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c438dc6916405f0ddd2ee7876f56238e24a81bd8
fn_registry/cpp/functions/viz/data_table.cpp
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egutierrez c438dc6916 data_table: Phase 2 — Button + events + tooltip + RightClick + TQL persist column_specs (issue 0081-O) 
- CellRenderer::Button=5: renders SmallButton per cell; emits TableEvent::ButtonClick on click
- TableEventKind enum (ButtonClick/RowDoubleClick/RowRightClick/CellEdit) + TableEvent struct
- render() extended overload: adds events_out parameter (nullptr = back-compat, no events)
- RowDoubleClick and RowRightClick detection in raw table loop (stage 0)
- RowRightClick also detected in aggregated stage table (stage 1+)
- Tooltip per cell: tooltip_on_hover + tooltip fields on ColumnSpec; "auto" = show cell value
- State::aux_column_specs: TQL-persisted column specs sidecar per table
- tql_emit: serializes aux_column_specs[0] as column_specs block (badge/progress/duration/icon/button/tooltip)
- tql_apply: parses column_specs block back into state.aux_column_specs[0]
- render() merges aux_column_specs into TableInput when caller passes empty column_specs
- test_column_specs: 5->8 tests (Button struct, tooltip fields, both render() signatures link)
- tql_emit_test: 3 new tests (column_specs badge/button/tooltip emit) — 52 passed
- tql_apply_test: 3 new tests (column_specs badge/button/tooltip roundtrip) — 106 passed
- Back-compat: existing apps (graph_explorer, registry_dashboard) unchanged
- Version bump: data_table v1.1.0 -> v1.2.0

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
2026-05-15 16:59:26 +02:00

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// data_table — render UI completa de tabla TQL.
// Entry-point publica del stack data_table del registry.
// Issue 0081-H. Promovido desde cpp/apps/primitives_gallery/playground/tables/data_table.cpp
//
// Dependencias del registry:
// - core/data_table_types.h (tipos compartidos: State, TableInput, Stage, ...)
// - core/compute_stage.h (compute_stage_cpp_core)
// - core/compute_pipeline.h (compute_pipeline_cpp_core)
// - core/compute_column_stats.h (compute_column_stats_cpp_core)
// - core/auto_detect_type.h (auto_detect_type_cpp_core)
// - core/tql_emit.h (tql_emit_cpp_core)
// - core/tql_apply.h (tql_apply_cpp_core)
// - core/lua_engine.h (lua_engine_cpp_core)
// - core/join_tables.h (join_tables_cpp_core)
// - viz/viz_render.h (viz_render_cpp_viz)
//
// Notas de deuda tecnica:
// - tql_apply_cpp_core expone firma reducida; el playground usaba tql::apply
// con cells/rows/orig_cols. Las llamadas internas de este archivo usan el
// namespace tql:: del playground via include del tql_apply_cpp_core header.
// Pendiente: ampliar tql_apply_cpp_core a la firma extendida (Wave 4/5 proposal).
// - llm_anthropic (Ask AI modal, fase 11): incluido desde el playground (no en registry).
// Pendiente: promover a cpp/functions/infra/llm_anthropic — deuda Wave 4.
// - tql_to_sql (SQL transpile): incluido desde el playground. Pendiente: registry Wave 4.
// - tql_duckdb (FN_TQL_DUCKDB): opcional, sin wrapper en registry todavia.
#include "viz/data_table.h"
// Framework ImGui (via fn_framework)
#include "imgui.h"
// Registry Wave 1+2 includes (all resolved via fn_table_viz include path).
#include "core/lua_engine.h"
#include "core/tql_apply.h"
#include "core/tql_emit.h"
#include "core/tql_helpers.h"
#include "core/compute_stage.h"
#include "core/compute_pipeline.h"
#include "core/compute_column_stats.h"
#include "core/auto_detect_type.h"
#include "core/join_tables.h"
#include "core/tql_to_sql.h"
#include "viz/viz_render.h"
// llm_anthropic — Ask AI modal. Promoted to registry (cpp/functions/core/) in
// Wave 3.5. Real implementation linked by fn_table_viz; stub kept under
// !FN_LLM_ANTHROPIC for environments that build without the lib.
#ifdef FN_LLM_ANTHROPIC
# include "core/llm_anthropic.h"
#endif
#ifdef FN_TQL_DUCKDB
# include "tql_duckdb.h"
#endif
// fn::local_path — from fn_framework (framework/app_base.h).
// Required by the Ask AI modal and TQL save/load paths.
#include "app_base.h"
#include <algorithm>
#include <cfloat>
#include <cstdio>
#include <cstring>
#include <ctime>
#include <fstream>
#include <string>
#include <unordered_map>
// icons_tabler.h: needed by draw_cell_custom icon renderer (issue 0081-N).
#include "core/icons_tabler.h"
// ---------------------------------------------------------------------------
// llm_anthropic stub (Wave 4 TODO: replace with infra/llm_anthropic.h)
// Provides no-op types/functions so fn_table_viz links without the playground.
// When FN_LLM_ANTHROPIC is defined the real header is included above instead.
// ---------------------------------------------------------------------------
#ifndef FN_LLM_ANTHROPIC
namespace llm_anthropic {
enum class OutputMode { TQL, SQL };
struct AskInput {
std::string question;
std::string tql_current;
std::vector<std::string> col_names;
std::vector<data_table::ColumnType> col_types;
std::vector<std::string> joinable_names;
OutputMode mode = OutputMode::TQL;
std::string model;
int max_tokens = 8192;
};
struct AskResult {
std::string code;
std::string raw;
std::string error;
int tokens_in = 0;
int tokens_out = 0;
};
inline AskResult ask(const AskInput&, const std::string& = "") {
AskResult r;
r.error = "llm_anthropic not available (stub). Build with FN_LLM_ANTHROPIC=1.";
return r;
}
} // namespace llm_anthropic
#endif // FN_LLM_ANTHROPIC
namespace data_table {
// ---------------------------------------------------------------------------
// Helpers from playground data_table_logic — declared static so they do not
// leak into the data_table namespace beyond this translation unit.
// Promoted inline to remove dependency on playground headers. Issue 0081-I.
// ---------------------------------------------------------------------------
// column_type_icon: returns a Tabler icon UTF-8 sequence for each ColumnType.
static const char* column_type_icon(ColumnType t) {
switch (t) {
case ColumnType::Auto: return "\xef\xa4\x9d"; // TI_HELP_CIRCLE
case ColumnType::String: return "\xef\x95\xa7"; // TI_ABC
case ColumnType::Int: return "\xef\x95\x94"; // TI_123
case ColumnType::Float: return "\xef\xa8\xa6"; // TI_DECIMAL
case ColumnType::Bool: return "\xee\xae\xa6"; // TI_CHECKBOX
case ColumnType::Date: return "\xee\xa9\x93"; // TI_CALENDAR
case ColumnType::Json: return "\xee\xaf\x8c"; // TI_BRACES
}
return "?";
}
// ---------------------------------------------------------------------------
// hex_to_imcolor: parses "#rrggbb" or "rrggbb" -> ImVec4 (alpha=1).
// Returns {-1,-1,-1,-1} on failure (caller should skip color push).
// ---------------------------------------------------------------------------
static ImVec4 hex_to_imcolor(const std::string& hex) {
const char* p = hex.c_str();
if (*p == '#') ++p;
unsigned int r = 0, g = 0, b = 0;
if (std::sscanf(p, "%02x%02x%02x", &r, &g, &b) != 3)
return ImVec4(-1.f, -1.f, -1.f, -1.f);
return ImVec4(r / 255.f, g / 255.f, b / 255.f, 1.f);
}
// ---------------------------------------------------------------------------
// icon_name_to_glyph: static lookup of icon_name string -> Tabler glyph.
// Covers the ~30 most-used icons. Returns nullptr if not found.
// ---------------------------------------------------------------------------
static const char* icon_name_to_glyph(const std::string& name) {
static const std::unordered_map<std::string, const char*> kMap = {
{"TI_CHECK", TI_CHECK},
{"TI_X", TI_X},
{"TI_ALERT_CIRCLE", TI_ALERT_CIRCLE},
{"TI_CIRCLE_DOT", TI_CIRCLE_DOT},
{"TI_CLOCK", TI_CLOCK},
{"TI_LOADER", TI_LOADER},
{"TI_BAN", TI_BAN},
{"TI_PLAYER_PLAY", TI_PLAYER_PLAY},
{"TI_PLAYER_PAUSE", TI_PLAYER_PAUSE},
{"TI_PLAYER_STOP", TI_PLAYER_STOP},
{"TI_DATABASE", TI_DATABASE},
{"TI_SETTINGS", TI_SETTINGS},
{"TI_USER", TI_USER},
{"TI_USERS", TI_USERS},
{"TI_FILE", TI_FILE},
{"TI_FOLDER", TI_FOLDER},
{"TI_REFRESH", TI_REFRESH},
{"TI_BOLT", TI_BOLT},
{"TI_INFO_CIRCLE", TI_INFO_CIRCLE},
{"TI_ARROW_UP", TI_ARROW_UP},
{"TI_ARROW_DOWN", TI_ARROW_DOWN},
{"TI_ARROW_RIGHT", TI_ARROW_RIGHT},
{"TI_ARROW_LEFT", TI_ARROW_LEFT},
{"TI_DOTS", TI_DOTS},
{"TI_EYE", TI_EYE},
{"TI_EYE_OFF", TI_EYE_OFF},
{"TI_EDIT", TI_EDIT},
{"TI_TRASH", TI_TRASH},
{"TI_COPY", TI_COPY},
{"TI_EXTERNAL_LINK", TI_EXTERNAL_LINK},
};
auto it = kMap.find(name);
return it != kMap.end() ? it->second : nullptr;
}
// ---------------------------------------------------------------------------
// draw_cell_custom: render a cell using the declarative ColumnSpec.
// Called only when spec.renderer != CellRenderer::Text.
// Issue 0081-N, v1.1.0. Phase 2 (v1.2.0): Button renderer + tooltip.
//
// events_out: if non-null and renderer==Button, ButtonClick is pushed on click.
// row_idx / col_idx: logical indices in the TableInput (for event payload).
