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path: root/src/backend/targets/C/ast_to_c.c
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#ifndef AST_TO_C_C
#define AST_TO_C_C AST_TO_C_C
#include <ast_to_c.h>
#include <print.h>

void ast_to_c(char *output_name,struct AST_Translation_Unit *tree)
{
	size_t output_name_length;
	char *hold_name;
	FILE *hold_out;

	if(output_name!=NULL)
	{
		output_name_length=strnlen(output_name,1000);

		hold_name=calloc(output_name_length+100,1);
		memcpy(hold_name,output_name,output_name_length);

		memcpy(hold_name+output_name_length,".h",sizeof(".h"));
		hold_out=fopen(hold_name,"w");
			ast_translation_unit_to_c_print_header_part(hold_out,output_name,(struct AST_Translation_Unit*)tree);
		fclose(hold_out);

		memcpy(hold_name+output_name_length,".c",sizeof(".c"));
		hold_out=fopen(hold_name,"w");
			ast_translation_unit_to_c_print_body_part(hold_out,output_name,(struct AST_Translation_Unit*)tree);
		fclose(hold_out);

		memcpy(hold_name+output_name_length,"_external.h",sizeof("_external.h"));
		hold_out=fopen(hold_name,"w");
			ast_translation_unit_to_c_print_external_commands(hold_out,output_name,(struct AST_Translation_Unit*)tree);
		fclose(hold_out);

		free(hold_name);

	}else
	{
		ast_translation_unit_to_c_print_external_commands(stdout,NULL,(struct AST_Translation_Unit*)tree);
		ast_translation_unit_to_c_print_header_part(stdout,NULL,(struct AST_Translation_Unit*)tree);
		ast_translation_unit_to_c_print_body_part(stdout,NULL,(struct AST_Translation_Unit*)tree);
	}

}
void ast_translation_unit_to_c_print_base_name(FILE *out, char *base_name)
{
	size_t i;
	for(i=0;i<1000 && base_name[i]!='\0';++i)
		fprintf(out,"%c",toupper(base_name[i]));
}
void ast_translation_unit_to_c_print_header_string(FILE *out,char *base_name,char *file_suffix)
{
	fprintf(out,"#ifndef ");
	ast_translation_unit_to_c_print_base_name(out,base_name);
	fprintf(out,"%s\n#define ",file_suffix);
	ast_translation_unit_to_c_print_base_name(out,base_name);
	fprintf(out,"%s ",file_suffix);
	ast_translation_unit_to_c_print_base_name(out,base_name);
	fprintf(out,"%s\n",file_suffix);
}
void ast_translation_unit_to_c_print_footer_string(FILE *out,char *base_name,char *file_suffix)
{
	fprintf(out,"\n#endif //#ifndef ");
	ast_translation_unit_to_c_print_base_name(out,base_name);
	fprintf(out,"%s",file_suffix);
}
void ast_translation_unit_to_c_print_header_part(FILE *out,char *base_name,struct AST_Translation_Unit *translation_unit)
{
	size_t i;
	if(base_name)
	{
		ast_translation_unit_to_c_print_header_string(out,base_name,"_H");
		fprintf(out,"#include<stdlib.h>\n\n");
	}

	ast_to_c_print_internal_stuff_for_header(out,translation_unit);

	for(i=0;i<translation_unit->number_of_machines;++i)
		ast_machine_to_c_make_header_part(out,translation_unit->machines[i]);

	ast_machines_to_c_array(out,translation_unit);

	if(base_name)
		ast_translation_unit_to_c_print_footer_string(out,base_name,"_H");
}
void ast_translation_unit_to_c_print_body_part(FILE *out,char *base_name,struct AST_Translation_Unit *translation_unit)
{
	size_t i;

	if(base_name)
	{
		ast_translation_unit_to_c_print_header_string(out,base_name,"_C");
		fprintf(out,"#include \"%s.h\"\n",base_name);
		fprintf(out,"#include \"%s_external.h\"\n\n",base_name);
	}

	for(i=0;i<translation_unit->number_of_machines;++i)
		ast_machine_to_c_make_body_part(out,translation_unit->machines[i]);

	ast_to_c_print_internal_stuff_for_body(out);

	if(base_name)
		ast_translation_unit_to_c_print_footer_string(out,base_name,"_C");
}
void ast_translation_unit_to_c_print_external_commands(FILE *out,char *base_name,struct AST_Translation_Unit *translation_unit)
{
	if(base_name)
	{
		ast_translation_unit_to_c_print_header_string(out,base_name,"_EXTERNAL_H");
		fprintf(out,"#include \"%s.h\"\n\n",base_name);
	}

