/* Compile a C# program. Copyright (C) 2003-2026 Free Software Foundation, Inc. Written by Bruno Haible , 2003. This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include #include /* Specification. */ #include "csharpcomp.h" #include #include #include #include #include #include #include #include "concat-filename.h" #include "cygpath.h" #include "execute.h" #include "spawn-pipe.h" #include "wait-process.h" #include "sh-quote.h" #include "safe-read.h" #include "xmalloca.h" #include "xvasprintf.h" #include "gettext.h" #define _(msgid) dgettext (GNULIB_TEXT_DOMAIN, msgid) /* Survey of C# compilers. Program from mcs mono dotnet csc.dll dotnet csc MSVC csc sscli (non-free) We try the C# compilers in the following order: 1. "mcs", because it is nowadays the "traditional" C# system on Unix. 2. "dotnet" or "csc" from MSVC, because it is another (newer) free C# system. 3. "csc", although it is not free, because it is a kind of "reference implementation" of C#. But the order can be changed through the --enable-csharp configuration option. */ static int name_is_dll (const struct dirent *d) { if (d->d_name[0] != '.') { size_t d_name_len = strlen (d->d_name); if (d_name_len > 4 && memeq (d->d_name + d_name_len - 4, ".dll", 4)) /* Filter out files that start with a lowercase letter and files that contain the substring ".Native.", since on Windows these files produce an error "PE image doesn't contain managed metadata". */ if (d->d_name[0] >= 'A' && d->d_name[0] <= 'Z' && strstr (d->d_name, ".Native.") == NULL) return 1; } return 0; } static int compile_csharp_using_mono (const char * const *sources, unsigned int sources_count, const char * const *libdirs, unsigned int libdirs_count, const char * const *libraries, unsigned int libraries_count, const char *output_file, bool output_is_library, bool optimize, bool debug, bool verbose) { static bool mcs_tested; static bool mcs_present; if (!mcs_tested) { /* Test for presence of mcs: "mcs --version >/dev/null 2>/dev/null" and (to exclude an unrelated 'mcs' program on QNX 6) "mcs --version 2>/dev/null | grep Mono >/dev/null" */ const char *argv[3]; argv[0] = "mcs"; argv[1] = "--version"; argv[2] = NULL; int fd[1]; pid_t child = create_pipe_in ("mcs", "mcs", argv, NULL, NULL, DEV_NULL, true, true, false, fd); mcs_present = false; if (child != -1) { /* Read the subprocess output, and test whether it contains the string "Mono". */ char c[4]; size_t count = 0; while (safe_read (fd[0], &c[count], 1) > 0) { count++; if (count == 4) { if (memeq (c, "Mono", 4)) mcs_present = true; c[0] = c[1]; c[1] = c[2]; c[2] = c[3]; count--; } } close (fd[0]); /* Remove zombie process from process list, and retrieve exit status. */ int exitstatus = wait_subprocess (child, "mcs", false, true, true, false, NULL); if (exitstatus != 0) mcs_present = false; } mcs_tested = true; } if (mcs_present) { unsigned int argc = 1 + (output_is_library ? 1 : 0) + 1 + libdirs_count + libraries_count + (debug ? 