// ---------------------------------------------------------------------------
static void draw_cell_custom(const ColumnSpec& spec, const char* value,
int row_idx, int col_idx,
std::vector<TableEvent>* events_out) {
if (!value) value = "";
switch (spec.renderer) {
case CellRenderer::Badge: {
// Find a matching badge rule (exact match, case-sensitive).
const BadgeRule* matched = nullptr;
for (const auto& br : spec.badges) {
if (br.value == value) { matched = &br; break; }
}
if (matched) {
ImVec4 col = hex_to_imcolor(matched->color_hex);
const char* label = matched->label.empty() ? value : matched->label.c_str();
if (col.x >= 0.f) {
ImGui::PushStyleColor(ImGuiCol_Header, col);
// Slightly brighter on hover to provide feedback.
ImVec4 hover_col = ImVec4(
std::min(col.x + 0.1f, 1.f),
std::min(col.y + 0.1f, 1.f),
std::min(col.z + 0.1f, 1.f),
col.w);
ImGui::PushStyleColor(ImGuiCol_HeaderHovered, hover_col);
ImGui::PushStyleColor(ImGuiCol_HeaderActive, hover_col);
ImGui::Selectable(label, false,
ImGuiSelectableFlags_SpanAllColumns);
ImGui::PopStyleColor(3);
} else {
ImGui::TextUnformatted(label);
}
} else {
ImGui::TextUnformatted(value);
}
break;
}
case CellRenderer::Progress: {
double v_raw = 0.0;
if (!parse_number(value, v_raw)) {
ImGui::TextUnformatted(value);
break;
}
float fv = (float)v_raw;
if (spec.progress_scale_100) fv /= 100.f;
fv = fv < 0.f ? 0.f : (fv > 1.f ? 1.f : fv);
bool has_color = !spec.progress_color_hex.empty();
ImVec4 bar_col;
if (has_color) {
bar_col = hex_to_imcolor(spec.progress_color_hex);
if (bar_col.x < 0.f) has_color = false;
}
if (has_color) ImGui::PushStyleColor(ImGuiCol_PlotHistogram, bar_col);
ImGui::ProgressBar(fv, ImVec2(-1.f, 0.f));
if (has_color) ImGui::PopStyleColor();
break;
}
case CellRenderer::Duration: {
double v_raw = 0.0;
if (!parse_number(value, v_raw)) {
ImGui::TextUnformatted(value);
break;
}
float ms = (float)v_raw;
ImVec4 text_col;
if (ms <= spec.duration_warn_ms) {
text_col = hex_to_imcolor("#22c55e"); // green
} else if (ms <= spec.duration_error_ms) {
text_col = hex_to_imcolor("#f59e0b"); // yellow
} else {
text_col = hex_to_imcolor("#ef4444"); // red
}
char buf[32];
std::snprintf(buf, sizeof(buf), "%.0f ms", ms);
ImGui::TextColored(text_col, "%s", buf);
break;
}
case CellRenderer::Icon: {
const char* glyph = nullptr;
ImVec4 icon_col(-1.f, -1.f, -1.f, -1.f);
for (const auto& entry : spec.icon_map) {
if (entry.value == value) {
glyph = icon_name_to_glyph(entry.icon_name);
if (!entry.color_hex.empty())
icon_col = hex_to_imcolor(entry.color_hex);
break;
}
}
if (glyph) {
if (icon_col.x >= 0.f)
ImGui::TextColored(icon_col, "%s", glyph);
else
ImGui::TextUnformatted(glyph);
} else {
ImGui::TextUnformatted(value);
}
break;
}
case CellRenderer::Button: {
// Skip empty cell values — app decides when to show a button.
if (value[0] == '\0') break;
const char* label = spec.button_label.empty() ? value : spec.button_label.c_str();
bool has_color = !spec.button_color_hex.empty();
if (has_color) {
ImVec4 btn_col = hex_to_imcolor(spec.button_color_hex);
if (btn_col.x >= 0.f) {
ImGui::PushStyleColor(ImGuiCol_Button, btn_col);
ImVec4 hov = ImVec4(
std::min(btn_col.x + 0.12f, 1.f),
std::min(btn_col.y + 0.12f, 1.f),
std::min(btn_col.z + 0.12f, 1.f),
btn_col.w);
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, hov);
ImGui::PushStyleColor(ImGuiCol_ButtonActive, hov);
} else {
has_color = false;
}
}
// Unique button ID: combines label + row + col to avoid ImGui ID
// collisions when the same label appears in multiple rows.
char btn_id[128];
std::snprintf(btn_id, sizeof(btn_id), "%s##btn_%d_%d",
label, row_idx, col_idx);
if (ImGui::SmallButton(btn_id) && events_out) {
TableEvent ev;
ev.kind = TableEventKind::ButtonClick;
ev.row = row_idx;
ev.col = col_idx;
ev.column_id = spec.id;
ev.action_id = spec.button_action;
ev.value = value;
events_out->push_back(std::move(ev));
}
if (has_color) ImGui::PopStyleColor(3);
break;
}
default:
// CellRenderer::Text or unknown — plain text.
ImGui::TextUnformatted(value);
break;
}
// Tooltip: show on hover if tooltip_on_hover is set.
// "auto" shows the raw cell value (useful for truncated text columns).
if (spec.tooltip_on_hover && ImGui::IsItemHovered()) {
const char* tip = (spec.tooltip == "auto") ? value : spec.tooltip.c_str();
if (tip && tip[0]) ImGui::SetTooltip("%s", tip);
}
}
// compare: cell-level comparison supporting all Op variants.
// Uses parse_number (from auto_detect_type.h) for numeric comparisons.
static bool compare(const char* a, const char* b, Op op) {
if (!a) a = "";
if (!b) b = "";
switch (op) {
case Op::Contains: return std::strstr(a, b) != nullptr;
case Op::NotContains: return std::strstr(a, b) == nullptr;
case Op::StartsWith: {
size_t lb = std::strlen(b);
return std::strncmp(a, b, lb) == 0;
}
case Op::EndsWith: {
size_t la = std::strlen(a), lb = std::strlen(b);
return lb <= la && std::strcmp(a + la - lb, b) == 0;
}
default: break;
}
double na, nb;
bool numeric = parse_number(a, na) && parse_number(b, nb);
if (numeric) {
switch (op) {
case Op::Eq: return na == nb;
case Op::Neq: return na != nb;
case Op::Gt: return na > nb;
case Op::Gte: return na >= nb;
case Op::Lt: return na < nb;
case Op::Lte: return na <= nb;
default: break;
}
}
int c = std::strcmp(a, b);
switch (op) {
case Op::Eq: return c == 0;
case Op::Neq: return c != 0;
case Op::Gt: return c > 0;
case Op::Gte: return c >= 0;
case Op::Lt: return c < 0;
case Op::Lte: return c <= 0;
default: break;
}
return false;
}
// make_drill_filter: creates an Op::Eq filter on col_idx with the given value.
static Filter make_drill_filter(int col_idx, const std::string& value) {
Filter f;
f.col = col_idx;
f.op = Op::Eq;
f.value = value;
return f;
}
// apply_drill_step: inserts step.added into st at the recorded position.
static bool apply_drill_step(State& st, const DrillStep& step) {
if (step.target_stage < 0 || step.target_stage >= (int)st.stages.size()) return false;
Stage& s = st.stages[step.target_stage];
int pos = step.filter_pos;
if (pos < 0 || pos > (int)s.filters.size()) return false;
s.filters.insert(s.filters.begin() + pos, step.added);
st.active_stage = step.target_stage;
return true;
}
// undo_drill_step: removes the filter inserted by apply_drill_step.
static bool undo_drill_step(State& st, const DrillStep& step) {
if (step.target_stage < 0 || step.target_stage >= (int)st.stages.size()) return false;
Stage& s = st.stages[step.target_stage];
int pos = step.filter_pos;
if (pos < 0 || pos >= (int)s.filters.size()) return false;
s.filters.erase(s.filters.begin() + pos);
if (step.prev_active_stage >= 0 && step.prev_active_stage < (int)st.stages.size())
st.active_stage = step.prev_active_stage;
return true;
}
// drill_up: decrements active_stage by 1 if possible.
static bool drill_up(State& st) {
if (st.stages.empty()) return false;
if (st.active_stage <= 0) return false;
st.active_stage -= 1;
return true;
}
// row_to_tsv: serializes a single row to a two-line TSV (header + values).
static std::string row_to_tsv(const char* const* cells, int rows, int cols,
int row_idx, const std::vector<std::string>& headers) {
if (row_idx < 0 || row_idx >= rows || cols <= 0) return "";
std::string out;
for (int c = 0; c < cols; ++c) {
if (c > 0) out += '\t';
if (c < (int)headers.size()) out += headers[c];
}
out += "\r\n";
for (int c = 0; c < cols; ++c) {
if (c > 0) out += '\t';
const char* v = cells[row_idx * cols + c];
if (v) out += v;
}
out += "\r\n";
return out;
}
// compute_visible_rows: applies stage-0 filters + optional sort, returns matching row indices.
static std::vector<int> compute_visible_rows(const char* const* cells,
int rows, int cols,
const State& st)
{
std::vector<int> out;
out.reserve(rows);
const Stage& s = st.raw();
for (int r = 0; r < rows; ++r) {
bool keep = true;
for (const auto& f : s.filters) {
if (f.col < 0 || f.col >= cols) continue;
const char* cell = cells[r * cols + f.col];
if (!compare(cell, f.value.c_str(), f.op)) { keep = false; break; }
}
if (keep) out.push_back(r);
}
if (!s.sorts.empty()) {
const SortClause& sc0 = s.sorts.front();
int sc = -1;
if (!sc0.col.empty() && sc0.col[0] == '@') {
sc = std::atoi(sc0.col.c_str() + 1);
}
bool desc = sc0.desc;
if (sc >= 0 && sc < cols) {
std::sort(out.begin(), out.end(), [&](int a, int b) {
const char* ca = cells[a * cols + sc];
const char* cb = cells[b * cols + sc];
if (!ca) ca = "";
if (!cb) cb = "";
double na, nb;
bool num = parse_number(ca, na) && parse_number(cb, nb);
int cmp;
if (num) cmp = (na < nb) ? -1 : (na > nb ? 1 : 0);
else cmp = std::strcmp(ca, cb);
return desc ? (cmp > 0) : (cmp < 0);
});
}
}
return out;
}
// csv_escape: wraps s in double-quotes if it contains commas, quotes, or newlines.
static std::string csv_escape(const char* s) {
if (!s) return "";
bool needs = false;
for (const char* p = s; *p; ++p) {
if (*p == ',' || *p == '"' || *p == '\n' || *p == '\r') { needs = true; break; }
}
if (!needs) return std::string(s);
std::string out; out.reserve(std::strlen(s) + 4);
out += '"';
for (const char* p = s; *p; ++p) {
if (*p == '"') out += '"';
out += *p;
}
out += '"';
return out;
}
// reorder_column: moves col src to position of col dst in st.col_order.
static void reorder_column(State& st, int src, int dst) {
if (src == dst) return;
auto it_s = std::find(st.col_order.begin(), st.col_order.end(), src);
auto it_d = std::find(st.col_order.begin(), st.col_order.end(), dst);
if (it_s == st.col_order.end() || it_d == st.col_order.end()) return;
int si = (int)(it_s - st.col_order.begin());
int di = (int)(it_d - st.col_order.begin());
int v = st.col_order[si];
st.col_order.erase(st.col_order.begin() + si);
if (di > (int)st.col_order.size()) di = (int)st.col_order.size();
st.col_order.insert(st.col_order.begin() + di, v);
}
// find_open_bracket: scans buf[0..cursor) backwards for an unmatched '['.
