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#include <assert.h>
#include <stdio.h>
#include "syntax.h"
#include "utils.h"


typedef struct {
    StrVec completed_fields;
    String open_buf;
} SplitBuilder;


void consolidate_split_builder(SplitBuilder* builder) {
    if (builder->open_buf.count > 0) {
        push_to_StrVec(&builder->completed_fields, inner(&builder->open_buf));
        builder->open_buf = make_String(256);
    } 
}

void split_str_on_space(char* str, StrVec* result) {
    String buf = make_String(256);
    for (int pos = 0; str[pos] != '\0'; pos++) {
        if (str[pos] == ' ') {
            push_to_StrVec(result, inner(&buf));
            buf = make_String(256);
        } else {
            push_to_String(&buf, str[pos]);
        }
    }

    if (buf.count > 0) {
        char* buf_str = inner(&buf);
        push_to_StrVec(result, buf_str);
    }
}


void process_chunk(Chunk chunk, SplitBuilder* builder, ShellState* shstate) {
    assert(!(chunk.qmode == SINGLE_Q && chunk.kind != CHUNK_LIT));

    char* chunk_str;
    switch (chunk.kind) {
        case CHUNK_LIT:
            chunk_str = chunk.as.lit_str;
            break;
        case CHUNK_VAR:
            chunk_str = get_var(chunk.as.varname, shstate);
            break;
        default:
            exit(77);
    }

    if (chunk.qmode == UN_Q) {
        StrVec split_str = make_StrVec(32);
        split_str_on_space(chunk_str, &split_str);
        append_str_to_String(&builder->open_buf, *get_from_StrVec(&split_str, 0));
        consolidate_split_builder(builder);
        for (int i = 1; i < split_str.count; i++) {
            push_to_StrVec(&builder->completed_fields, *get_from_StrVec(&split_str, i));
        }
    } else {
        append_str_to_String(&builder->open_buf, chunk_str);
    }
}

StrVec process_word(Word word, ShellState* shstate) {
    SplitBuilder split_bui = {.completed_fields = make_StrVec(256), .open_buf = make_String(256)};
    for (int i = 0; i < word.count; i++) {
        Chunk chunk = *get_from_Word(&word, i);
        process_chunk(chunk, &split_bui, shstate);
    }
    return split_bui.completed_fields;
}


typedef struct {
    TokenKind kind;
    union {
        char* word;
        SpecialToken spec;
    } as;
} ExpandedToken;

DECLARE_VEC(ExpandedToken, ExpandedTokenVec)


Pipeline* process_token_sequence(TokenVec tokens, PipelineVec* pl_pool, ShellState* shstate) {

    ExpandedTokenVec exp_tokens = make_ExpandedTokenVec(256);

    for (int m = 0; m < tokens.count; m++) {
        Token tok = *get_from_TokenVec(&tokens, m);
        StrVec strs;
        switch (tok.kind) {
            case TOK_SPEC:
                push_to_ExpandedTokenVec(&exp_tokens, (ExpandedToken){.kind = TOK_SPEC, .as.spec = tok.as.spec});
                break;
            case TOK_WORD:
                strs = process_word(tok.as.word, shstate);
                for (int n = 0; n < strs.count; n++) {
                    push_to_ExpandedTokenVec(&exp_tokens, (ExpandedToken){.kind = TOK_WORD, .as.word = *get_from_StrVec(&strs, n)});
                }
        }
    }

    Pipeline pl = make_Pipeline(256);
    size_t tok_pos = 0;

    PlCommand curr_cmd = {.args = make_ArgVec(256), .redirects = make_RedirectVec(256), .conn = CONN_EOL};

    PlCommand* root_pl;
    for (int i = 0; i < exp_tokens.count; i++) {
        ExpandedToken curr_tok = *get_from_ExpandedTokenVec(&exp_tokens, i);
        ExpandedToken next_tok;
        Redirect rd;
        Pipeline* sub_pl;
        switch (curr_tok.kind) {
            case TOK_WORD:
                push_to_ArgVec(&curr_cmd.args, (Arg){.kind = ARG_LIT, .as.lit_str = curr_tok.as.word});
                break;
            case TOK_SPEC:
                switch (curr_tok.as.spec.kind) {
                    case SPEC_OP:
                        switch (curr_tok.as.spec.as.op) {
                            case OP_PIPE:
                                curr_cmd.conn = CONN_PIPE;
                                push_to_Pipeline(&pl, curr_cmd);
                                curr_cmd = (PlCommand){.args = make_ArgVec(256), .redirects = make_RedirectVec(256), .conn = CONN_EOL};                               
                                break;
                            case OP_EOL:
                                push_to_Pipeline(&pl, curr_cmd);
                                break;
                            case OP_REDIR_R:
                                next_tok = *get_from_ExpandedTokenVec(&exp_tokens, ++i);                               
                                assert(next_tok.kind == TOK_WORD);
                                rd = (Redirect){.kind = REDIR_READ, .as.filename = next_tok.as.word};
                                push_to_RedirectVec(&curr_cmd.redirects, rd);
                                break;
                            case OP_REDIR_W_APPEND:
                                next_tok = *get_from_ExpandedTokenVec(&exp_tokens, ++i);                               
                                assert(next_tok.kind == TOK_WORD);
                                rd = (Redirect){.kind = REDIR_WRITE_APPEND, .as.filename = next_tok.as.word};
                                push_to_RedirectVec(&curr_cmd.redirects, rd);
                                break;
                            case OP_REDIR_W_TRUNC:
                                next_tok = *get_from_ExpandedTokenVec(&exp_tokens, ++i);                               
                                assert(next_tok.kind == TOK_WORD);
                                rd = (Redirect){.kind = REDIR_WRITE_TRUNC, .as.filename = next_tok.as.word};
                                push_to_RedirectVec(&curr_cmd.redirects, rd);
                                break;
                            default:
                                exit(63);
                        }
                        break;
                    case SPEC_SUB_IN:
                        sub_pl = process_token_sequence(*(TokenVec*)curr_tok.as.spec.as.proc_sub_region, pl_pool, shstate);
                        push_to_ArgVec(&curr_cmd.args, (Arg){.kind = ARG_PS_IN, .as.sub_pipeline = sub_pl});
                        break;
                    case SPEC_SUB_OUT:
                        sub_pl = process_token_sequence(*(TokenVec*)curr_tok.as.spec.as.proc_sub_region, pl_pool, shstate);
                        push_to_ArgVec(&curr_cmd.args, (Arg){.kind = ARG_PS_OUT, .as.sub_pipeline = sub_pl});
                        break;
                }
        }
    } 
    return push_to_PipelineVec(pl_pool, pl);
}


PipelineTree process_ast(Ast ast, ShellState* shstate) {
    PipelineVec pls = make_PipelineVec(256);
    Pipeline* root_pl = process_token_sequence(*ast.root, &pls, shstate);
    return (PipelineTree){.pl_pool = pls, root_pl};
}