// Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // +build ignore /* * Translate a .goc file into a .c file. A .goc file is a combination * of a limited form of Go with C. */ /* package PACKAGENAME {# line} func NAME([NAME TYPE { , NAME TYPE }]) [(NAME TYPE { , NAME TYPE })] \{ C code with proper brace nesting \} */ /* * We generate C code which implements the function such that it can * be called from Go and executes the C code. */ #include #include #include #include #include #include #include /* Package path to use. */ static const char *pkgpath; /* Package prefix to use. */ static const char *prefix; /* File and line number */ static const char *file; static unsigned int lineno = 1; /* List of names and types. */ struct params { struct params *next; char *name; char *type; }; char *argv0; static void sysfatal(char *fmt, ...) { char buf[256]; va_list arg; va_start(arg, fmt); vsnprintf(buf, sizeof buf, fmt, arg); va_end(arg); fprintf(stderr, "%s: %s\n", argv0 ? argv0 : "", buf); exit(1); } /* Unexpected EOF. */ static void bad_eof(void) { sysfatal("%s:%ud: unexpected EOF\n", file, lineno); } /* Out of memory. */ static void bad_mem(void) { sysfatal("%s:%ud: out of memory\n", file, lineno); } /* Allocate memory without fail. */ static void * xmalloc(unsigned int size) { void *ret = malloc(size); if (ret == NULL) bad_mem(); return ret; } /* Reallocate memory without fail. */ static void* xrealloc(void *buf, unsigned int size) { void *ret = realloc(buf, size); if (ret == NULL) bad_mem(); return ret; } /* Copy a string into memory without fail. */ static char * xstrdup(const char *p) { char *ret = xmalloc(strlen(p) + 1); strcpy(ret, p); return ret; } /* Free a list of parameters. */ static void free_params(struct params *p) { while (p != NULL) { struct params *next; next = p->next; free(p->name); free(p->type); free(p); p = next; } } /* Read a character, tracking lineno. */ static int getchar_update_lineno(void) { int c; c = getchar(); if (c == '\n') ++lineno; return c; } /* Read a character, giving an error on EOF, tracking lineno. */ static int getchar_no_eof(void) { int c; c = getchar_update_lineno(); if (c == EOF) bad_eof(); return c; } /* Read a character, skipping comments. */ static int getchar_skipping_comments(void) { int c; while (1) { c = getchar_update_lineno(); if (c != '/') return c; c = getchar(); if (c == '/') { do { c = getchar_update_lineno(); } while (c != EOF && c != '\n'); return c; } else if (c == '*') { while (1) { c = getchar_update_lineno(); if (c == EOF) return EOF; if (c == '*') { do { c = getchar_update_lineno(); } while (c == '*'); if (c == '/') break; } } } else { ungetc(c, stdin); return '/'; } } } /* * Read and return a token. Tokens are string or character literals * or else delimited by whitespace or by [(),{}]. * The latter are all returned as single characters. */ static char * read_token(void) { int c, q; char *buf; unsigned int alc, off; const char* delims = "(),{}"; while (1) { c = getchar_skipping_comments(); if (c == EOF) return NULL; if (!isspace(c)) break; } alc = 16; buf = xmalloc(alc + 1); off = 0; if(c == '"' || c == '\'') { q = c; buf[off] = c; ++off; while (1) { if (off+2 >= alc) { // room for c and maybe next char alc *= 2; buf = xrealloc(buf, alc + 1); } c = getchar_no_eof(); buf[off] = c; ++off; if(c == q) break; if(c == '\\') { buf[off] = getchar_no_eof(); ++off; } } } else if (strchr(delims, c) != NULL) { buf[off] = c; ++off; } else { while (1) { if (off >= alc) { alc *= 2; buf = xrealloc(buf, alc + 1); } buf[off] = c; ++off; c = getchar_skipping_comments(); if (c == EOF) break; if (isspace(c) || strchr(delims, c) != NULL) { if (c == '\n') lineno--; ungetc(c, stdin); break; } } } buf[off] = '\0'; return buf; } /* Read a token, giving an error on EOF. */ static char * read_token_no_eof(void) { char *token = read_token(); if (token == NULL) bad_eof(); return token; } /* Read the package clause, and return the package name. */ static char * read_package(void) { char *token; token = read_token_no_eof(); if (token == NULL) sysfatal("%s:%ud: no token\n", file, lineno); if (strcmp(token, "package") != 0) { sysfatal("%s:%ud: expected \"package\", got \"%s\"\n", file, lineno, token); } return read_token_no_eof(); } /* Read and copy preprocessor lines. */ static void read_preprocessor_lines(void) { while (1) { int c; do { c = getchar_skipping_comments(); } while (isspace(c)); if (c != '#') { ungetc(c, stdin); break; } putchar(c); do { c = getchar_update_lineno(); putchar(c); } while (c != '\n'); } } /* * Read a type in Go syntax and return a type in C syntax. We only * permit basic types and pointers. */ static char * read_type(void) { char *p, *op, *q; int pointer_count; unsigned int len; p = read_token_no_eof(); if (*p != '*') { /* Convert the Go type "int" to the C type "intgo", and similarly for "uint". */ if (strcmp(p, "int") == 0) return xstrdup("intgo"); else if (strcmp(p, "uint") == 0) return xstrdup("uintgo"); return p; } op = p; pointer_count = 0; while (*p == '*') { ++pointer_count; ++p; } /* Convert the Go type "int" to the C type "intgo", and similarly for "uint". */ if (strcmp(p, "int") == 0) p = (char *) "intgo"; else if (strcmp(p, "uint") == 0) p = (char *) "uintgo"; len = strlen(p); q = xmalloc(len + pointer_count + 1); memcpy(q, p, len); while (pointer_count > 0) { q[len] = '*'; ++len; --pointer_count; } q[len] = '\0'; free(op); return q; } /* * Read a list of parameters. Each parameter is a name and a type. * The list ends with a ')'. We have already read the '('. */ static struct params * read_params() { char *token; struct params *ret, **pp, *p; ret = NULL; pp = &ret; token = read_token_no_eof(); if (strcmp(token, ")") != 0) { while (1) { p = xmalloc(sizeof(struct params)); p->name = token; p->type = read_type(); p->next = NULL; *pp = p; pp = &p->next; token = read_token_no_eof(); if (strcmp(token, ",") != 0) break; token = read_token_no_eof(); } } if (strcmp(token, ")") != 0) { sysfatal("%s:%ud: expected '('\n", file, lineno); } return ret; } /* * Read a function header. This reads up to and including the initial * '{' character. Returns 1 if it read a header, 0 at EOF. */ static int read_func_header(char **name, struct params **params, struct params **rets) { int lastline; char *token; lastline = -1; while (1) { token = read_token(); if (token == NULL) return 0; if (strcmp(token, "func") == 0) { if(lastline != -1) printf("\n"); break; } if (lastline != lineno) { if (lastline == lineno-1) printf("\n"); else printf("\n#line %d \"%s\"\n", lineno, file); lastline = lineno; } printf("%s ", token); } *name = read_token_no_eof(); token = read_token(); if (token == NULL || strcmp(token, "(") != 0) { sysfatal("%s:%ud: expected \"(\"\n", file, lineno); } *params = read_params(); token = read_token(); if (token == NULL || strcmp(token, "(") != 0) *rets = NULL; else { *rets = read_params(); token = read_token(); } if (token == NULL || strcmp(token, "{") != 0) { sysfatal("%s:%ud: expected \"{\"\n", file, lineno); } return 1; } /* Write out parameters. */ static void write_params(struct params *params, int *first) { struct params *p; for (p = params; p != NULL; p = p->next) { if (*first) *first = 0; else printf(", "); printf("%s %s", p->type, p->name); } } /* Define the gcc function return type if necessary. */ static void define_gcc_return_type(char *package, char *name, struct params *rets) { struct params *p; if (rets == NULL || rets->next == NULL) return; printf("struct %s_%s_ret {\n", package, name); for (p = rets; p != NULL; p = p->next) printf(" %s %s;\n", p->type, p->name); printf("};\n"); } /* Write