1 : 0) + sources_count; const char **argv = (const char **) xmalloca ((argc + 1) * sizeof (const char *)); { const char **argp = argv; *argp++ = "mcs"; if (output_is_library) *argp++ = "-target:library"; { char *option = (char *) xmalloca (5 + strlen (output_file) + 1); memcpy (option, "-out:", 5); strcpy (option + 5, output_file); *argp++ = option; } for (unsigned int i = 0; i < libdirs_count; i++) { char *option = (char *) xmalloca (5 + strlen (libdirs[i]) + 1); memcpy (option, "-lib:", 5); strcpy (option + 5, libdirs[i]); *argp++ = option; } for (unsigned int i = 0; i < libraries_count; i++) { char *option = (char *) xmalloca (11 + strlen (libraries[i]) + 4 + 1); memcpy (option, "-reference:", 11); memcpy (option + 11, libraries[i], strlen (libraries[i])); strcpy (option + 11 + strlen (libraries[i]), ".dll"); *argp++ = option; } if (debug) *argp++ = "-debug"; for (unsigned int i = 0; i < sources_count; i++) { const char *source_file = sources[i]; if (str_endswith (source_file, ".resources")) { char *option = (char *) xmalloca (10 + strlen (source_file) + 1); memcpy (option, "-resource:", 10); strcpy (option + 10, source_file); *argp++ = option; } else *argp++ = source_file; } *argp = NULL; /* Ensure argv length was correctly calculated. */ if (argp - argv != argc) abort (); } if (verbose) { char *command = shell_quote_argv (argv); printf ("%s\n", command); free (command); } int fd[1]; pid_t child = create_pipe_in ("mcs", "mcs", argv, NULL, NULL, NULL, false, true, true, fd); /* Read the subprocess output, copying it to stderr. Drop the last line if it starts with "Compilation succeeded". */ FILE *fp = fdopen (fd[0], "r"); if (fp == NULL) error (EXIT_FAILURE, errno, _("fdopen() failed")); char *line[2]; size_t linesize[2]; line[0] = NULL; linesize[0] = 0; line[1] = NULL; linesize[1] = 0; unsigned int l = 0; size_t linelen[2]; for (;;) { linelen[l] = getline (&line[l], &linesize[l], fp); if (linelen[l] == (size_t)(-1)) break; l = (l + 1) % 2; if (line[l] != NULL) fwrite (line[l], 1, linelen[l], stderr); } l = (l + 1) % 2; if (line[l] != NULL && !(linelen[l] >= 21 && memeq (line[l], "Compilation succeeded", 21))) fwrite (line[l], 1, linelen[l], stderr); if (line[0] != NULL) free (line[0]); if (line[1] != NULL) free (line[1]); fclose (fp); /* Remove zombie process from process list, and retrieve exit status. */ int exitstatus = wait_subprocess (child, "mcs", false, false, true, true, NULL); for (unsigned int i = 1 + (output_is_library ? 1 : 0); i < 1 + (output_is_library ? 1 : 0) + 1 + libdirs_count + libraries_count; i++) freea ((char *) argv[i]); for (unsigned int i = 0; i < sources_count; i++) if (argv[argc - sources_count + i] != sources[i]) freea ((char *) argv[argc - sources_count + i]); freea (argv); return (exitstatus != 0); } else return -1; } static int compile_csharp_using_dotnet (const char * const *sources, unsigned int sources_count, const char * const *libdirs, unsigned int libdirs_count, const char * const *libraries, unsigned int libraries_count, const char *output_file, bool output_is_library, bool optimize, bool debug, bool verbose) { static bool dotnet_tested; static bool dotnet_present; if (!dotnet_tested) { /* Test for presence of dotnet: dotnet --list-runtimes >/dev/null 2>/dev/null && test -n "`dotnet --list-sdks 2>/dev/null`" */ int exitstatus1; { const char *argv[3]; argv[0] = "dotnet"; argv[1] = "--list-runtimes"; argv[2] = NULL; exitstatus1 = execute ("dotnet", "dotnet", argv, NULL, NULL, false, false, true, true, true, false, NULL); } if (exitstatus1 == 0) { const char *argv[3]; argv[0] = "dotnet"; argv[1] = "--list-sdks"; argv[2] = NULL; int fd[1]; pid_t child = create_pipe_in ("dotnet", "dotnet", argv, NULL, NULL, DEV_NULL, true, true, false, fd); if (child != -1) { /* Read the subprocess output, and test whether it is non-empty. */ ptrdiff_t count = 0; for (;;) { char buf[1024]; ptrdiff_t n = safe_read (fd[0], buf, sizeof (buf)); if (n > 0) count += n; else break; } close (fd[0]); /* Remove zombie process from process list, and retrieve exit status. */ int exitstatus = wait_subprocess (child, "dotnet", false, true, true, false, NULL); dotnet_present = (exitstatus == 0 && count > 0); } else dotnet_present = false; } else dotnet_present = false; dotnet_tested = true; } if (dotnet_present) { bool err = false; /* Invoke 'dotnet --list-runtimes' and extract the .NET runtime dir from its output. */ char *dotnet_runtime_dir; { dotnet_runtime_dir = NULL; const char *argv[3]; argv[0] = "dotnet"; argv[1] = "--list-runtimes"; argv[2] = NULL; /* Open a pipe to the program. */ int fd[1]; pid_t child = create_pipe_in ("dotnet", "dotnet", argv, NULL, NULL, DEV_NULL, false, true, false, fd); if (child == -1) { error (0, 0, _("%s subprocess I/O error"), "dotnet"); err = true; } else { /* Retrieve its result. */ FILE *fp = fdopen (fd[0], "r"); if (fp == NULL) error (EXIT_FAILURE, errno, _("fdopen() failed")); char *line = NULL; size_t linesize = 0; for (;;) { size_t linelen = getline (&line, &linesize, fp); if (linelen == (size_t)(-1)) { error (0, 0, _("%s subprocess I/O error"), "dotnet"); err = true; break; } if (linelen > 0 && line[linelen - 1] == '\n') { line[linelen - 1] = '\0'; linelen--; if (linelen > 0 && line[linelen - 1] == '\r') { line[linelen - 1] = '\0'; linelen--; } } /* The line has the structure Microsoft.SUBSYSTEM VERSION [DIRECTORY] */ if (linelen > 22 && memeq (line, "Microsoft.NETCore.App ", 22)) { char *version = line + 22; char *version_end = strchr (version, ' '); if (version_end != NULL && version_end[1] == '[') { *version_end = '\0'; char *dir = version_end + 2; char *dir_end = strchr (dir, ']'); if (dir_end != NULL) { *dir_end = '\0'; dotnet_runtime_dir = xasprintf ("%s/%s", dir, version); break; } } } } free (line); /* Read until EOF (otherwise the child process may get a SIGPIPE signal). */ while (getc (fp) != EOF) ; fclose (fp); /* Remove zombie process from process list, and retrieve exit status. */ int exitstatus = wait_subprocess (child, "dotnet", true, false, true, false, NULL); if (exitstatus != 0) { error (0, 0, _("%s subprocess failed"), "dotnet"); err = true; } } } /* Invoke 'dotnet --list-sdks' and extract the .NET SDK dir from its output. */ char *dotnet_sdk_dir; { dotnet_sdk_dir = NULL; const char *argv[3]; argv[0] = "dotnet"; argv[1] = "--list-sdks"; argv[2] = NULL; /* Open a pipe to the program. */ int fd[1]; pid_t child = create_pipe_in ("dotnet", "dotnet", argv, NULL, NULL, DEV_NULL, false, true, false, fd); if (child == -1) { error (0, 0, _("%s subprocess I/O error"), "dotnet"); err = true; } else { /* Retrieve its result. */ FILE *fp = fdopen (fd[0], "r"); if (fp == NULL) error (EXIT_FAILURE, errno, _("fdopen() failed")); char *line = NULL; size_t linesize = 0; for (;;) { size_t linelen = getline (&line, &linesize, fp); if (linelen == (size_t)(-1)) { error (0, 0, _("%s subprocess I/O error"), "dotnet"); err = true; break; } if (linelen > 0 && line[linelen - 1] == '\n') { line[linelen - 1] = '\0'; linelen--; if (linelen > 0 && line[linelen - 1] == '\r') { line[linelen - 1] = '\0'; linelen--; } } /* The line has the structure VERSION [DIRECTORY] */ char *version = line; char *version_end = strchr (version, ' '); if (version_end != NULL && version_end[1] == '[') { *version_end = '\0'; char *dir = version_end + 2; char *dir_end = strchr (dir, ']'); if (dir_end != NULL) { *dir_end = '\0'; dotnet_sdk_dir = xasprintf ("%s/%s", dir, version); break; } } } free (line); /* Read until EOF (otherwise the child process may get a SIGPIPE signal). */ while (getc (fp) != EOF) ; fclose (fp); /* Remove zombie process from process list, and retrieve exit status. */ int exitstatus = wait_subprocess (child, "dotnet", true, false, true, false, NULL); if (exitstatus != 0) { error (0, 0, _("%s subprocess failed"), "dotnet"); err = true; } } } if (err) return 1; /* Get a list of all *.dll files in dotnet_runtime_dir. */ struct dirent **dlls; int num_dlls = scandir (dotnet_runtime_dir, &dlls, name_is_dll, alphasort); if (num_dlls < 0 && errno == ENOMEM) xalloc_die (); if (num_dlls <= 0) { dlls = NULL; num_dlls = 0; } /* Construct the file name of the 'csc' compiler. */ char *roslyn_dir = xconcatenated_filename (dotnet_sdk_dir, "Roslyn", NULL); char *roslyn_bin_dir = xconcatenated_filename (roslyn_dir, "bincore", NULL); char *csc = xconcatenated_filename (roslyn_bin_dir, "csc.dll", NULL); char *csc_converted = cygpath_w (csc); /* Here, we assume that 'csc' is a native Windows program, therefore we need to use cygpath_w. */ char **malloced = (char **) xmalloca ((1 + libdirs_count + sources_count * 2 + 1) * sizeof (char *)); char **mallocedp = malloced; unsigned int argc = 3 + 1 + 1 + libdirs_count + libraries_count + (optimize ? 1 : 0) + (debug ? 1 : 0) + sources_count + 1 + num_dlls; const char **argv = (const char **) xmalloca ((argc + 1) * sizeof (const char *)); { const char **argp = argv; *argp++ = "dotnet"; *argp++ = csc_converted; *argp++ = "-nologo"; *argp++ = (output_is_library ? "-target:library" : "-target:exe"); { char *output_file_converted = cygpath_w (output_file); *mallocedp++ = output_file_converted; char *option = (char *) xmalloca (5 + strlen (output_file_converted) + 1); memcpy (option, "-out:", 5); strcpy (option + 5, output_file_converted); *argp++ = option; } for (unsigned int i = 0; i < libdirs_count; i++) { const char *libdir = libdirs[i]; char *libdir_converted = cygpath_w (libdir); *mallocedp++ = libdir_converted; char *option = (char *) xmalloca (5 + strlen (libdir_converted) + 1); memcpy (option, "-lib:", 5); strcpy (option + 5, libdir_converted); *argp++ = option; } for (unsigned int i = 0; i < libraries_count; i++) { char *option = (char *) xmalloca (11 + strlen (libraries[i]) + 4 + 1); memcpy (option, "-reference:", 11); memcpy (option + 11, libraries[i], strlen (libraries[i])); strcpy (option + 11 + strlen (libraries[i]), ".dll"); *argp++ = option; } if (optimize) *argp++ = "-optimize+"; if (debug) *argp++ = "-debug+"; for (unsigned int i = 0; i < sources_count; i++) { const char *source_file = sources[i]; char *source_file_converted = cygpath_w (source_file); *mallocedp++ = source_file_converted; if (str_endswith (source_file_converted, ".resources")) { char *option = (char *) xmalloc (10 + strlen (source_file_converted) + 1); memcpy (option, "-resource:", 10); strcpy (option + 10, source_file_converted); *mallocedp++ = option; *argp++ = option; } else *argp++ = source_file_converted; } /* Add -lib and -reference options, so that the compiler finds Object, Console, String, etc. */ { char *dotnet_runtime_dir_converted = cygpath_w (dotnet_runtime_dir); *mallocedp++ = dotnet_runtime_dir_converted; char *option = (char *) xmalloca (5 + strlen (dotnet_runtime_dir_converted) + 1); memcpy (option, "-lib:", 5); strcpy (option + 5, dotnet_runtime_dir_converted); *argp++ = option; } for (unsigned int i = 0; i < num_dlls; i++) { char *option = (char *) xmalloca (11 + strlen (dlls[i]->d_name) + 1); memcpy (option, "-reference:", 11); strcpy (option + 11, dlls[i]->d_name); *argp++ = option; } *argp = NULL; /* Ensure argv length was correctly calculated. */ if (argp - argv != argc) abort (); } if (verbose) { char *command = shell_quote_argv (argv); printf ("%s\n", command); free (command); } int exitstatus = execute ("dotnet", "dotnet", argv, NULL, NULL, false, false, false, false, true, true, NULL); for (unsigned int i = 4; i < 5 + libdirs_count + libraries_count; i++) freea ((char *) argv[i]); for (unsigned int i = 0; i < 1 + num_dlls; i++) freea ((char *) argv[argc - (1 + num_dlls) + i]); while (mallocedp > malloced) free (*--mallocedp); freea (argv); freea (malloced); free (csc_converted); free (csc); free (roslyn_bin_dir); free (roslyn_dir); for (unsigned int i = 0; i < num_dlls; i++) free (dlls[i]); free (dlls); return (exitstatus != 0); } else { static bool csc_tested; static bool csc_present; if (!csc_tested) { /* Test for presence of csc: "csc -help 2>/dev/null | grep -i analyzer >/dev/null \ && ! { csc -help 2>/dev/null | grep -i chicken > /dev/null; }" */ const char *argv[3]; argv[0] = "csc"; argv[1] = "-help"; argv[2] = NULL; int fd[1]; pid_t child = create_pipe_in ("csc", "csc", argv, NULL, NULL, DEV_NULL, true, true, false, fd); if (child != -1) { /* Read the subprocess output, and test whether it contains the string "analyzer" or the string "chicken". */ char c[8]; size_t count = 0; bool seen_analyzer = false; bool seen_chicken = false; csc_present = true; while (safe_read (fd[0], &c[count], 1) > 0) { if (c[count] >= 'A' && c[count] <= 'Z') c[count] += 'a' - 'A'; count++; if (count >= 7) { if (memeq (c, "chicken", 7)) seen_chicken = true; } if (count == 8) { if (memeq (c, "analyzer", 8)) seen_analyzer = true; c[0] = c[1]; c[1] = c[2]; c[2] = c[3]; c[3] = c[4]; c[4] = c[5]; c[5] = c[6]; c[6] = c[7]; count--; } } close (fd[0]); /* Remove zombie process from process list, and retrieve exit status. */ int exitstatus = wait_subprocess (child, "csc", false, true, true, false, NULL); csc_present = (exitstatus == 0 && seen_analyzer && !seen_chicken); } else csc_present = false; csc_tested = true; } if (csc_present) { /* Here, we assume that 'csc' is a native Windows program, therefore we need to use cygpath_w. */ char **malloced = (char **) xmalloca ((1 + libdirs_count + sources_count * 2) * sizeof (char *)); char **mallocedp = malloced; unsigned int argc = 2 + 1 + 1 + libdirs_count + libraries_count + (optimize ? 1 : 0) + (debug ? 1 : 0) + sources_count; const char **argv = (const char **) xmalloca ((argc + 1) * sizeof (const char *)); { const char **argp = argv; *argp++ = "csc"; *argp++ = "-nologo"; *argp++ = (output_is_library ? "-target:library" : "-target:exe"); { char *output_file_converted = cygpath_w (output_file); *mallocedp++ = output_file_converted; char *option = (char *) xmalloca (5 + strlen (output_file_converted) + 1); memcpy (option, "-out:", 5); strcpy (option + 5, output_file_converted); *argp++ = option; } for (unsigned int i = 0; i < libdirs_count; i++) { const char *libdir = libdirs[i]; char *libdir_converted = cygpath_w (libdir); *mallocedp++ = libdir_converted; char *option = (char *) xmalloca (5 + strlen (libdir_converted) + 1); memcpy (option, "-lib:", 5); strcpy (option + 5, libdir_converted); *argp++ = option; } for (unsigned int i = 0; i < libraries_count; i++) { char *option = (char *) xmalloca (11 + strlen (libraries[i]) + 4 + 1); memcpy (option, "-reference:", 11); memcpy (option + 11, libraries[i], strlen (libraries[i])); strcpy (option + 11 + strlen (libraries[i]), ".dll"); *argp++ = option; } if (optimize) *argp++ = "-optimize+"; if (debug) *argp++ = "-debug+"; for (unsigned int i = 0; i < sources_count; i++) { const char *source_file = sources[i]; char *source_file_converted = cygpath_w (source_file); *mallocedp++ = source_file_converted; if (str_endswith (source_file_converted, ".resources")) { char *option = (char *) xmalloc (10 + strlen (source_file_converted) + 1); memcpy (option, "-resource:", 10); strcpy (option + 10, source_file_converted); *mallocedp++ = option; *argp++ = option; } else *argp++ = source_file_converted; } *argp = NULL; /* Ensure argv length was correctly calculated. */ if (argp - argv != argc) abort (); } if (verbose) { char *command = shell_quote_argv (argv); printf ("%s\n", command); free (command); } int exitstatus = execute ("csc", "csc", argv, NULL, NULL, false, false, false, false, true, true, NULL); for (unsigned int i = 3; i < 4 + libdirs_count + libraries_count; i++) freea ((char *) argv[i]); while (mallocedp > malloced) free (*--mallocedp); freea (argv); freea (malloced); return (exitstatus != 0); } else return -1; } } static int compile_csharp_using_sscli (const char * const *sources, unsigned int sources_count, const char * const *libdirs, unsigned int libdirs_count, const char * const *libraries, unsigned int libraries_count, const char *output_file, bool output_is_library, bool optimize, bool debug, bool verbose) { static bool csc_tested; static bool csc_present; if (!csc_tested) { /* Test for presence of csc: "csc -help >/dev/null 2>/dev/null \ && ! { csc -help 2>/dev/null | grep -i chicken > /dev/null; }" */ const char *argv[3]; argv[0] = "csc"; argv[1] = "-help"; argv[2] = NULL; int fd[1]; pid_t child = create_pipe_in ("csc", "csc", argv, NULL, NULL, DEV_NULL, true, true, false, fd); csc_present = false; if (child != -1) { /* Read the subprocess output, and test whether it contains the string "chicken". */ char c[7]; size_t count = 0; csc_present = true; while (safe_read (fd[0], &c[count], 1) > 0) { if (c[count] >= 'A' && c[count] <= 'Z') c[count] += 'a' - 'A'; count++; if (count == 7) { if (memeq (c, "chicken", 7)) csc_present = false; c[0] = c[1]; c[1] = c[2]; c[2] = c[3]; c[3] = c[4]; c[4] = c[5]; c[5] = c[6]; count--; } } close (fd[0]); /* Remove zombie process from process list, and retrieve exit status. */ int exitstatus = wait_subprocess (child, "csc", false, true, true, false, NULL); if (exitstatus != 0) csc_present = false; } csc_tested = true; } if (csc_present) { /* Here, we assume that 'csc' is a native Windows program, therefore we need to use cygpath_w. */ char **malloced = (char **) xmalloca ((1 + libdirs_count + sources_count * 2) * sizeof (char *)); char **mallocedp = malloced; unsigned int argc = 2 + 1 + 1 + libdirs_count + libraries_count + (optimize ? 1 : 0) + (debug ? 