VEC_MAX_OF_TYPE(vec_uint##bits) : 0, sign, bits, size)\n" "\n" "/* okay, now we can do this crap: */\n" "\n" "#define VEC_GENERIC_SPLAT(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_splat(vec_##sign##int##bits x) \\\n" " { \\\n" " v##sign##int##bits##x##size vec; \\\n" " for (int i = 0; i < size; i++) \\\n" " vec.generic[i] = x; \\\n" " return vec; \\\n" " }\n" "\n" "#define VEC_GENERIC_LOAD_EX(name, sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_##name(const vec_##sign##int##bits in[size]) \\\n" " { \\\n" " v##sign##int##bits##x##size vec; \\\n" " memcpy(&vec, in, sizeof(vec_##sign##int##bits) * size); \\\n" " return vec; \\\n" " }\n" "\n" "#define VEC_GENERIC_LOAD_ALIGNED(sign, bits, size) VEC_GENERIC_LOAD_EX(load_aligned, sign, bits, size)\n" "#define VEC_GENERIC_LOAD(sign, bits, size) VEC_GENERIC_LOAD_EX(load, sign, bits, size)\n" "\n" "#define VEC_GENERIC_STORE_EX(name, sign, bits, size) \\\n" " VEC_FUNC_IMPL void v##sign##int##bits##x##size##_##name(v##sign##int##bits##x##size vec, vec_##sign##int##bits out[size]) \\\n" " { \\\n" " memcpy(out, &vec, sizeof(vec_##sign##int##bits) * size); \\\n" " }\n" "\n" "#define VEC_GENERIC_STORE_ALIGNED(sign, bits, size) VEC_GENERIC_STORE_EX(store_aligned, sign, bits, size)\n" "#define VEC_GENERIC_STORE(sign, bits, size) VEC_GENERIC_STORE_EX(store, sign, bits, size)\n" "\n" "#define VEC_GENERIC_ADD(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_add(v##sign##int##bits##x##size vec1, v##sign##int##bits##x##size vec2) \\\n" " { \\\n" " VEC_GENERIC_BUILTIN_OPERATION(+, sign, bits, size); \\\n" " }\n" "\n" "#define VEC_GENERIC_SUB(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_sub(v##sign##int##bits##x##size vec1, v##sign##int##bits##x##size vec2) \\\n" " { \\\n" " VEC_GENERIC_BUILTIN_OPERATION(-, sign, bits, size); \\\n" " }\n" "\n" "#define VEC_GENERIC_MUL(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_mul(v##sign##int##bits##x##size vec1, v##sign##int##bits##x##size vec2) \\\n" " { \\\n" " VEC_GENERIC_BUILTIN_OPERATION(*, sign, bits, size); \\\n" " }\n" "\n" "#define VEC_GENERIC_DIV(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_div(v##sign##int##bits##x##size vec1, v##sign##int##bits##x##size vec2) \\\n" " { \\\n" " VEC_GENERIC_OPERATION(vec2.generic[i] ? (vec1.generic[i] / vec2.generic[i]) : 0, sign, bits, size); \\\n" " }\n" "\n" "#define VEC_GENERIC_AVG(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_avg(v##sign##int##bits##x##size vec1, v##sign##int##bits##x##size vec2) \\\n" " { \\\n" " for (int i = 0; i < size; i++) \\\n" " vec1.generic[i] = vec_##sign##avg(vec1.generic[i], vec2.generic[i]); \\\n" " \\\n" " return vec1; \\\n" " }\n" "\n" "#define VEC_GENERIC_AND(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_and(v##sign##int##bits##x##size vec1, v##sign##int##bits##x##size vec2) \\\n" " { \\\n" " VEC_GENERIC_BUILTIN_OPERATION(&, sign, bits, size); \\\n" " }\n" "\n" "#define VEC_GENERIC_OR(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_or(v##sign##int##bits##x##size vec1, v##sign##int##bits##x##size vec2) \\\n" " { \\\n" " VEC_GENERIC_BUILTIN_OPERATION(|, sign, bits, size); \\\n" " }\n" "\n" "#define VEC_GENERIC_XOR(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_xor(v##sign##int##bits##x##size vec1, v##sign##int##bits##x##size vec2) \\\n" " { \\\n" " VEC_GENERIC_BUILTIN_OPERATION(^, sign, bits, size); \\\n" " }\n" "\n" "#define VEC_GENERIC_NOT(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_not(v##sign##int##bits##x##size vec) \\\n" " { \\\n" " return