// Returns index of '[' and fills filter_text with content after it, or -1 if none.
static int find_open_bracket(const char* buf, int len, int cursor, std::string& filter_text) {
filter_text.clear();
if (!buf || cursor <= 0 || cursor > len) return -1;
for (int i = cursor - 1; i >= 0; --i) {
char c = buf[i];
if (c == ']' || c == '\n') return -1;
if (c == '[') {
filter_text.assign(buf + i + 1, cursor - i - 1);
return i;
}
}
return -1;
}
// insert_column_ref: replaces src[start..cursor) with "[name]", updating new_cursor.
static std::string insert_column_ref(const std::string& src, int start, int cursor,
const std::string& name, int& new_cursor) {
if (start < 0 || start > (int)src.size() || cursor < start || cursor > (int)src.size()) {
new_cursor = cursor;
return src;
}
std::string replacement = "[" + name + "]";
std::string out;
out.reserve(src.size() - (cursor - start) + replacement.size());
out.append(src, 0, start);
out += replacement;
out.append(src, cursor, std::string::npos);
new_cursor = start + (int)replacement.size();
return out;
}
// ---------------------------------------------------------------------------
// Additional helpers from playground data_table_logic — view_mode, joins,
// filter presets, date helpers, effective_type, etc.
// All declared static to stay internal to this translation unit.
// ---------------------------------------------------------------------------
static ColumnType effective_type(ColumnType declared,
const char* const* cells, int rows, int cols, int col) {
if (declared != ColumnType::Auto) return declared;
return auto_detect_type(cells, rows, cols, col);
}
static std::vector<Op> ops_for_type(ColumnType t) {
switch (t) {
case ColumnType::Int:
case ColumnType::Float:
case ColumnType::Date:
return {Op::Eq, Op::Neq, Op::Gt, Op::Gte, Op::Lt, Op::Lte};
case ColumnType::Bool:
return {Op::Eq, Op::Neq};
case ColumnType::Json:
return {Op::Eq, Op::Neq, Op::Contains, Op::NotContains};
case ColumnType::String:
return {Op::Eq, Op::Neq, Op::Contains, Op::NotContains, Op::StartsWith, Op::EndsWith};
case ColumnType::Auto:
default:
return {Op::Eq, Op::Neq, Op::Contains, Op::NotContains};
}
}
static int resolve_main_idx(const std::vector<TableInput>& tables, const std::string& main_source) {
if (tables.empty()) return -1;
if (main_source.empty()) return 0;
for (size_t i = 0; i < tables.size(); ++i) {
if (tables[i].name == main_source) return (int)i;
}
return 0;
}
static const char* join_strategy_label(JoinStrategy s) {
switch (s) {
case JoinStrategy::Left: return "left-join";
case JoinStrategy::Inner: return "inner-join";
case JoinStrategy::Right: return "right-join";
case JoinStrategy::Full: return "full-join";
}
return "left-join";
}
struct ViewModeInfo {
ViewMode m;
const char* token;
const char* label;
int min_cols;
bool needs_num;
bool needs_cat;
bool needs_agg;
};
static const ViewModeInfo kViewModes[] = {
{ ViewMode::Table, "table", "Table", 1, false, false, false },
{ ViewMode::Bar, "bar", "Bar (horizontal)", 2, true, true, true },
{ ViewMode::Column, "column", "Column (vertical)", 2, true, true, true },
{ ViewMode::GroupedBar, "grouped_bar", "Grouped bar", 2, true, true, true },
{ ViewMode::StackedBar, "stacked_bar", "Stacked bar", 2, true, true, true },
{ ViewMode::Line, "line", "Line", 1, true, false, false },
{ ViewMode::Area, "area", "Area", 1, true, false, false },
{ ViewMode::Stairs, "stairs", "Stairs", 1, true, false, false },
{ ViewMode::Scatter, "scatter", "Scatter", 2, true, false, false },
{ ViewMode::Bubble, "bubble", "Bubble", 3, true, false, false },
{ ViewMode::Histogram, "histogram", "Histogram", 1, true, false, false },
{ ViewMode::Histogram2D, "hist2d", "Histogram 2D", 2, true, false, false },
{ ViewMode::Heatmap, "heatmap", "Heatmap", 1, true, false, false },
{ ViewMode::BoxPlot, "boxplot", "Box plot", 2, true, true, false },
{ ViewMode::Stem, "stem", "Stem", 1, true, false, false },
{ ViewMode::ErrorBars, "errorbars", "Error bars", 2, true, false, false },
{ ViewMode::Pie, "pie", "Pie", 2, true, true, true },
{ ViewMode::Donut, "donut", "Donut", 2, true, true, true },
{ ViewMode::Funnel, "funnel", "Funnel", 2, true, true, true },
{ ViewMode::Waterfall, "waterfall", "Waterfall", 1, true, false, true },
{ ViewMode::KPI, "kpi", "KPI (single)", 1, true, false, true },
{ ViewMode::KPIGrid, "kpi_grid", "KPI grid", 1, true, false, true },
{ ViewMode::Candlestick, "candlestick", "Candlestick (OHLC)", 4, true, false, false },
{ ViewMode::Radar, "radar", "Radar", 2, true, true, false },
};
static const int kViewModesN = (int)(sizeof(kViewModes) / sizeof(kViewModes[0]));
static const char* view_mode_label(ViewMode m) {
for (int i = 0; i < kViewModesN; ++i) if (kViewModes[i].m == m) return kViewModes[i].label;
return "Table";
}
static bool view_mode_needs_aggregation(ViewMode m) {
for (int i = 0; i < kViewModesN; ++i) if (kViewModes[i].m == m) return kViewModes[i].needs_agg;
return false;
}
static const ViewMode* all_view_modes(int* n_out) {
static ViewMode arr[64];
static bool init = false;
if (!init) {
for (int i = 0; i < kViewModesN; ++i) arr[i] = kViewModes[i].m;
init = true;
}
if (n_out) *n_out = kViewModesN;
return arr;
}
// Date helpers (for filter presets and breakout auto-granularity).
namespace {
static bool parse_ymd_local(const std::string& s, int& y, int& m, int& d) {
if (s.size() < 10) return false;
for (int i : {0,1,2,3,5,6,8,9}) {
if (s[(size_t)i] < '0' || s[(size_t)i] > '9') return false;
}
if (s[4] != '-' || s[7] != '-') return false;
y = (s[0]-'0')*1000 + (s[1]-'0')*100 + (s[2]-'0')*10 + (s[3]-'0');
m = (s[5]-'0')*10 + (s[6]-'0');
d = (s[8]-'0')*10 + (s[9]-'0');
if (m < 1 || m > 12 || d < 1 || d > 31) return false;
return true;
}
static long ymd_to_days_local(int y, int m, int d) {
if (m <= 2) { y -= 1; m += 12; }
long era = (y >= 0 ? y : y - 399) / 400;
unsigned yoe = (unsigned)(y - era * 400);
unsigned doy = (unsigned)((153 * (m - 3) + 2) / 5 + d - 1);
unsigned doe = yoe * 365 + yoe/4 - yoe/100 + doy;
return era * 146097 + (long)doe;
}
static void days_to_ymd_local(long days, int& y, int& m, int& d) {
long era = (days >= 0 ? days : days - 146096) / 146097;
unsigned doe = (unsigned)(days - era * 146097);
unsigned yoe = (doe - doe/1460 + doe/36524 - doe/146096) / 365;
int yr = (int)yoe + (int)era * 400;
unsigned doy = doe - (365*yoe + yoe/4 - yoe/100);
unsigned mp = (5*doy + 2)/153;
unsigned day = doy - (153*mp + 2)/5 + 1;
unsigned mon = mp < 10 ? mp + 3 : mp - 9;
if (mon <= 2) yr += 1;
y = yr; m = (int)mon; d = (int)day;
}
} // anon
static void column_min_max(const char* const* cells, int rows, int cols, int col_idx,
std::string& min_out, std::string& max_out) {
min_out.clear(); max_out.clear();
if (col_idx < 0 || col_idx >= cols) return;
bool first = true;
for (int r = 0; r < rows; ++r) {
const char* v = cells[r * cols + col_idx];
if (!v || !*v) continue;
std::string s(v);
if (first) { min_out = s; max_out = s; first = false; }
else { if (s < min_out) min_out = s; if (s > max_out) max_out = s; }
}
}
static DateGranularity auto_date_granularity(const std::string& min_ymd,
const std::string& max_ymd) {
int y1,m1,d1, y2,m2,d2;
if (!parse_ymd_local(min_ymd, y1,m1,d1)) return DateGranularity::Day;
if (!parse_ymd_local(max_ymd, y2,m2,d2)) return DateGranularity::Day;
long span = ymd_to_days_local(y2,m2,d2) - ymd_to_days_local(y1,m1,d1);
if (span < 0) span = -span;
if (span > 730) return DateGranularity::Year;
if (span > 60) return DateGranularity::Month;
if (span > 14) return DateGranularity::Week;
return DateGranularity::Day;
}
static std::string compose_breakout(const std::string& col, DateGranularity g) {
if (g == DateGranularity::None) return col;
return col + ":" + date_granularity_token(g);
}
static const char* filter_preset_label(FilterPreset p) {
switch (p) {
case FilterPreset::Last7d: return "Last 7 days";
case FilterPreset::Last30d: return "Last 30 days";
case FilterPreset::Last90d: return "Last 90 days";
case FilterPreset::ExcludeNulls: return "Exclude nulls";
case FilterPreset::NonZero: return "Non-zero only";
}
return "?";
}
static std::vector<Filter> build_preset_filters(FilterPreset preset, int col,
const std::string& today_ymd) {
std::vector<Filter> out;
auto last_n = [&](int n) {
int y, m, d;
if (!parse_ymd_local(today_ymd, y, m, d)) return;
long days = ymd_to_days_local(y, m, d) - n;
int yy, mm, dd;
days_to_ymd_local(days, yy, mm, dd);
char buf[16];
std::snprintf(buf, sizeof(buf), "%04d-%02d-%02d", yy, mm, dd);
Filter f; f.col = col; f.op = Op::Gte; f.value = buf;
out.push_back(f);
};
switch (preset) {
case FilterPreset::Last7d: last_n(7); break;
case FilterPreset::Last30d: last_n(30); break;
case FilterPreset::Last90d: last_n(90); break;
case FilterPreset::ExcludeNulls: {
Filter f; f.col = col; f.op = Op::Neq; f.value = "";
out.push_back(f); break;
}
case FilterPreset::NonZero: {
Filter f1; f1.col = col; f1.op = Op::Neq; f1.value = "";
Filter f2; f2.col = col; f2.op = Op::Neq; f2.value = "0";
out.push_back(f1); out.push_back(f2); break;
}
}
return out;
}
// agg_fn_name, op_is_string_only — small helpers not in tql_helpers.h.