out the gcc function return type. */ static void write_gcc_return_type(char *package, char *name, struct params *rets) { if (rets == NULL) printf("void"); else if (rets->next == NULL) printf("%s", rets->type); else printf("struct %s_%s_ret", package, name); } /* Write out a gcc function header. */ static void write_gcc_func_header(char *package, char *name, struct params *params, struct params *rets) { int first; struct params *p; define_gcc_return_type(package, name, rets); write_gcc_return_type(package, name, rets); printf(" %s_%s(", package, name); first = 1; write_params(params, &first); printf(") asm (\""); if (pkgpath != NULL) printf("%s", pkgpath); else if (prefix != NULL) printf("%s.%s", prefix, package); else printf("%s", package); printf(".%s\");\n", name); write_gcc_return_type(package, name, rets); printf(" %s_%s(", package, name); first = 1; write_params(params, &first); printf(")\n{\n"); for (p = rets; p != NULL; p = p->next) printf(" %s %s;\n", p->type, p->name); } /* Write out a gcc function trailer. */ static void write_gcc_func_trailer(char *package, char *name, struct params *rets) { if (rets == NULL) ; else if (rets->next == NULL) printf("return %s;\n", rets->name); else { struct params *p; printf(" {\n struct %s_%s_ret __ret;\n", package, name); for (p = rets; p != NULL; p = p->next) printf(" __ret.%s = %s;\n", p->name, p->name); printf(" return __ret;\n }\n"); } printf("}\n"); } /* Write out a function header. */ static void write_func_header(char *package, char *name, struct params *params, struct params *rets) { write_gcc_func_header(package, name, params, rets); printf("#line %d \"%s\"\n", lineno, file); } /* Write out a function trailer. */ static void write_func_trailer(char *package, char *name, struct params *rets) { write_gcc_func_trailer(package, name, rets); } /* * Read and write the body of the function, ending in an unnested } * (which is read but not written). */ static void copy_body(void) { int nesting = 0; while (1) { int c; c = getchar_no_eof(); if (c == '}' && nesting == 0) return; putchar(c); switch (c) { default: break; case '{': ++nesting; break; case '}': --nesting; break; case '/': c = getchar_update_lineno(); putchar(c); if (c == '/') { do { c = getchar_no_eof(); putchar(c); } while (c != '\n'); } else if (c == '*') { while (1) { c = getchar_no_eof(); putchar(c); if (c == '*') { do { c = getchar_no_eof(); putchar(c); } while (c == '*'); if (c == '/') break; } } } break; case '"': case '\'': { int delim = c; do { c = getchar_no_eof(); putchar(c); if (c == '\\') { c = getchar_no_eof(); putchar(c); c = '\0'; } } while (c != delim); } break; } } } /* Process the entire file. */ static void process_file(void) { char *package, *name; struct params *params, *rets; package = read_package(); read_preprocessor_lines(); while (read_func_header(&name, ¶ms, &rets)) { write_func_header(package, name, params, rets); copy_body(); write_func_trailer(package, name, rets); free(name); free_params(params); free_params(rets); } free(package); } static void usage(void) { sysfatal("Usage: goc2c [--go-pkgpath PKGPATH] [--go-prefix PREFIX] [file]\n"); } void main(int argc, char **argv) { char *goarch; argv0 = argv[0]; while(argc > 1 && argv[1][0] == '-') { if(strcmp(argv[1], "-") == 0) break; if (strcmp(argv[1], "--go-pkgpath") == 0 && argc > 2) { pkgpath = argv[2]; argc--; argv++; } else if (strcmp(argv[1], "--go-prefix") == 0 && argc > 2) { prefix = argv[2]; argc--; argv++; } else usage(); argc--; argv++; } if(argc <= 1 || strcmp(argv[1], "-") == 0) { file = ""; process_file(); exit(0); } if(argc > 2) usage(); file = argv[1]; if(freopen(file, "r", stdin) == 0) { sysfatal("open %s: %r\n", file); } printf("// AUTO-GENERATED by autogen.sh; DO NOT EDIT\n\n"); process_file(); exit(0); }