v##sign##int##bits##x##size##_xor(vec, v##sign##int##bits##x##size##_splat((vec_##sign##int##bits)VEC_MAX_OF_TYPE(vec_uint##bits))); \\\n" " }\n" "\n" "#define VEC_GENERIC_CMPLT(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_cmplt(v##sign##int##bits##x##size vec1, v##sign##int##bits##x##size vec2) \\\n" " { \\\n" " VEC_GENERIC_CMP(<, sign, bits, size); \\\n" " }\n" "\n" "#define VEC_GENERIC_CMPLE(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_cmple(v##sign##int##bits##x##size vec1, v##sign##int##bits##x##size vec2) \\\n" " { \\\n" " return v##sign##int##bits##x##size##_not(v##sign##int##bits##x##size##_cmpgt(vec1, vec2)); \\\n" " }\n" "\n" "#define VEC_GENERIC_CMPEQ(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_cmpeq(v##sign##int##bits##x##size vec1, v##sign##int##bits##x##size vec2) \\\n" " { \\\n" " VEC_GENERIC_CMP(==, sign, bits, size); \\\n" " }\n" "\n" "#define VEC_GENERIC_CMPGE(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_cmpge(v##sign##int##bits##x##size vec1, v##sign##int##bits##x##size vec2) \\\n" " { \\\n" " return v##sign##int##bits##x##size##_not(v##sign##int##bits##x##size##_cmplt(vec1, vec2)); \\\n" " }\n" "\n" "#define VEC_GENERIC_CMPGT(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_cmpgt(v##sign##int##bits##x##size vec1, v##sign##int##bits##x##size vec2) \\\n" " { \\\n" " VEC_GENERIC_CMP(>, sign, bits, size); \\\n" " }\n" "\n" "#define VEC_GENERIC_LSHIFT(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_lshift(v##sign##int##bits##x##size vec1, vuint##bits##x##size vec2) \\\n" " { \\\n" " VEC_GENERIC_OPERATION(vec_##sign##lshift(vec1.generic[i], vec2.generic[i]), sign, bits, size); \\\n" " }\n" "\n" "#define VEC_GENERIC_RSHIFT(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_rshift(v##sign##int##bits##x##size vec1, vuint##bits##x##size vec2) \\\n" " { \\\n" " VEC_GENERIC_OPERATION(vec_##sign##rshift(vec1.generic[i], vec2.generic[i]), sign, bits, size); \\\n" " }\n" "\n" "#define VEC_GENERIC_LRSHIFT(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_lrshift(v##sign##int##bits##x##size vec1, vuint##bits##x##size vec2) \\\n" " { \\\n" " VEC_GENERIC_OPERATION(vec_urshift((vec_uint##bits)vec1.generic[i], vec2.generic[i]), sign, bits, size); \\\n" " }\n" "\n" "#define VEC_GENERIC_MIN(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_min(v##sign##int##bits##x##size vec1, v##sign##int##bits##x##size vec2) \\\n" " { \\\n" " v##sign##int##bits##x##size cmplt = v##sign##int##bits##x##size##_cmplt(vec1, vec2); \\\n" " \\\n" " v##sign##int##bits##x##size a = v##sign##int##bits##x##size##_and(vec1, cmplt); \\\n" " v##sign##int##bits##x##size b = v##sign##int##bits##x##size##_and(vec2, v##sign##int##bits##x##size##_not(cmplt)); \\\n" " \\\n" " return v##sign##int##bits##x##size##_or(a, b); \\\n" " }\n" "\n" "#define VEC_GENERIC_MAX(sign, bits, size) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_max(v##sign##int##bits##x##size vec1, v##sign##int##bits##x##size vec2) \\\n" " { \\\n" " v##sign##int##bits##x##size cmplt = v##sign##int##bits##x##size##_cmpgt(vec1, vec2); \\\n" " \\\n" " v##sign##int##bits##x##size a = v##sign##int##bits##x##size##_and(vec1, cmplt); \\\n" " v##sign##int##bits##x##size b = v##sign##int##bits##x##size##_and(vec2, v##sign##int##bits##x##size##_not(cmplt)); \\\n" " \\\n" " return v##sign##int##bits##x##size##_or(a, b); \\\n" " }\n" "\n" "#define VEC_GENERIC_DBL_SPLAT(sign, bits, size, halfsize) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_splat(vec_##sign##int##bits x) \\\n" " { \\\n" " v##sign##int##bits##x##size