// op_label and aggregation_alias are already provided by tql_helpers.h.
static const char* agg_fn_name(AggFn f) {
switch (f) {
case AggFn::Count: return "count";
case AggFn::Sum: return "sum";
case AggFn::Avg: return "avg";
case AggFn::Min: return "min";
case AggFn::Max: return "max";
case AggFn::Distinct: return "distinct";
case AggFn::Stddev: return "stddev";
case AggFn::Median: return "median";
case AggFn::P25: return "p25";
case AggFn::P75: return "p75";
case AggFn::P90: return "p90";
case AggFn::P99: return "p99";
case AggFn::Percentile: return "percentile";
}
return "?";
}
static bool op_is_string_only(Op o) {
return o == Op::Contains || o == Op::NotContains ||
o == Op::StartsWith || o == Op::EndsWith;
}
// UTC date today as ISO YYYY-MM-DD. Para preset filtros Last7/30/90d.
static std::string today_iso() {
std::time_t t = std::time(nullptr);
std::tm tm = *std::gmtime(&t);
char buf[16];
std::snprintf(buf, sizeof(buf), "%04d-%02d-%02d",
tm.tm_year + 1900, tm.tm_mon + 1, tm.tm_mday);
return buf;
}
namespace {
// ---------------------------------------------------------------------------
// UI state global por-instancia (singleton playground).
// ---------------------------------------------------------------------------
struct UiState {
int pending_col = -1;
std::string pending_value;
bool open_cell_popup = false;
int header_popup_col = -1;
std::unordered_map<int, std::string> filter_inputs;
std::unordered_map<int, std::string> color_value_inputs;
std::unordered_map<int, ImVec4> color_picker_vals;
int addf_col = 0;
std::string addf_val;
bool addf_range = false;
std::string addf_lo;
std::string addf_hi;
int sel_anchor_row = -1;
int sel_anchor_col = -1;
int sel_end_row = -1;
int sel_end_col = -1;
bool sel_active = false;
bool sel_dragging = false;
std::string last_export_path;
// Modal de columna custom (formula).
bool cf_open = false;
bool cf_editing = false;
int cf_edit_idx = -1;
int cf_target_stage = 0; // stage donde se guarda la formula
std::string cf_formula;
std::string cf_name;
ColumnType cf_type = ColumnType::String;
std::string cf_error;
bool cf_ac_open = false;
int cf_ac_start = -1;
int cf_ac_cursor = -1;
std::string cf_ac_filter;
bool cf_force_cursor = false;
int cf_target_cursor = -1;
// TQL modales.
bool tql_show_open = false;
std::string tql_show_text;
bool tql_apply_open = false;
std::string tql_apply_text;
std::string tql_apply_error;
char tql_file_path[256] = "table.tql";
std::string tql_io_status; // mensaje "saved" / "loaded" / error
// Add-breakout popup (stage > 0).
int brk_picker_col = 0;
// Add-aggregation popup (stage > 0).
int agg_picker_fn = (int)AggFn::Count;
int agg_picker_col = 0;
double agg_picker_arg = 0.95;
// Edit chip popups: click der sobre chip.
// 0=none, 1=filter, 2=breakout, 3=agg, 4=sort
int edit_chip_kind = 0;
int edit_chip_idx = -1;
int edit_col_idx = 0; // combo idx para col picker
int edit_op = (int)Op::Eq;
int edit_agg_fn = (int)AggFn::Count;
double edit_agg_arg = 0.5;
bool edit_sort_desc = false;
std::string edit_value;
// Add-sort popup (any stage).
int sort_picker_col = 0;
bool sort_picker_desc = false;
bool stats_mode = false;
std::vector<ColStats> stats_cache;
const char* const* last_cells = nullptr;
int last_rows = -1;
int last_eff_cols = -1;
size_t last_filter_h = (size_t)-1;
int last_visible = -1;
// Snapshot del active stage output para el config popup.
std::vector<std::string> active_headers;
std::vector<ColumnType> active_types;
// Snapshot del INPUT del active stage (= output del previo o orig+derived
// si active==0). Para que el config popup pueda cambiar la categoria del
// breakout del stage activo eligiendo de las cols upstream.
std::vector<std::string> input_headers_active;
std::vector<ColumnType> input_types_active;
// Para forzar re-fit en cambio de display/stage/config.
ViewMode prev_viz_display = ViewMode::Table;
int prev_viz_stage = 0;
size_t prev_viz_cfg_h = 0;
// show_chrome user override. Default: chips bar closed — user opens via
// "Show UI" button. Cached as user-set so the API arg show_chrome is
// bypassed from frame 1.
bool chrome_user_set = true;
bool chrome_user_visible = false;
// Toggle Table <-> View: remember last non-table display.
ViewMode last_non_table_main = ViewMode::Bar;
// Drill history (fase 10). Stacks per-app; no persistido en TQL.
std::vector<DrillStep> drill_back;
std::vector<DrillStep> drill_forward;
// Row inspector (fase 10). -1 cerrado, sino row idx en el output del stage activo.
int inspect_row = -1;
bool inspect_open = false;
// Ask AI modal (fase 11 — issue 0080).
bool ask_open = false;
bool ask_busy = false;
int ask_mode = 0; // 0 = TQL, 1 = SQL
char ask_question[2048] = {0};
std::string ask_current_tql; // emit del state actual al abrir modal
std::string ask_response_raw; // texto del modelo
std::string ask_response_code; // bloque extraido (Lua o SQL)
std::string ask_error;
std::string ask_status; // "Sent. Waiting..." / "OK" / error
char ask_edit_buf[8192] = {0}; // buffer editable de propuesta
};
UiState& ui() { static UiState s; return s; }
// Row inspector modal (fase 10). Muestra todas cols + valores de la fila
// inspect_row del output del stage activo. Read-only + Copy TSV + Filter
// by this row (anade filters al stage previo si existe).
static void draw_row_inspector_modal(State& st, int active,
const char* const* cells, int rows, int cols,
const std::vector<std::string>& headers,
const std::vector<ColumnType>& types,
const std::vector<std::string>& prev_input_headers) {
auto& U = ui();
if (!U.inspect_open) return;
if (U.inspect_row < 0 || U.inspect_row >= rows) {
U.inspect_open = false;
return;
}
ImGui::OpenPopup("##row_inspector");
ImGui::SetNextWindowSize(ImVec2(560, 400), ImGuiCond_Appearing);
if (ImGui::BeginPopupModal("##row_inspector", &U.inspect_open,
ImGuiWindowFlags_NoSavedSettings)) {
ImGui::Text("Row %d", U.inspect_row);
ImGui::SameLine(0, 20);
if (ImGui::SmallButton("Copy TSV")) {
std::string tsv = row_to_tsv(cells, rows, cols, U.inspect_row, headers);
ImGui::SetClipboardText(tsv.c_str());
}
ImGui::SameLine();
bool can_filter = (active > 0 && !prev_input_headers.empty());
ImGui::BeginDisabled(!can_filter);
if (ImGui::SmallButton("Filter prev stage by this row")) {
int target = active - 1;
for (int c = 0; c < cols; ++c) {
const char* v = cells[U.inspect_row * cols + c];
if (!v || !*v) continue;
const std::string& h = headers[c];
std::string h_clean;
parse_breakout_granularity(h, h_clean);
int ci = -1;
for (size_t i = 0; i < prev_input_headers.size(); ++i) {
if (prev_input_headers[i] == h_clean) { ci = (int)i; break; }
}
if (ci < 0) continue;
DrillStep step;
step.target_stage = target;
step.filter_pos = (int)st.stages[target].filters.size();
step.prev_active_stage = st.active_stage;
step.added = make_drill_filter(ci, v);
if (apply_drill_step(st, step)) {
U.drill_back.push_back(step);
}
}
U.drill_forward.clear();
U.inspect_open = false;
}
ImGui::EndDisabled();
ImGui::Separator();
ImGuiTableFlags flags = ImGuiTableFlags_Borders | ImGuiTableFlags_RowBg
| ImGuiTableFlags_ScrollY | ImGuiTableFlags_Resizable;
if (ImGui::BeginTable("##inspector_tbl", 2, flags, ImVec2(-1, -1))) {
ImGui::TableSetupColumn("col");
ImGui::TableSetupColumn("value");
ImGui::TableHeadersRow();
for (int c = 0; c < cols; ++c) {
ImGui::TableNextRow();
ImGui::TableSetColumnIndex(0);
ColumnType t = (c < (int)types.size()) ? types[c] : ColumnType::String;
ImGui::Text("%s %s", column_type_icon(t),
(c < (int)headers.size()) ? headers[c].c_str() : "?");
ImGui::TableSetColumnIndex(1);
const char* v = cells[U.inspect_row * cols + c];
ImGui::TextWrapped("%s", v ? v : "");
}
ImGui::EndTable();
}
ImGui::EndPopup();
}
}
int autocomplete_cb(ImGuiInputTextCallbackData* data) {
UiState* U = (UiState*)data->UserData;
if (data->EventFlag == ImGuiInputTextFlags_CallbackAlways) {
if (U->cf_force_cursor) {
data->CursorPos = U->cf_target_cursor;
U->cf_force_cursor = false;
}
}
if (data->EventFlag == ImGuiInputTextFlags_CallbackEdit) {
std::string filter;
int idx = find_open_bracket(data->Buf, data->BufTextLen,
data->CursorPos, filter);
if (idx >= 0) {
U->cf_ac_open = true;
U->cf_ac_start = idx;
U->cf_ac_cursor = data->CursorPos;
U->cf_ac_filter = filter;
} else {
U->cf_ac_open = false;
}
}
return 0;
}
size_t filters_hash(const std::vector<Filter>& f) {
size_t h = 0xcbf29ce484222325ULL;
for (const auto& x : f) {
h ^= (size_t)x.col; h *= 0x100000001b3ULL;
h ^= (size_t)x.op; h *= 0x100000001b3ULL;
for (char ch : x.value) { h ^= (size_t)(unsigned char)ch; h *= 0x100000001b3ULL; }
}
return h;
}
void ensure_init(State& st, int eff_cols) {
if ((int)st.col_visible.size() < eff_cols) st.col_visible.resize(eff_cols, true);
if ((int)st.col_order.size() != eff_cols) {
std::vector<int> next;
next.reserve(eff_cols);
for (int x : st.col_order) if (x >= 0 && x < eff_cols) next.push_back(x);
std::vector<bool> seen(eff_cols, false);
for (int x : next) seen[x] = true;
for (int i = 0; i < eff_cols; ++i) if (!seen[i]) next.push_back(i);
st.col_order = std::move(next);
}
if ((int)st.col_visible.size() < (int)st.col_order.size())
st.col_visible.resize(st.col_order.size(), true);
}
// ---------------------------------------------------------------------------
// Breadcrumb stages: fila de botones Raw > Stage 1 > Stage 2 ... [+ Stage]
// ---------------------------------------------------------------------------
void draw_stage_breadcrumb(State& st) {
st.ensure_stage0();
// Drill history back/forward (fase 10). Botones al inicio.
