use std::collections::HashMap; use colored::*; use std::fmt::Write; use std::time; pub struct LLVMCodeString(pub String); #[derive(Debug, Default, Serialize, Deserialize)] pub struct EvalOptions { pub execution_method: ExecutionMethod, pub debug_passes: HashMap, pub debug_timing: bool, } #[derive(Debug, Hash, PartialEq)] pub struct PassDescriptor { pub name: String, pub debug_options: Vec } #[derive(Debug, Serialize, Deserialize)] pub struct PassDebugOptionsDescriptor { pub opts: Vec, } #[derive(Debug, Serialize, Deserialize)] pub enum ExecutionMethod { Compile, Interpret, } impl Default for ExecutionMethod { fn default() -> ExecutionMethod { ExecutionMethod::Interpret } } #[derive(Debug, Default)] pub struct UnfinishedComputation { artifacts: Vec<(String, TraceArtifact)>, pub durations: Vec, pub cur_debug_options: Vec, } #[derive(Debug)] pub struct FinishedComputation { artifacts: Vec<(String, TraceArtifact)>, durations: Vec, text_output: Result, } impl UnfinishedComputation { pub fn add_artifact(&mut self, artifact: TraceArtifact) { self.artifacts.push((artifact.stage_name.clone(), artifact)); } pub fn finish(self, text_output: Result) -> FinishedComputation { FinishedComputation { artifacts: self.artifacts, text_output, durations: self.durations, } } pub fn output(self, output: Result) -> FinishedComputation { FinishedComputation { artifacts: self.artifacts, text_output: output, durations: self.durations, } } } impl FinishedComputation { fn get_timing(&self) -> Option { if self.durations.len() != 0 { let mut buf = String::new(); write!(&mut buf, "Timing: ").unwrap(); for duration in self.durations.iter() { let timing = (duration.as_secs() as f64) + (duration.subsec_nanos() as f64 * 1e-9); write!(&mut buf, "{}s, ", timing).unwrap() } write!(&mut buf, "\n").unwrap(); Some(buf) } else { None } } pub fn to_repl(&self) -> String { let mut buf = String::new(); for (stage, artifact) in self.artifacts.iter() { let color = artifact.text_color; let stage = stage.color(color).bold(); let output = artifact.debug_output.color(color); write!(&mut buf, "{}: {}\n", stage, output).unwrap(); } match self.get_timing() { Some(timing) => write!(&mut buf, "{}", timing).unwrap(), None => () } match self.text_output { Ok(ref output) => write!(&mut buf, "{}", output).unwrap(), Err(ref err) => write!(&mut buf, "{} {}", "Error: ".red().bold(), err).unwrap(), } buf } pub fn to_noninteractive(&self) -> Option { match self.text_output { Ok(_) => { let mut buf = String::new(); for (stage, artifact) in self.artifacts.iter() { let color = artifact.text_color; let stage = stage.color(color).bold(); let output = artifact.debug_output.color(color); write!(&mut buf, "{}: {}\n", stage, output).unwrap(); } if buf == "" { None } else { Some(buf) } }, Err(ref s) => Some(format!("{} {}", "Error: ".red().bold(), s)) } } } #[derive(Debug)] pub struct TraceArtifact { stage_name: String, debug_output: String, text_color: &'static str, } impl TraceArtifact { pub fn new(stage: &str, debug: String) -> TraceArtifact { let color = match stage { "parse_trace" | "ast" => "red", "ast_reducing" => "red", "tokens" => "green", "type_check" => "magenta", _ => "blue", }; TraceArtifact { stage_name: stage.to_string(), debug_output: debug, text_color: color} } pub fn new_parse_trace(trace: Vec) -> TraceArtifact { let mut output = String::new(); for t in trace { output.push_str(&t); output.push_str("\n"); } TraceArtifact { stage_name: "parse_trace".to_string(), debug_output: output, text_color: "red"} } } pub trait ProgrammingLanguageInterface { fn execute_pipeline(&mut self, _input: &str, _eval_options: &EvalOptions) -> FinishedComputation { FinishedComputation { artifacts: vec![], text_output: Err(format!("Execution pipeline not done")), durations: vec![] } } fn get_language_name(&self) -> String; fn get_source_file_suffix(&self) -> String; fn get_passes(&self) -> Vec { vec![] } fn handle_custom_interpreter_directives(&mut self, _commands: &Vec<&str>) -> Option { None } fn custom_interpreter_directives_help(&self) -> String { format!(">> No custom interpreter directives specified <<") } fn get_doc(&self, _commands: &Vec<&str>) -> Option { None } }