vec; \\\n" " \\\n" " vec.generic[0] = v##sign##int##bits##x##halfsize##_splat(x); \\\n" " vec.generic[1] = v##sign##int##bits##x##halfsize##_splat(x); \\\n" " \\\n" " return vec; \\\n" " }\n" "\n" "#define VEC_GENERIC_DBL_LOAD_EX(name, sign, bits, size, halfsize) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_##name(const vec_##sign##int##bits x[size]) \\\n" " { \\\n" " v##sign##int##bits##x##size vec; \\\n" " \\\n" " vec.generic[0] = v##sign##int##bits##x##halfsize##_##name(x); \\\n" " vec.generic[1] = v##sign##int##bits##x##halfsize##_##name(x + halfsize); \\\n" " \\\n" " return vec; \\\n" " }\n" "\n" "#define VEC_GENERIC_DBL_LOAD(sign, bits, size, halfsize) VEC_GENERIC_DBL_LOAD_EX(load, sign, bits, size, halfsize)\n" "#define VEC_GENERIC_DBL_LOAD_ALIGNED(sign, bits, size, halfsize) VEC_GENERIC_DBL_LOAD_EX(load_aligned, sign, bits, size, halfsize)\n" "\n" "#define VEC_GENERIC_DBL_STORE_EX(name, sign, bits, size, halfsize) \\\n" " VEC_FUNC_IMPL void v##sign##int##bits##x##size##_##name(v##sign##int##bits##x##size vec, vec_##sign##int##bits x[size]) \\\n" " { \\\n" " v##sign##int##bits##x##halfsize##_##name(vec.generic[0], x); \\\n" " v##sign##int##bits##x##halfsize##_##name(vec.generic[1], x + halfsize); \\\n" " }\n" "\n" "#define VEC_GENERIC_DBL_STORE(sign, bits, size, halfsize) VEC_GENERIC_DBL_STORE_EX(store, sign, bits, size, halfsize)\n" "#define VEC_GENERIC_DBL_STORE_ALIGNED(sign, bits, size, halfsize) VEC_GENERIC_DBL_STORE_EX(store_aligned, sign, bits, size, halfsize)\n" "\n" "#define VEC_GENERIC_DBL_OP(name, sign, bits, size, halfsize, secondsign) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_##name(v##sign##int##bits##x##size vec1, v##secondsign##int##bits##x##size vec2) \\\n" " { \\\n" " vec1.generic[0] = v##sign##int##bits##x##halfsize##_##name(vec1.generic[0], vec2.generic[0]); \\\n" " vec1.generic[1] = v##sign##int##bits##x##halfsize##_##name(vec1.generic[1], vec2.generic[1]); \\\n" " \\\n" " return vec1; \\\n" " }\n" "\n" "#define VEC_GENERIC_DBL_ADD(sign, bits, size, halfsize) VEC_GENERIC_DBL_OP(add, sign, bits, size, halfsize, sign)\n" "#define VEC_GENERIC_DBL_SUB(sign, bits, size, halfsize) VEC_GENERIC_DBL_OP(sub, sign, bits, size, halfsize, sign)\n" "#define VEC_GENERIC_DBL_MUL(sign, bits, size, halfsize) VEC_GENERIC_DBL_OP(mul, sign, bits, size, halfsize, sign)\n" "#define VEC_GENERIC_DBL_DIV(sign, bits, size, halfsize) VEC_GENERIC_DBL_OP(div, sign, bits, size, halfsize, sign)\n" "#define VEC_GENERIC_DBL_AVG(sign, bits, size, halfsize) VEC_GENERIC_DBL_OP(avg, sign, bits, size, halfsize, sign)\n" "#define VEC_GENERIC_DBL_LSHIFT(sign, bits, size, halfsize) VEC_GENERIC_DBL_OP(lshift, sign, bits, size, halfsize, u)\n" "#define VEC_GENERIC_DBL_RSHIFT(sign, bits, size, halfsize) VEC_GENERIC_DBL_OP(rshift, sign, bits, size, halfsize, u)\n" "#define VEC_GENERIC_DBL_LRSHIFT(sign, bits, size, halfsize) VEC_GENERIC_DBL_OP(lrshift, sign, bits, size, halfsize, u)\n" "#define VEC_GENERIC_DBL_AND(sign, bits, size, halfsize) VEC_GENERIC_DBL_OP(and, sign, bits, size, halfsize, sign)\n" "#define VEC_GENERIC_DBL_OR(sign, bits, size, halfsize) VEC_GENERIC_DBL_OP(or, sign, bits, size, halfsize, sign)\n" "#define VEC_GENERIC_DBL_XOR(sign, bits, size, halfsize) VEC_GENERIC_DBL_OP(xor, sign, bits, size, halfsize, sign)\n" "#define VEC_GENERIC_DBL_MIN(sign, bits, size, halfsize) VEC_GENERIC_DBL_OP(min, sign, bits, size, halfsize, sign)\n" "#define VEC_GENERIC_DBL_MAX(sign, bits, size, halfsize) VEC_GENERIC_DBL_OP(max, sign, bits, size, halfsize, sign)\n" "#define