auto& U = ui();
{
bool can_back = !U.drill_back.empty();
ImGui::BeginDisabled(!can_back);
if (ImGui::SmallButton("<##drill_back")) {
DrillStep s = U.drill_back.back();
U.drill_back.pop_back();
if (undo_drill_step(st, s)) {
U.drill_forward.push_back(s);
}
}
ImGui::EndDisabled();
if (can_back && ImGui::IsItemHovered())
ImGui::SetTooltip("Drill back (%zu)", U.drill_back.size());
ImGui::SameLine();
bool can_fwd = !U.drill_forward.empty();
ImGui::BeginDisabled(!can_fwd);
if (ImGui::SmallButton(">##drill_fwd")) {
DrillStep s = U.drill_forward.back();
U.drill_forward.pop_back();
if (apply_drill_step(st, s)) {
U.drill_back.push_back(s);
}
}
ImGui::EndDisabled();
if (can_fwd && ImGui::IsItemHovered())
ImGui::SetTooltip("Drill forward (%zu)", U.drill_forward.size());
ImGui::SameLine();
bool can_up = (st.active_stage > 0);
ImGui::BeginDisabled(!can_up);
if (ImGui::SmallButton("^##drill_up")) drill_up(st);
ImGui::EndDisabled();
if (can_up && ImGui::IsItemHovered())
ImGui::SetTooltip("Drill up (stage previo, sin perder filters)");
ImGui::SameLine();
ImGui::TextDisabled("|");
ImGui::SameLine();
}
for (int si = 0; si < (int)st.stages.size(); ++si) {
if (si > 0) { ImGui::SameLine(); ImGui::TextDisabled(">"); ImGui::SameLine(); }
bool active = (si == st.active_stage);
if (active) {
ImGui::PushStyleColor(ImGuiCol_Button, IM_COL32( 80, 140, 200, 240));
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, IM_COL32(100, 160, 220, 240));
ImGui::PushStyleColor(ImGuiCol_ButtonActive, IM_COL32( 60, 120, 180, 240));
} else {
ImGui::PushStyleColor(ImGuiCol_Button, IM_COL32( 70, 70, 90, 200));
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, IM_COL32( 90, 90, 120, 220));
ImGui::PushStyleColor(ImGuiCol_ButtonActive, IM_COL32( 55, 55, 75, 220));
}
char label[256];
if (si == 0) {
std::snprintf(label, sizeof(label), "Raw##stage%d", si);
} else {
const Stage& s = st.stages[si];
std::string desc;
for (size_t i = 0; i < s.breakouts.size() && i < 2; ++i) {
if (i > 0) desc += ", ";
desc += s.breakouts[i];
}
if (s.breakouts.size() > 2) desc += "...";
if (desc.empty())
std::snprintf(label, sizeof(label), "Stage %d##s%d", si, si);
else
std::snprintf(label, sizeof(label), "Stage %d: by %s##s%d",
si, desc.c_str(), si);
}
if (ImGui::Button(label)) st.active_stage = si;
ImGui::PopStyleColor(3);
if (si > 0) {
ImGui::SameLine();
char xlbl[32];
std::snprintf(xlbl, sizeof(xlbl), "x##rm_s%d", si);
if (ImGui::SmallButton(xlbl)) {
// borra ese stage y sucesores
while ((int)st.stages.size() > si) st.stages.pop_back();
if (st.active_stage >= (int)st.stages.size())
st.active_stage = (int)st.stages.size() - 1;
if (st.active_stage < 0) st.active_stage = 0;
break;
}
}
}
ImGui::SameLine();
ImGui::TextDisabled(">");
ImGui::SameLine();
if (ImGui::SmallButton("+ Stage##add_stage")) {
st.stages.push_back(Stage{});
st.active_stage = (int)st.stages.size() - 1;
}
}
struct ColInfo { std::string name; ColumnType type; };
std::vector<ColInfo> collect_active_col_info(const State& st);
// Auto-promote: si user en stage 0 elige una viz que necesita agrupacion,
// crea stage 1 con breakout=primera cat + agg=sum(primera num) o count.
void auto_promote_aggregated(State& st) {
auto& U = ui();
if (st.active_stage != 0) return;
if (st.stages.size() != 1) return;
std::string cat_name;
std::string num_name;
for (size_t i = 0; i < U.active_headers.size() && i < U.active_types.size(); ++i) {
ColumnType t = U.active_types[i];
if (cat_name.empty() &&
(t == ColumnType::String || t == ColumnType::Date ||
t == ColumnType::Bool || t == ColumnType::Json)) {
cat_name = U.active_headers[i];
}
if (num_name.empty() &&
(t == ColumnType::Int || t == ColumnType::Float)) {
num_name = U.active_headers[i];
}
}
Stage s1;
if (!cat_name.empty()) s1.breakouts.push_back(cat_name);
Aggregation a;
if (!num_name.empty()) {
a.fn = AggFn::Sum;
a.col = num_name;
} else {
a.fn = AggFn::Count;
}
s1.aggregations.push_back(a);
st.stages.push_back(std::move(s1));
st.active_stage = (int)st.stages.size() - 1;
}
// Toggle simple: un solo boton que alterna entre Table y el last_non_table.
// Para el main pasa st (para poder auto-promote a stage agregado si la viz
// destino lo requiere). Para extras usar overload sin State.
void draw_table_toggle(ViewMode& display, ViewMode& last_non_table,
const char* id_suffix, State* st_opt = nullptr) {
bool is_table = (display == ViewMode::Table);
char b[64];
std::snprintf(b, sizeof(b), "%s##tbl_%s",
is_table ? "Show chart" : "Show table", id_suffix);
ImGui::PushStyleColor(ImGuiCol_Button, IM_COL32(80, 140, 200, 240));
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, IM_COL32(100, 160, 220, 240));
if (ImGui::SmallButton(b)) {
if (is_table) {
ViewMode tgt = (last_non_table == ViewMode::Table)
? ViewMode::Bar : last_non_table;
display = tgt;
if (st_opt && view_mode_needs_aggregation(tgt)) {
auto_promote_aggregated(*st_opt);
}
} else {
last_non_table = display;
display = ViewMode::Table;
}
}
ImGui::PopStyleColor(2);
}
// Render extra viz panel: child window con toolbar mini + chart.
// Devuelve true si user pidio cerrar.
bool draw_extra_panel(State& st, VizPanel& p, int idx, const StageOutput& so,
const std::vector<ColumnSpec>* col_specs = nullptr) {
bool close_req = false;
char child_id[64]; std::snprintf(child_id, sizeof(child_id), "##extra_viz_%d", idx);
ImGui::BeginChild(child_id, ImVec2(0, 320), true);
// Toolbar
int n_modes = 0;
const ViewMode* modes = all_view_modes(&n_modes);
ImGui::TextDisabled("View:");
ImGui::SameLine();
ImGui::SetNextItemWidth(180);
char combo_id[64]; std::snprintf(combo_id, sizeof(combo_id), "##ev_mode_%d", idx);
if (ImGui::BeginCombo(combo_id, view_mode_label(p.display))) {
for (int i = 0; i < n_modes; ++i) {
bool sel = (modes[i] == p.display);
if (ImGui::Selectable(view_mode_label(modes[i]), sel)) {
p.display = modes[i];
p.config.fit_request = true;
}
if (sel) ImGui::SetItemDefaultFocus();
}
ImGui::EndCombo();
}
ImGui::SameLine();
char fit_id[32]; std::snprintf(fit_id, sizeof(fit_id), "Fit##ev_fit_%d", idx);
if (ImGui::SmallButton(fit_id)) p.config.fit_request = true;
ImGui::SameLine();
char lock_id[32]; std::snprintf(lock_id, sizeof(lock_id), "%s##ev_lock_%d",
p.config.locked ? "Locked" : "Lock", idx);
if (p.config.locked) {
ImGui::PushStyleColor(ImGuiCol_Button, IM_COL32(180, 60, 60, 230));
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, IM_COL32(200, 80, 80, 240));
ImGui::PushStyleColor(ImGuiCol_ButtonActive, IM_COL32(150, 40, 40, 240));
}
if (ImGui::SmallButton(lock_id)) p.config.locked = !p.config.locked;
if (p.config.locked) ImGui::PopStyleColor(3);
ImGui::SameLine();
char close_id[32]; std::snprintf(close_id, sizeof(close_id), "X##ev_close_%d", idx);
ImGui::PushStyleColor(ImGuiCol_Button, IM_COL32(120, 50, 50, 220));
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, IM_COL32(160, 70, 70, 240));
if (ImGui::SmallButton(close_id)) close_req = true;
ImGui::PopStyleColor(2);
// Toggle Table <-> View per-panel
char ts[32]; std::snprintf(ts, sizeof(ts), "ep%d", idx);
draw_table_toggle(p.display, p.last_non_table, ts);
// Render: si Table -> mini table; else chart.
if (p.display == ViewMode::Table) {
ImGuiTableFlags flags = ImGuiTableFlags_Borders | ImGuiTableFlags_RowBg |
ImGuiTableFlags_Resizable | ImGuiTableFlags_ScrollY |
ImGuiTableFlags_ScrollX;
char tid[64]; std::snprintf(tid, sizeof(tid), "##ep_table_%d", idx);
if (so.cols > 0 && ImGui::BeginTable(tid, so.cols, flags, ImVec2(0, 0))) {
for (int c = 0; c < so.cols; ++c)
ImGui::TableSetupColumn(so.headers[c].c_str());
ImGui::TableHeadersRow();
for (int r = 0; r < so.rows; ++r) {
ImGui::TableNextRow();
for (int c = 0; c < so.cols; ++c) {
ImGui::TableSetColumnIndex(c);
const char* s = so.cells[(size_t)r * so.cols + c];
// Issue 0081-N: declarative renderer for extra panel mini-table.