	Map_Map_Extended(translation_unit->used_commands_map,(void (*)(void*,void*))ast_command_to_c_extern_declaration,out);

	if(base_name)
	{
		ast_translation_unit_to_c_print_footer_string(out,base_name,"_EXTERNAL_H");
	}
}
void ast_machine_to_c(FILE *out,struct AST_Machine *machine)
{

	assert(out!=NULL && machine!=NULL && machine->type==AST_TYPE_MACHINE);


	ast_machine_to_c_make_header_part(out,machine);
	ast_machine_to_c_make_body_part(out,machine);

}
void ast_machine_to_c_make_body_part(FILE *out,struct AST_Machine *machine)
{
	size_t i;
	struct State_And_Transitions **table;

	table=extract_transition_table(machine->states,machine->transitions);

	for(i=0;i<machine->states->number_of_states;++i)
	{
		ast_state_to_c_signature(out,machine,machine->states->states[i]);
		fprintf(out,"\n{\n");
		ast_transitions_of_state_to_c(out,machine,table[i]);
		fprintf(out,"\n}\n");
	}
}
void ast_machine_to_c_make_header_part(FILE *out,struct AST_Machine *machine)
{
	ast_events_to_c(out,machine);
	ast_states_to_c(out,machine);
}
void ast_events_to_c(FILE *out,struct AST_Machine *machine)
{
	size_t i;

	assert(out!=NULL && machine!=NULL && machine->type==AST_TYPE_MACHINE);

	fprintf(out,"enum ");
	ast_machine_enum_tag(out,machine);
	fprintf(out,"\n{\n");

	for(i=0;i<machine->events->number_of_events;++i)
	{
		fprintf(out,"\t");
		ast_event_to_c_enum(out,machine,machine->events->events[i]);
		fprintf(out,",\n");
	}
	fprintf(out,"};\n");
}
void ast_states_to_c(FILE *out,struct AST_Machine *machine)
{
	size_t i;
	assert(out!=NULL && machine!=NULL && machine->type==AST_TYPE_MACHINE);
	for(i=0;i<machine->states->number_of_states;++i)
	{
		fprintf(out,"extern ");
		ast_state_to_c_signature(out,machine,machine->states->states[i]);
		fprintf(out,";\n");
	}
}
void ast_transitions_of_state_to_c(FILE *out,struct AST_Machine *machine,struct State_And_Transitions *vector)
{
	size_t i;
	//fprintf(out,"\tmachine_buffer_t *hold_buffer;\n\thold_buffer=input;\n\n");
	
	if(vector->number_of_transitions>0)
	{
		fprintf(out,"\tswitch(event)\n\t{\n");
		for(i=0;i<vector->number_of_transitions;++i)
		{
			fprintf(out,"\t\tcase ");
			ast_event_to_c_enum(out,machine,vector->transitions[i]->event);

			fprintf(out,":\n");
			//ast_pipeline_to_c(out,3,vector->transitions[i]->pipeline);
			ast_statement_to_c(out,3,vector->transitions[i]->statement);
			fprintf(out,"\t\t\tmachine_states[");
			ast_token_to_c(out,machine->id);
			fprintf(out,"]=");
			ast_state_to_c_function_name(out,machine,vector->transitions[i]->to);
			fprintf(out,";\n\t\t\tbreak;\n");
		}
		fprintf(out,"\t}\n");
	}
	fprintf(out,"\tdelete_machine_buffer(input);\n");