VEC_GENERIC_DBL_CMPLT(sign, bits, size, halfsize) VEC_GENERIC_DBL_OP(cmplt, sign, bits, size, halfsize, sign)\n" "#define VEC_GENERIC_DBL_CMPLE(sign, bits, size, halfsize) VEC_GENERIC_DBL_OP(cmple, sign, bits, size, halfsize, sign)\n" "#define VEC_GENERIC_DBL_CMPEQ(sign, bits, size, halfsize) VEC_GENERIC_DBL_OP(cmpeq, sign, bits, size, halfsize, sign)\n" "#define VEC_GENERIC_DBL_CMPGE(sign, bits, size, halfsize) VEC_GENERIC_DBL_OP(cmpge, sign, bits, size, halfsize, sign)\n" "#define VEC_GENERIC_DBL_CMPGT(sign, bits, size, halfsize) VEC_GENERIC_DBL_OP(cmpgt, sign, bits, size, halfsize, sign)\n" "\n" "#define VEC_GENERIC_DBL_NOT(sign, bits, size, halfsize) \\\n" " VEC_FUNC_IMPL v##sign##int##bits##x##size v##sign##int##bits##x##size##_not(v##sign##int##bits##x##size vec) \\\n" " { \\\n" " vec.generic[0] = v##sign##int##bits##x##halfsize##_not(vec.generic[0]); \\\n" " vec.generic[1] = v##sign##int##bits##x##halfsize##_not(vec.generic[1]); \\\n" " \\\n" " return vec; \\\n" " }\n" "\n" "/* ------------------------------------------------------------------------ */\n" "/* PREPROCESSOR HELL INCOMING */\n"; static const char *footer = "#endif /* VEC_IMPL_GENERIC_H_ */\n"; /* ------------------------------------------------------------------------ */ static void print_generic_op(const char *op, int is_signed, int bits, int size) { printf( "#ifndef V%sINT%dx%d_%s_DEFINED\n" "VEC_GENERIC_%s(%s, %d, %d)\n" "# define V%sINT%dx%d_%s_DEFINED\n" "#endif\n", (is_signed ? "" : "U"), bits, size, op, op, (is_signed ? "/* nothing */" : "u"), bits, size, (is_signed ? "" : "U"), bits, size, op); } static void print_generic_dbl_op(const char *op, int is_signed, int bits, int size) { printf( "#ifndef V%sINT%dx%d_%s_DEFINED\n" "VEC_GENERIC_DBL_%s(%s, %d, %d, %d)\n" "# define V%sINT%dx%d_%s_DEFINED\n" "#endif\n\n", (is_signed ? "" : "U"), bits, size, op, op, (is_signed ? "/* nothing */" : "u"), bits, size, size / 2, (is_signed ? "" : "U"), bits, size, op); } typedef void (*print_op_spec)(const char *op, int is_signed, int bits, int size); static inline void print_ops(int is_signed, int bits, int size, print_op_spec print_op) { /* all supported operations here */ static const char *ops[] = { "SPLAT", "LOAD_ALIGNED", "LOAD", "STORE_ALIGNED", "STORE", "ADD", "SUB", "MUL", "DIV", "AVG", "AND", "OR", "XOR", "NOT", "CMPLT", "CMPEQ", "CMPGT", "CMPLE", /* these two must be after CMPLT and CMPGT respectfully, */ "CMPGE", /* because their definitions call those functions */ "MIN", "MAX", "RSHIFT", "LRSHIFT", "LSHIFT", NULL, }; int i; printf("\n\n/* v%sint%dx%d */\n\n", (is_signed ? "u" : ""), bits, size); for (i = 0; ops[i]; i++) print_op(ops[i], is_signed, bits, size); } int main(void) { static struct { int bits, size; print_op_spec print_op; } defs[] = { /* -- 8-bit */ {8, 2, print_generic_op}, {8, 4, print_generic_dbl_op}, {8, 8, print_generic_dbl_op}, {8, 16, print_generic_dbl_op}, {8, 32, print_generic_dbl_op}, {8, 64, print_generic_dbl_op}, /* -- 16-bit */ {16, 2, print_generic_op}, {16, 4, print_generic_dbl_op}, {16, 8, print_generic_dbl_op}, {16, 16, print_generic_dbl_op}, {16, 32, print_generic_dbl_op}, /* -- 32-bit */ {32, 2, print_generic_op}, {32, 4, print_generic_dbl_op}, {32, 8, print_generic_dbl_op}, {32, 16, print_generic_dbl_op}, /* -- 64-bit */ {64, 2, print_generic_op}, {64, 4, print_generic_dbl_op}, {64, 8, print_generic_dbl_op}, }; int i; puts(header); for (i = 0; i < ARRAY_SIZE(defs); i++) { print_ops(1, defs[i].bits, defs[i].size, defs[i].print_op); print_ops(0, defs[i].bits, defs[i].size, defs[i].print_op); } puts(footer); }