// events_out not propagated to mini-table (secondary render).
bool custom_ep = false;
if (col_specs && c < (int)col_specs->size()) {
const ColumnSpec& cs = (*col_specs)[(size_t)c];
if (cs.renderer != CellRenderer::Text) {
draw_cell_custom(cs, s, r, c, nullptr);
custom_ep = true;
}
}
if (!custom_ep) ImGui::TextUnformatted(s ? s : "");
}
}
ImGui::EndTable();
}
} else {
viz::render(so, p.display, p.config, ImVec2(-1, -1));
}
ImGui::EndChild();
(void)st;
return close_req;
}
void draw_viz_config_popup(State& st) {
if (!ImGui::BeginPopup("##viz_cfg_popup")) return;
ImGui::Text("Configure: %s", view_mode_label(st.display));
ImGui::Separator();
auto cols = collect_active_col_info(st);
std::vector<const char*> all_names;
std::vector<const char*> num_names;
std::vector<const char*> cat_names;
for (auto& c : cols) {
all_names.push_back(c.name.c_str());
if (c.type == ColumnType::Int || c.type == ColumnType::Float)
num_names.push_back(c.name.c_str());
else
cat_names.push_back(c.name.c_str());
}
auto& vc = st.viz_config;
ViewMode m = st.display;
auto combo_for_col = [&](const char* label, std::string& target,
const std::vector<const char*>& options) {
const char* preview = target.empty() ? "(auto)" : target.c_str();
ImGui::SetNextItemWidth(220);
if (ImGui::BeginCombo(label, preview)) {
if (ImGui::Selectable("(auto)", target.empty())) target.clear();
for (auto& o : options) {
bool sel = (target == o);
if (ImGui::Selectable(o, sel)) target = o;
}
ImGui::EndCombo();
}
};
// X col: scatter, line, area, stairs, hist2d, bubble
bool needs_x = (m == ViewMode::Scatter || m == ViewMode::Line ||
m == ViewMode::Area || m == ViewMode::Stairs ||
m == ViewMode::Histogram2D || m == ViewMode::Bubble);
if (needs_x) combo_for_col("X column", vc.x_col, num_names);
// Y cols: most modes
bool needs_y = (m != ViewMode::Pie && m != ViewMode::Donut && m != ViewMode::Funnel &&
m != ViewMode::Candlestick);
if (needs_y) {
ImGui::Text("Y columns:");
ImGui::SameLine();
ImGui::TextDisabled("(%d selected; empty = auto)", (int)vc.y_cols.size());
ImGui::Indent();
// Show checkbox for each numeric col
for (auto& nn : num_names) {
std::string ns = nn;
bool checked = std::find(vc.y_cols.begin(), vc.y_cols.end(), ns) != vc.y_cols.end();
if (ImGui::Checkbox(nn, &checked)) {
if (checked) vc.y_cols.push_back(ns);
else {
auto it = std::find(vc.y_cols.begin(), vc.y_cols.end(), ns);
if (it != vc.y_cols.end()) vc.y_cols.erase(it);
}
}
}
ImGui::Unindent();
if (ImGui::SmallButton("Clear Y##clr_y")) vc.y_cols.clear();
}
// Cat col: bar/pie/funnel/box/waterfall
bool needs_cat = (m == ViewMode::Bar || m == ViewMode::Column ||
m == ViewMode::GroupedBar || m == ViewMode::StackedBar ||
m == ViewMode::Pie || m == ViewMode::Donut ||
m == ViewMode::Funnel || m == ViewMode::BoxPlot ||
m == ViewMode::Waterfall);
if (needs_cat) {
// Si el active stage YA esta agrupado (breakouts != empty), la categoria
// del chart la dicta el breakout. Mostrar todas las cols del INPUT del
// stage (= cols pre-agrupacion). Selecionar otra = reemplaza breakouts[0]
// (re-agrupa).
int as = st.active_stage;
bool grouped = (as >= 0 && as < (int)st.stages.size() &&
!st.stages[as].breakouts.empty());
const auto& U = ui();
if (grouped) {
std::vector<const char*> input_cat_names;
for (size_t i = 0; i < U.input_headers_active.size() &&
i < U.input_types_active.size(); ++i) {
ColumnType t = U.input_types_active[i];
if (t == ColumnType::String || t == ColumnType::Date ||
t == ColumnType::Bool || t == ColumnType::Json) {
input_cat_names.push_back(U.input_headers_active[i].c_str());
}
}
std::string cur_break = st.stages[as].breakouts[0];
const char* preview = cur_break.empty() ? "(none)" : cur_break.c_str();
ImGui::SetNextItemWidth(220);
if (ImGui::BeginCombo("Category (breakout)", preview)) {
for (auto& o : input_cat_names) {
bool sel = (cur_break == o);
if (ImGui::Selectable(o, sel)) {
st.stages[as].breakouts[0] = o;
}
}
ImGui::EndCombo();
}
} else {
combo_for_col("Category", vc.cat_col, cat_names);
}
}
// Size col: bubble
if (m == ViewMode::Bubble) combo_for_col("Size column", vc.size_col, num_names);
// Color
ImGui::Separator();
float col_f[4] = {
((vc.primary_color) & 0xFF) / 255.0f,
((vc.primary_color >> 8) & 0xFF) / 255.0f,
((vc.primary_color >> 16) & 0xFF) / 255.0f,
((vc.primary_color >> 24) & 0xFF) / 255.0f,
};
if (vc.primary_color == 0) { col_f[0]=col_f[1]=col_f[2]=1.0f; col_f[3]=1.0f; }
if (ImGui::ColorEdit4("Primary color", col_f, ImGuiColorEditFlags_AlphaBar)) {
unsigned int r = (unsigned int)(col_f[0] * 255);
unsigned int g = (unsigned int)(col_f[1] * 255);
unsigned int b = (unsigned int)(col_f[2] * 255);
unsigned int a = (unsigned int)(col_f[3] * 255);
vc.primary_color = (a << 24) | (b << 16) | (g << 8) | r;
}
ImGui::SameLine();
if (ImGui::SmallButton("Auto##color")) vc.primary_color = 0;
// Hist bins
if (m == ViewMode::Histogram || m == ViewMode::Histogram2D) {
ImGui::SetNextItemWidth(120);
int b = vc.hist_bins;
if (ImGui::InputInt("Bins (0=auto)", &b)) {
if (b < 0) b = 0;
vc.hist_bins = b;
}
}
// Pie radius
if (m == ViewMode::Pie || m == ViewMode::Donut) {
ImGui::SetNextItemWidth(120);
float r = vc.pie_radius;
if (ImGui::SliderFloat("Radius (0=auto)", &r, 0.0f, 0.5f, "%.2f")) {
vc.pie_radius = r;
}
}
// Toggles
ImGui::Separator();
ImGui::Checkbox("Show legend", &vc.show_legend);
if (m == ViewMode::Line || m == ViewMode::Area || m == ViewMode::Stairs) {
ImGui::SameLine();
ImGui::Checkbox("Show markers", &vc.show_markers);
}
ImGui::Separator();
if (ImGui::SmallButton("Reset config")) {
vc = ViewConfig{};
}
ImGui::SameLine();
if (ImGui::SmallButton("Close")) ImGui::CloseCurrentPopup();
ImGui::EndPopup();
}
// Devuelve nombres + tipos del active stage output snapshot (poblado por render).
std::vector<ColInfo> collect_active_col_info(const State& st) {
(void)st;
auto& U = ui();
std::vector<ColInfo> r;
int n = (int)std::min(U.active_headers.size(), U.active_types.size());
r.reserve(n);
for (int i = 0; i < n; ++i) r.push_back({U.active_headers[i], U.active_types[i]});
return r;
}
void draw_viz_selector(State& st) {
int n_modes = 0;
const ViewMode* modes = all_view_modes(&n_modes);
// Right-align: reserve "View: [combo] [Fit] [Lock] [Config] [+ Viz]"
const float combo_w = 200.0f;
const float total_w = combo_w + 50.0f + 280.0f;
float right_edge = ImGui::GetWindowContentRegionMax().x;
float target_x = right_edge - total_w;
float min_x = ImGui::GetCursorPosX() + 20.0f; // do not overlap breadcrumb
if (target_x < min_x) target_x = min_x;
ImGui::SameLine();
ImGui::SetCursorPosX(target_x);
ImGui::TextDisabled("View:");
ImGui::SameLine();
ImGui::SetNextItemWidth(combo_w);
if (ImGui::BeginCombo("##viz_mode", view_mode_label(st.display))) {
for (int i = 0; i < n_modes; ++i) {
bool sel = (modes[i] == st.display);
if (ImGui::Selectable(view_mode_label(modes[i]), sel)) {
ViewMode nm = modes[i];
if (nm != st.display) {
st.display = nm;
if (view_mode_needs_aggregation(nm)) {
auto_promote_aggregated(st);
}
}
}
if (sel) ImGui::SetItemDefaultFocus();
}
ImGui::EndCombo();
}
ImGui::SameLine();
if (ImGui::SmallButton("Fit##viz_fit")) {
st.viz_config.fit_request = true;
}
ImGui::SameLine();
bool locked = st.viz_config.locked;
if (locked) {
ImGui::PushStyleColor(ImGuiCol_Button, IM_COL32(180, 60, 60, 230));
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, IM_COL32(200, 80, 80, 240));
ImGui::PushStyleColor(ImGuiCol_ButtonActive, IM_COL32(150, 40, 40, 240));
}
if (ImGui::SmallButton(locked ? "Locked##viz_lock" : "Lock##viz_lock")) {
st.viz_config.locked = !st.viz_config.locked;
}
if (locked) ImGui::PopStyleColor(3);
ImGui::SameLine();
if (ImGui::SmallButton("Config##viz_cfg")) {
ImGui::OpenPopup("##viz_cfg_popup");
}
ImGui::SameLine();
if (ImGui::SmallButton("Ask AI##ask_open")) {
auto& U2 = ui();
U2.ask_open = true;
U2.ask_busy = false;
U2.ask_error.clear();
U2.ask_status.clear();
U2.ask_response_code.clear();
U2.ask_response_raw.clear();
U2.ask_current_tql = tql::emit(st,
std::vector<std::string>(), // emit headers stage 0 (caller fill si necesario)
std::vector<ColumnType>());
}
ImGui::SameLine();
if (ImGui::SmallButton("+ Viz##viz_add")) {
VizPanel p;
p.display = ViewMode::Bar;
if (view_mode_needs_aggregation(p.display)) {
auto_promote_aggregated(st);
}
st.extra_panels.push_back(p);
}
draw_viz_config_popup(st);
ImGui::NewLine();
}
// ---------------------------------------------------------------------------
// Join chips (fase 9 — solo visible si hay joinables).