}
/*prints the enum tag for the given machine*/
void ast_machine_enum_tag(FILE *out,struct AST_Machine *machine)
{
	fprintf(out,"MACHINE_");
	ast_token_to_c(out,machine->id);
	fprintf(out,"_EVENTS_ENUM");
}
void ast_state_to_c_signature(FILE *out,struct AST_Machine *machine,struct AST_State *state)
{
	fprintf(out,"void ");
	ast_state_to_c_function_name(out,machine,state);
	fprintf(out,"(int event,machine_buffer_t *input)");
}
void ast_token_to_c(FILE *out,struct token *token)
{
	size_t i;

	assert(out!=NULL && token!=NULL);

	for(i=0;i<token->size;++i)
		fprintf(out,"%c",token->data[i]);
}
void ast_pipeline_to_c(FILE *out,size_t indentation,struct AST_Pipeline *pipeline)
{
	size_t i;

	if(pipeline==NULL) return;

	for(i=0;i<pipeline->size;++i)
	{
		ast_to_c_print_tabs(out,indentation);
		fprintf(out,"input=");
		ast_command_to_c(out,pipeline->pipeline[i],"input");
		fprintf(out,";\n");
	}
	//ast_to_c_print_tabs(out,indentation);
}
void ast_command_to_c(FILE *out,struct AST_Command *command,char *hold_buffer)
{
	ast_token_to_c(out,command->function_name);
	fprintf(out,"(");
	if(command->argument==NULL)
		fprintf(out,"NULL");
	else
		ast_token_to_c(out,command->argument);
	fprintf(out,",%s)",hold_buffer);
}

void ast_command_to_c_extern_declaration(struct AST_Command *command,FILE *out)
{
	fprintf(out,"extern machine_buffer_t* ");
	ast_token_to_c(out,command->function_name);
	fprintf(out,"(machine_buffer_t *arguments,machine_buffer_t *input);\n");
}
void ast_to_c_print_tabs(FILE *out,size_t number_of_tabs)
{
	size_t i;
	for(i=0;i<number_of_tabs;++i)
		fprintf(out,"\t");
}
void ast_machines_to_c_array(FILE *out,struct AST_Translation_Unit *translation_unit)
{
	size_t i;

	fprintf(out,"void (*machine_states[])(int,machine_buffer_t*)={");
	for(i=0;i<translation_unit->number_of_machines;++i)
	{
		ast_state_to_c_function_name(out,translation_unit->machines[i],translation_unit->machines[i]->starting_state);
		fprintf(out,",");
	}	
	fprintf(out,"};\n");
}
void ast_machines_to_c_enum(FILE *out,struct AST_Translation_Unit *translation_unit)
{
	size_t i;
	fprintf(out,"enum MACHINES_ENUM\n{\n");
	for(i=0;i<translation_unit->number_of_machines;++i)
	{
		fprintf(out,"\t");
		ast_token_to_c(out,translation_unit->machines[i]->id);
		fprintf(out,",\n");
	}

	fprintf(out,"\tMACHINES_ENUM_END\n};\n");
}
void ast_state_to_c_function_name(FILE *out,struct AST_Machine *machine,struct AST_State *state)
{
	fprintf(out,"machine_");
	ast_token_to_c(out,machine->id);	
	fprintf(out,"_state_");
	ast_token_to_c(out,state->name);
}
void ast_event_to_c_enum(FILE *out,struct AST_Machine *machine,struct AST_Event *event)
{
	ast_token_to_c(out,machine->id);
	fprintf(out,"_EVENT_");
	ast_token_to_c(out,event->name);
}
void ast_to_c_print_internal_stuff_for_header(FILE *out,struct AST_Translation_Unit *translation_unit)
{
	fprintf(out,"\n\n");
	ast_machines_to_c_enum(out,translation_unit);
	fprintf(out,"\n\n");


	ast_to_c_print_comment(out,"\tthis is the structure that facilitates data exchange");
	fprintf(out,"typedef struct machine_buffer_t \n{"
		       "\n\tsize_t size;\n\tunsigned char buffer[];\n} machine_buffer_t;\n\n");


	ast_to_c_print_comment(out,	"\tuse this function to pass an event to a machine\n"
					"\tthe input buffer is passed to the first executed function if any\n"
					"\tany remaining buffer after the pipeline has finished is passed\n"
					"\tto the delete_machine_buffer function\n"
					"\tinput can be NULL"