1 : 0) + sources_count; const char **argv = (const char **) xmalloca ((argc + 1) * sizeof (const char *)); { const char **argp = argv; *argp++ = "csc"; *argp++ = "-nologo"; *argp++ = (output_is_library ? "-target:library" : "-target:exe"); { char *output_file_converted = cygpath_w (output_file); *mallocedp++ = output_file_converted; char *option = (char *) xmalloca (5 + strlen (output_file_converted) + 1); memcpy (option, "-out:", 5); strcpy (option + 5, output_file_converted); *argp++ = option; } for (unsigned int i = 0; i < libdirs_count; i++) { const char *libdir = libdirs[i]; char *libdir_converted = cygpath_w (libdir); *mallocedp++ = libdir_converted; char *option = (char *) xmalloca (5 + strlen (libdir_converted) + 1); memcpy (option, "-lib:", 5); strcpy (option + 5, libdir_converted); *argp++ = option; } for (unsigned int i = 0; i < libraries_count; i++) { char *option = (char *) xmalloca (11 + strlen (libraries[i]) + 4 + 1); memcpy (option, "-reference:", 11); memcpy (option + 11, libraries[i], strlen (libraries[i])); strcpy (option + 11 + strlen (libraries[i]), ".dll"); *argp++ = option; } if (optimize) *argp++ = "-optimize+"; if (debug) *argp++ = "-debug+"; for (unsigned int i = 0; i < sources_count; i++) { const char *source_file = sources[i]; char *source_file_converted = cygpath_w (source_file); *mallocedp++ = source_file_converted; if (str_endswith (source_file_converted, ".resources")) { char *option = (char *) xmalloc (10 + strlen (source_file_converted) + 1); memcpy (option, "-resource:", 10); strcpy (option + 10, source_file_converted); *mallocedp++ = option; *argp++ = option; } else *argp++ = source_file_converted; } *argp = NULL; /* Ensure argv length was correctly calculated. */ if (argp - argv != argc) abort (); } if (verbose) { char *command = shell_quote_argv (argv); printf ("%s\n", command); free (command); } int exitstatus = execute ("csc", "csc", argv, NULL, NULL, false, false, false, false, true, true, NULL); for (unsigned int i = 3; i < 4 + libdirs_count + libraries_count; i++) freea ((char *) argv[i]); while (mallocedp > malloced) free (*--mallocedp); freea (argv); freea (malloced); return (exitstatus != 0); } else return -1; } bool compile_csharp_class (const char * const *sources, unsigned int sources_count, const char * const *libdirs, unsigned int libdirs_count, const char * const *libraries, unsigned int libraries_count, const char *output_file, bool optimize, bool debug, bool verbose) { bool output_is_library = str_endswith (output_file, ".dll"); int result; /* First try the C# implementation specified through --enable-csharp. */ #if CSHARP_CHOICE_MONO result = compile_csharp_using_mono (sources, sources_count, libdirs, libdirs_count, libraries, libraries_count, output_file, output_is_library, optimize, debug, verbose); if (result >= 0) return (bool) result; #endif #if CSHARP_CHOICE_DOTNET result = compile_csharp_using_dotnet (sources, sources_count, libdirs, libdirs_count, libraries, libraries_count, output_file, output_is_library, optimize, debug, verbose); if (result >= 0) return (bool) result; #endif /* Then try the remaining C# implementations in our standard order. */ #if !CSHARP_CHOICE_MONO result = compile_csharp_using_mono (sources, sources_count, libdirs, libdirs_count, libraries, libraries_count, output_file, output_is_library, optimize, debug, verbose); if (result >= 0) return (bool) result; #endif #if !CSHARP_CHOICE_DOTNET result = compile_csharp_using_dotnet (sources, sources_count, libdirs, libdirs_count, libraries, libraries_count, output_file, output_is_library, optimize, debug, verbose); if (result >= 0) return (bool) result; #endif result = compile_csharp_using_sscli (sources, sources_count, libdirs, libdirs_count, libraries, libraries_count, output_file, output_is_library, optimize, debug, verbose); if (result >= 0) return (bool) result; error (0, 0, _("C# compiler not found, try installing mono or dotnet")); return true; }