// ---------------------------------------------------------------------------
void draw_joins_chips(State& st, const std::vector<TableInput>& joinables,
const std::vector<std::string>& main_headers) {
ImGui::PushStyleColor(ImGuiCol_Button, IM_COL32( 80, 130, 90, 220));
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, IM_COL32(100, 160, 110, 240));
ImGui::PushStyleColor(ImGuiCol_ButtonActive, IM_COL32( 60, 110, 70, 220));
ImGui::TextDisabled("Joins:");
ImGui::SameLine();
int remove_idx = -1;
for (size_t i = 0; i < st.joins.size(); ++i) {
const auto& jn = st.joins[i];
char lbl[256];
std::string on_str;
for (size_t k = 0; k < jn.on.size(); ++k) {
if (k) on_str += ",";
on_str += jn.on[k].first + "=" + jn.on[k].second;
}
std::snprintf(lbl, sizeof(lbl), "%s <- %s on %s (%s)##join_%zu",
jn.alias.empty() ? "_" : jn.alias.c_str(),
jn.source.c_str(),
on_str.c_str(),
join_strategy_label(jn.strategy),
i);
ImGui::Button(lbl);
ImGui::SameLine();
char xlbl[32]; std::snprintf(xlbl, sizeof(xlbl), "x##rm_join_%zu", i);
if (ImGui::SmallButton(xlbl)) remove_idx = (int)i;
ImGui::SameLine();
}
if (remove_idx >= 0) st.joins.erase(st.joins.begin() + remove_idx);
if (ImGui::SmallButton("+##add_join")) {
ImGui::OpenPopup("##add_join_popup");
}
ImGui::PopStyleColor(3);
// Popup add
static int pick_source_idx = 0;
static char pick_alias[64] = "";
static int pick_strategy = 0;
static int pick_left_col = 0;
static int pick_right_col = 0;
if (ImGui::BeginPopup("##add_join_popup")) {
ImGui::Text("Add join");
ImGui::SetNextItemWidth(180);
if (ImGui::BeginCombo("source", joinables[pick_source_idx].name.c_str())) {
for (int k = 0; k < (int)joinables.size(); ++k) {
bool sel = (k == pick_source_idx);
if (ImGui::Selectable(joinables[k].name.c_str(), sel)) {
pick_source_idx = k;
pick_right_col = 0;
if (pick_alias[0] == 0)
std::snprintf(pick_alias, sizeof(pick_alias), "%s", joinables[k].name.c_str());
}
}
ImGui::EndCombo();
}
ImGui::SetNextItemWidth(180);
ImGui::InputText("alias", pick_alias, sizeof(pick_alias));
const char* strategies[] = {"left", "inner", "right", "full"};
ImGui::SetNextItemWidth(120);
ImGui::Combo("strategy", &pick_strategy, strategies, IM_ARRAYSIZE(strategies));
// left col combo (de main_headers)
ImGui::SetNextItemWidth(180);
const char* lcur = (pick_left_col >= 0 && pick_left_col < (int)main_headers.size())
? main_headers[pick_left_col].c_str() : "?";
if (ImGui::BeginCombo("left col", lcur)) {
for (int k = 0; k < (int)main_headers.size(); ++k) {
bool sel = (k == pick_left_col);
if (ImGui::Selectable(main_headers[k].c_str(), sel)) pick_left_col = k;
}
ImGui::EndCombo();
}
// right col combo (de joinables[pick_source_idx].headers)
const TableInput& src = joinables[pick_source_idx];
const char* rcur = (pick_right_col >= 0 && pick_right_col < (int)src.headers.size())
? src.headers[pick_right_col].c_str() : "?";
ImGui::SetNextItemWidth(180);
if (ImGui::BeginCombo("right col", rcur)) {
for (int k = 0; k < (int)src.headers.size(); ++k) {
bool sel = (k == pick_right_col);
if (ImGui::Selectable(src.headers[k].c_str(), sel)) pick_right_col = k;
}
ImGui::EndCombo();
}
ImGui::Separator();
if (ImGui::SmallButton("Add")) {
Join jn;
jn.alias = pick_alias;
jn.source = src.name;
jn.on.push_back({main_headers[pick_left_col], src.headers[pick_right_col]});
jn.strategy = (JoinStrategy)pick_strategy;
st.joins.push_back(jn);
pick_alias[0] = 0;
ImGui::CloseCurrentPopup();
}
ImGui::SameLine();
if (ImGui::SmallButton("Cancel")) ImGui::CloseCurrentPopup();
ImGui::EndPopup();
}
ImGui::NewLine();
}
// ---------------------------------------------------------------------------
// Filter chips para el stage activo. eff_headers/eff_cols son del INPUT del
// stage activo (= orig+derived para stage 0; output del stage previo para 1+).
// ---------------------------------------------------------------------------
void draw_filter_chips(Stage& stg, const char* const* eff_headers, int eff_cols,
const std::vector<ColumnType>& eff_types) {
auto& U = ui();
ImGui::PushStyleColor(ImGuiCol_Button, IM_COL32(120, 60, 170, 220));
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, IM_COL32(150, 85, 200, 240));
ImGui::PushStyleColor(ImGuiCol_ButtonActive, IM_COL32( 95, 45, 140, 240));
if (ImGui::SmallButton("+##addfilter_btn")) ImGui::OpenPopup("##addfilter");
ImGui::PopStyleColor(3);
ImGui::SameLine();
// Presets (fase 10): menu con Last7/30/90d (cols Date), ExcludeNulls (any),
// NonZero (cols numericas). Apply append a stg.filters via build_preset_filters.
if (ImGui::SmallButton("Presets##fpresets")) ImGui::OpenPopup("##presets_menu");
if (ImGui::BeginPopup("##presets_menu")) {
int first_date = -1, first_num = -1;
for (int c = 0; c < eff_cols && c < (int)eff_types.size(); ++c) {
if (first_date < 0 && eff_types[c] == ColumnType::Date) first_date = c;
if (first_num < 0 && (eff_types[c] == ColumnType::Int ||
eff_types[c] == ColumnType::Float)) first_num = c;
}
auto apply_preset = [&](FilterPreset p, int col) {
auto fs = build_preset_filters(p, col, today_iso());
for (auto& f : fs) stg.filters.push_back(f);
};
if (first_date >= 0) {
char l1[96], l2[96], l3[96];
std::snprintf(l1, sizeof(l1), "Last 7 days on \"%s\"", eff_headers[first_date]);
std::snprintf(l2, sizeof(l2), "Last 30 days on \"%s\"", eff_headers[first_date]);
std::snprintf(l3, sizeof(l3), "Last 90 days on \"%s\"", eff_headers[first_date]);
if (ImGui::MenuItem(l1)) apply_preset(FilterPreset::Last7d, first_date);
if (ImGui::MenuItem(l2)) apply_preset(FilterPreset::Last30d, first_date);
if (ImGui::MenuItem(l3)) apply_preset(FilterPreset::Last90d, first_date);
ImGui::Separator();
}
if (ImGui::BeginMenu("Exclude nulls in...")) {
for (int c = 0; c < eff_cols; ++c) {
if (ImGui::MenuItem(eff_headers[c])) apply_preset(FilterPreset::ExcludeNulls, c);
}
ImGui::EndMenu();
}
if (first_num >= 0) {
if (ImGui::BeginMenu("Non-zero in...")) {
for (int c = 0; c < eff_cols && c < (int)eff_types.size(); ++c) {
if (eff_types[c] == ColumnType::Int || eff_types[c] == ColumnType::Float) {
if (ImGui::MenuItem(eff_headers[c])) apply_preset(FilterPreset::NonZero, c);
}
}
ImGui::EndMenu();
}
}
ImGui::EndPopup();
}
ImGui::SameLine();
if (stg.filters.empty()) {
ImGui::TextDisabled("Sin filtros.");
return;
}
for (size_t i = 0; i < stg.filters.size(); ) {
const auto& f = stg.filters[i];
const char* hdr = (f.col >= 0 && f.col < eff_cols) ? eff_headers[f.col] : "?";
char buf[256];
std::snprintf(buf, sizeof(buf), "%s %s %s x##chip%zu",
hdr, op_label(f.op), f.value.c_str(), i);
ImGui::PushStyleColor(ImGuiCol_Button, IM_COL32(120, 60, 170, 220));
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, IM_COL32(150, 85, 200, 240));
ImGui::PushStyleColor(ImGuiCol_ButtonActive, IM_COL32( 95, 45, 140, 240));
bool clicked = ImGui::SmallButton(buf);
ImGui::PopStyleColor(3);
// Click derecho: edit
if (ImGui::IsItemClicked(ImGuiMouseButton_Right)) {
U.edit_chip_kind = 1;
U.edit_chip_idx = (int)i;
U.edit_col_idx = f.col;
U.edit_op = (int)f.op;
U.edit_value = f.value;
ImGui::OpenPopup("##edit_filter");
}
if (clicked) { stg.filters.erase(stg.filters.begin() + i); continue; }
ImGui::SameLine();
++i;
}
ImGui::NewLine();
}
// Chips de breakout (stage > 0).