			);
	fprintf(out,"void push_event_to_machine(enum MACHINES_ENUM machine,int event,machine_buffer_t *input);\n\n");




	ast_to_c_print_comment(out,	"\tthis function creates a buffer structure in the heap\n"
					"\tit COPIES the contents of content \n"	
					"\tsize is in bytes"
			);

	fprintf(out,"machine_buffer_t* get_machine_buffer(void *content,size_t size);\n\n");
	ast_to_c_print_comment(out,"\tfrees the buffer from the heap");
	fprintf(out,"void delete_machine_buffer(machine_buffer_t *buffer);\n\n");
}
void ast_to_c_print_internal_stuff_for_body(FILE *out)
{
	
	fprintf(out,	"void push_event_to_machine(enum MACHINES_ENUM machine,int event,machine_buffer_t *input)\n"
			"{\n"	
			"\tif(machine<MACHINES_ENUM_END)"	
			"\n\t{"	
			"\n\t\tmachine_states[machine](event,input);"	
			"\n\t}"	
			"\n}\n"	
		);

	fprintf(out,	"machine_buffer_t* get_machine_buffer(void *content,size_t size)\n"
			"{\n"
			"\tmachine_buffer_t *ret;\n"
			"\tsize_t i;\n"
			"\t\n"
			"\tret=malloc(sizeof(machine_buffer_t)+size);\n"
			"\tret->size=size;\n"
			"\tfor(i=0;i<size;++i)\n"
			"\t\tret->buffer[i]=((unsigned char*)content)[i];\n"
			"\treturn ret;\n"
			"}\n");

	fprintf(out,	"\nvoid delete_machine_buffer(machine_buffer_t *buffer)\n"
			"{\n"
			"\tif(buffer)\n"
			"\t{\n"
			"\t\tfree(buffer);\n"
			"\t}\n}"
			);
}
void ast_to_c_print_comment(FILE *out,char *comment)
{
	fprintf(out,"/*\n");
	fprintf(out,"%s\n",comment);
	fprintf(out,"*/\n");
}
void ast_statement_to_c(FILE *out,size_t indentation,struct AST *statement)
{
	if(statement==NULL)return;
	if(statement->type==AST_TYPE_PIPELINE)
		ast_pipeline_to_c(out,indentation,(struct AST_Pipeline*)statement);
	else if(statement->type==AST_TYPE_IF)
		ast_if_to_c(out,indentation,(struct AST_If_Statement*)statement);
	else
		assert(0);

}
void ast_if_to_c(FILE *out,size_t indentation,struct AST_If_Statement *statement)
{
	ast_to_c_print_tabs(out,indentation);
	fprintf(out,"if");
	ast_expression_to_c(out,statement->condition);
	fprintf(out,"\n");

	ast_to_c_print_tabs(out,indentation);
	fprintf(out,"{\n");

		ast_statement_to_c(out,indentation+1,statement->body);

	ast_to_c_print_tabs(out,indentation);
	fprintf(out,"}");
	if(statement->else_statement)
	{
		fprintf(out,"else{\n");

		ast_statement_to_c(out,indentation+1,statement->else_statement);

		ast_to_c_print_tabs(out,indentation);
		fprintf(out,"}");
	}
	fprintf(out,"\n");
}
void ast_expression_to_c(FILE *out,struct AST *expression)
{
	fprintf(out,"(");	
	switch(expression->type)
	{
		case AST_TYPE_OP_OR:
			ast_expression_to_c(out,AS_BIN_EXPR_PTR(expression)->left);
			fprintf(out,"||");
			ast_expression_to_c(out,AS_BIN_EXPR_PTR(expression)->right);
			break;
		case AST_TYPE_OP_NOT:
			fprintf(out,"!");
			ast_expression_to_c(out,AS_UN_EXPR_PTR(expression)->operand);
			break;
		case AST_TYPE_OP_AND:
			ast_expression_to_c(out,AS_BIN_EXPR_PTR(expression)->left);
			fprintf(out,"&&");
			ast_expression_to_c(out,AS_BIN_EXPR_PTR(expression)->right);
			break;
		case AST_TYPE_STATE:
			ast_expression_state_to_c(out,(struct AST_State*)expression);
			break;
		case AST_TYPE_OP_SELECTOR:
			assert(!"selector in final product!\n");
		default:
			assert(0);
	}
	fprintf(out,")");	
}
void ast_expression_state_to_c(FILE *out,struct AST_State *state)
{
	fprintf(out,"machine_states[");
	ast_token_to_c(out,state->parent->id);
	fprintf(out,"]==");
	ast_state_to_c_function_name(out,state->parent,state);

}
#endif