/************************************************************************** * * Copyright 2009 VMware, Inc. * All Rights Reserved. * * 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, sub license, 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 (including the * next paragraph) 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 NON-INFRINGEMENT. * IN NO EVENT SHALL TUNGSTEN GRAPHICS AND/OR ITS SUPPLIERS 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. * **************************************************************************/ #include #include #include "sl_pp_expression.h" #include "sl_pp_process.h" static int _macro_is_defined(struct sl_pp_context *context, int macro_name) { unsigned int i; struct sl_pp_macro *macro; for (i = 0; i < context->num_extensions; i++) { if (macro_name == context->extensions[i].name) { return 1; } } for (macro = context->macro; macro; macro = macro->next) { if (macro_name == macro->name) { return 1; } } return 0; } static int _parse_defined(struct sl_pp_context *context, struct sl_pp_token_buffer *buffer, struct sl_pp_process_state *state) { struct sl_pp_token_info input; int parens = 0; int defined; struct sl_pp_token_info result; if (sl_pp_token_buffer_skip_white(buffer, &input)) { return -1; } if (input.token == SL_PP_LPAREN) { if (sl_pp_token_buffer_skip_white(buffer, &input)) { return -1; } parens = 1; } if (input.token != SL_PP_IDENTIFIER) { strcpy(context->error_msg, "expected an identifier"); return -1; } defined = _macro_is_defined(context, input.data.identifier); if (parens) { if (sl_pp_token_buffer_skip_white(buffer, &input)) { return -1; } if (input.token != SL_PP_RPAREN) { strcpy(context->error_msg, "expected `)'"); return -1; } } result.token = SL_PP_UINT; result.data._uint = (defined ? context->dict._1 : context->dict._0); if (sl_pp_process_out(state, &result)) { strcpy(context->error_msg, "out of memory"); return -1; } return 0; } static unsigned int _evaluate_if_stack(struct sl_pp_context *context) { unsigned int i; for (i = context->if_ptr; i < SL_PP_MAX_IF_NESTING; i++) { if (!context->if_stack[i].u.condition) { return 0; } } return 1; } static int _parse_if(struct sl_pp_context *context, struct sl_pp_token_buffer *buffer) { struct sl_pp_process_state state; int found_end = 0; struct sl_pp_token_info eof; int result; if (!context->if_ptr) { strcpy(context->error_msg, "`#if' nesting too deep"); return -1; } memset(&state, 0, sizeof(state)); while (!found_end) { struct sl_pp_token_info input; sl_pp_token_buffer_get(buffer, &input); switch (input.token) { case SL_PP_WHITESPACE: break; case SL_PP_IDENTIFIER: if (input.data.identifier == context->dict.defined) { if (_parse_defined(context, buffer, &state)) { free(state.out); return -1; } } else { sl_pp_token_buffer_unget(buffer, &input); if (sl_pp_macro_expand(context, buffer, NULL, &state, sl_pp_macro_expand_unknown_to_0)) { free(state.out); return -1; } } break; case SL_PP_NEWLINE: case SL_PP_EOF: found_end = 1; break; default: if (sl_pp_process_out(&state, &input)) { strcpy(context->error_msg, "out of memory"); free(state.out); return -1; } } } eof.token = SL_PP_EOF; if (sl_pp_process_out(&state, &eof)) { strcpy(context->error_msg, "out of memory"); free(state.out); return -1; } if (sl_pp_execute_expression(context, state.out, &result)) { free(state.out); return -1; } free(state.out); context->if_ptr--; context->if_stack[context->if_ptr].value = 0; context->if_stack[context->if_ptr].u.condition = result ? 1 : 0; context->if_value = _evaluate_if_stack(context); return 0; } static int _parse_else(struct sl_pp_context *context) { union sl_pp_if_state *state = &context->if_stack[context->if_ptr]; if (context->if_ptr == SL_PP_MAX_IF_NESTING) { strcpy(context->error_msg, "no matching `#if'"); return -1; } if (state->u.went_thru_else) { strcpy(context->error_msg, "no matching `#if'"); return -1; } /* Once we had a true condition, the subsequent #elifs should always be false. */ state->u.had_true_cond |= state->u.condition; /* Update current condition value and mark that we are in the #else block. */ state->u.condition = !(state->u.had_true_cond | state->u.condition); state->u.went_thru_else = 1; context->if_value = _evaluate_if_stack(context); return 0; } int sl_pp_process_if(struct sl_pp_context *context, struct sl_pp_token_buffer *buffer) { return _parse_if(context, buffer); } int sl_pp_process_ifdef(struct sl_pp_context *context, const struct sl_pp_token_info *input, unsigned int first, unsigned int last) { unsigned int i; if (!context->if_ptr) { strcpy(context->error_msg, "`#if' nesting too deep"); return -1; } for (i = first; i < last; i++) { switch (input[i].token) { case SL_PP_IDENTIFIER: context->if_ptr--; context->if_stack[context->if_ptr].value = 0; context->if_stack[context->if_ptr].u.condition = _macro_is_defined(context, input[i].data.identifier); context->if_value = _evaluate_if_stack(context); return 0; case SL_PP_WHITESPACE: break; default: strcpy(context->error_msg, "expected an identifier"); return -1; } } strcpy(context->error_msg, "expected an identifier"); return -1; } int sl_pp_process_ifndef(struct sl_pp_context *context, const struct sl_pp_token_info *input, unsigned int first, unsigned int last) { unsigned int i; if (!context->if_ptr) { strcpy(context->error_msg, "`#if' nesting too deep"); return -1; } for (i = first; i < last; i++) { switch (input[i].token) { case SL_PP_IDENTIFIER: context->if_ptr--; context->if_stack[context->if_ptr].value = 0; context->if_stack[context->if_ptr].u.condition = !_macro_is_defined(context, input[i].data.identifier); context->if_value = _evaluate_if_stack(context); return 0; case SL_PP_WHITESPACE: break; default: strcpy(context->error_msg, "expected an identifier"); return -1; } } strcpy(context->error_msg, "expected an identifier"); return -1; } int sl_pp_process_elif(struct sl_pp_context *context, struct sl_pp_token_buffer *buffer) { if (_parse_else(context)) { return -1; } if (context->if_stack[context->if_ptr].u.condition) { context->if_ptr++; if (_parse_if(context, buffer)) { return -1; } } /* We are still in the #if block. */ context->if_stack[context->if_ptr].u.went_thru_else = 0; return 0; } int sl_pp_process_else(struct sl_pp_context *context, const struct sl_pp_token_info *input, unsigned int first, unsigned int last) { return _parse_else(context); } int sl_pp_process_endif(struct sl_pp_context *context, const struct sl_pp_token_info *input, unsigned int first, unsigned int last) { if (context->if_ptr == SL_PP_MAX_IF_NESTING) { strcpy(context->error_msg, "no matching `#if'"); return -1; } context->if_ptr++; context->if_value = _evaluate_if_stack(context); return 0; }