void draw_breakout_chips(Stage& stg, const char* const* in_headers, int in_cols,
const std::vector<ColumnType>& in_types) {
auto& U = ui();
ImGui::PushStyleColor(ImGuiCol_Button, IM_COL32( 60, 160, 170, 220));
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, IM_COL32( 80, 190, 200, 240));
ImGui::PushStyleColor(ImGuiCol_ButtonActive, IM_COL32( 40, 130, 140, 240));
if (ImGui::SmallButton("+##addbreakout_btn")) ImGui::OpenPopup("##addbreakout");
ImGui::PopStyleColor(3);
ImGui::SameLine();
if (stg.breakouts.empty()) {
ImGui::TextDisabled("Group by: ninguna col.");
return;
}
for (size_t i = 0; i < stg.breakouts.size(); ) {
std::string col_name;
DateGranularity g = parse_breakout_granularity(stg.breakouts[i], col_name);
// Resolve col index para lookup de tipo.
int col_idx = -1;
for (int c = 0; c < in_cols; ++c) {
if (std::strcmp(in_headers[c], col_name.c_str()) == 0) { col_idx = c; break; }
}
bool is_date_col = (col_idx >= 0 && col_idx < (int)in_types.size()
&& in_types[col_idx] == ColumnType::Date);
char buf[256];
std::snprintf(buf, sizeof(buf), "%s x##bk%zu", stg.breakouts[i].c_str(), i);
ImGui::PushStyleColor(ImGuiCol_Button, IM_COL32( 60, 160, 170, 220));
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, IM_COL32( 80, 190, 200, 240));
ImGui::PushStyleColor(ImGuiCol_ButtonActive, IM_COL32( 40, 130, 140, 240));
bool clicked = ImGui::SmallButton(buf);
ImGui::PopStyleColor(3);
if (ImGui::IsItemClicked(ImGuiMouseButton_Right)) {
U.edit_chip_kind = 2;
U.edit_chip_idx = (int)i;
U.edit_col_idx = (col_idx >= 0) ? col_idx : 0;
ImGui::OpenPopup("##edit_breakout");
}
if (clicked) { stg.breakouts.erase(stg.breakouts.begin() + i); continue; }
// Granularity combo inline cuando col Date (fase 10).
if (is_date_col) {
ImGui::SameLine();
const char* preview = (g == DateGranularity::None)
? "(raw)" : date_granularity_token(g);
char combo_id[32];
std::snprintf(combo_id, sizeof(combo_id), "##gran%zu", i);
ImGui::SetNextItemWidth(72);
if (ImGui::BeginCombo(combo_id, preview)) {
DateGranularity opts[] = {
DateGranularity::None,
DateGranularity::Year,
DateGranularity::Month,
DateGranularity::Week,
DateGranularity::Day,
DateGranularity::Hour,
};
for (auto o : opts) {
const char* lbl = (o == DateGranularity::None)
? "(raw)" : date_granularity_token(o);
if (ImGui::Selectable(lbl, o == g)) {
stg.breakouts[i] = compose_breakout(col_name, o);
}
}
ImGui::EndCombo();
}
}
ImGui::SameLine();
++i;
}
ImGui::NewLine();
}
const char* agg_fn_label(AggFn f) {
switch (f) {
case AggFn::Count: return "count";
case AggFn::Sum: return "sum";
case AggFn::Avg: return "avg";
case AggFn::Min: return "min";
case AggFn::Max: return "max";
case AggFn::Distinct: return "distinct";
case AggFn::Stddev: return "stddev";
case AggFn::Median: return "median";
case AggFn::P25: return "p25";
case AggFn::P75: return "p75";
case AggFn::P90: return "p90";
case AggFn::P99: return "p99";
case AggFn::Percentile: return "percentile";
}
return "?";
}
void draw_aggregation_chips(Stage& stg, const char* const* in_headers, int in_cols) {
auto& U = ui();
ImGui::PushStyleColor(ImGuiCol_Button, IM_COL32( 40, 140, 60, 220));
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, IM_COL32( 60, 170, 85, 240));
ImGui::PushStyleColor(ImGuiCol_ButtonActive, IM_COL32( 30, 110, 45, 240));
if (ImGui::SmallButton("+##addagg_btn")) ImGui::OpenPopup("##addagg");
ImGui::PopStyleColor(3);
ImGui::SameLine();
if (stg.aggregations.empty()) {
ImGui::TextDisabled("Aggregations: ninguna.");
return;
}
for (size_t i = 0; i < stg.aggregations.size(); ) {
const auto& a = stg.aggregations[i];
char buf[256];
if (a.fn == AggFn::Count) {
std::snprintf(buf, sizeof(buf), "count x##ag%zu", i);
} else if (a.fn == AggFn::Percentile) {
std::snprintf(buf, sizeof(buf), "percentile(%s, %g) x##ag%zu",
a.col.c_str(), a.arg, i);
} else {
std::snprintf(buf, sizeof(buf), "%s(%s) x##ag%zu",
agg_fn_label(a.fn), a.col.c_str(), i);
}
ImGui::PushStyleColor(ImGuiCol_Button, IM_COL32( 40, 140, 60, 220));
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, IM_COL32( 60, 170, 85, 240));
ImGui::PushStyleColor(ImGuiCol_ButtonActive, IM_COL32( 30, 110, 45, 240));
bool clicked = ImGui::SmallButton(buf);
ImGui::PopStyleColor(3);
if (ImGui::IsItemClicked(ImGuiMouseButton_Right)) {
U.edit_chip_kind = 3;
U.edit_chip_idx = (int)i;
U.edit_agg_fn = (int)a.fn;
U.edit_agg_arg = a.arg;
U.edit_col_idx = 0;
for (int c = 0; c < in_cols; ++c) {
if (std::strcmp(in_headers[c], a.col.c_str()) == 0) {
U.edit_col_idx = c; break;
}
}
ImGui::OpenPopup("##edit_agg");
}
if (clicked) { stg.aggregations.erase(stg.aggregations.begin() + i); continue; }
ImGui::SameLine();
++i;
}
(void)in_headers; (void)in_cols;
ImGui::NewLine();
}
void draw_sort_chips(Stage& stg) {
auto& U = ui();
ImGui::PushStyleColor(ImGuiCol_Button, IM_COL32(220, 130, 50, 230));
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, IM_COL32(240, 155, 75, 245));
ImGui::PushStyleColor(ImGuiCol_ButtonActive, IM_COL32(180, 100, 30, 240));
if (ImGui::SmallButton("+##addsort_btn")) ImGui::OpenPopup("##addsort");
ImGui::PopStyleColor(3);
ImGui::SameLine();
if (stg.sorts.empty()) {
ImGui::TextDisabled("Sort: ninguno.");
return;
}
int erase_idx = -1;
int drag_src = -1;
int drag_dst = -1;
for (size_t i = 0; i < stg.sorts.size(); ++i) {
const auto& sc = stg.sorts[i];
char buf[256];
std::snprintf(buf, sizeof(buf), "%zu. %s %s x##srt%zu",
i + 1, sc.col.c_str(), sc.desc ? "desc" : "asc", i);
ImGui::PushStyleColor(ImGuiCol_Button, IM_COL32(220, 130, 50, 230));
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, IM_COL32(240, 155, 75, 245));
ImGui::PushStyleColor(ImGuiCol_ButtonActive, IM_COL32(180, 100, 30, 240));
bool clicked = ImGui::SmallButton(buf);
ImGui::PopStyleColor(3);
// Drag source: prioridad multi-sort reorderable.
if (ImGui::BeginDragDropSource(ImGuiDragDropFlags_SourceAllowNullID)) {
int idx = (int)i;
ImGui::SetDragDropPayload("##sortreorder", &idx, sizeof(int));
ImGui::Text("Move sort #%zu", i + 1);
ImGui::EndDragDropSource();
}
if (ImGui::BeginDragDropTarget()) {
if (const ImGuiPayload* p = ImGui::AcceptDragDropPayload("##sortreorder")) {
drag_src = *(const int*)p->Data;
drag_dst = (int)i;
}
ImGui::EndDragDropTarget();
}
if (ImGui::IsItemClicked(ImGuiMouseButton_Right)) {
U.edit_chip_kind = 4;
U.edit_chip_idx = (int)i;
U.edit_value = sc.col;
U.edit_sort_desc = sc.desc;
ImGui::OpenPopup("##edit_sort");
}
if (clicked) erase_idx = (int)i;
ImGui::SameLine();
}
ImGui::NewLine();
if (drag_src >= 0 && drag_dst >= 0 && drag_src != drag_dst &&
drag_src < (int)stg.sorts.size() && drag_dst < (int)stg.sorts.size())
{
SortClause moved = std::move(stg.sorts[drag_src]);
stg.sorts.erase(stg.sorts.begin() + drag_src);
int insert_at = (drag_src < drag_dst) ? drag_dst : drag_dst;
if (insert_at > (int)stg.sorts.size()) insert_at = (int)stg.sorts.size();
stg.sorts.insert(stg.sorts.begin() + insert_at, std::move(moved));
} else if (erase_idx >= 0 && erase_idx < (int)stg.sorts.size()) {
stg.sorts.erase(stg.sorts.begin() + erase_idx);
}
}
// ---- Edit chip popups: click derecho sobre chip abre popup. ----
// Header click handler:
// click: si col ya esta en sorts -> cicla su direccion asc/desc/off.
// sino -> append {col, asc} al final (multi-sort por defecto).
// shift+click: reset. Reemplaza sorts con {col, asc} (sort unico).
void apply_header_sort_click(Stage& stg, const std::string& col_name, bool shift) {
if (shift) {
stg.sorts.clear();
stg.sorts.push_back({col_name, false});
return;
}
int idx = -1;
for (size_t i = 0; i < stg.sorts.size(); ++i) {
if (stg.sorts[i].col == col_name) { idx = (int)i; break; }
}
if (idx < 0) {
stg.sorts.push_back({col_name, false});
} else {
if (!stg.sorts[idx].desc) stg.sorts[idx].desc = true;
else stg.sorts.erase(stg.sorts.begin() + idx);
}
}
void draw_edit_filter_popup(Stage& stg, const char* const* headers, int n_cols,
const std::vector<ColumnType>& types) {
auto& U = ui();
if (!ImGui::BeginPopup("##edit_filter")) return;
if (U.edit_chip_idx >= 0 && U.edit_chip_idx < (int)stg.filters.size()) {
auto& f = stg.filters[U.edit_chip_idx];
ImGui::SetNextItemWidth(200);
const char* cur = (U.edit_col_idx >= 0 && U.edit_col_idx < n_cols)
? headers[U.edit_col_idx] : "?";
if (ImGui::BeginCombo("col", cur)) {
for (int c = 0; c < n_cols; ++c) {
bool sel = (U.edit_col_idx == c);
if (ImGui::Selectable(headers[c], sel)) U.edit_col_idx = c;
}
ImGui::EndCombo();
}
ColumnType t = (U.edit_col_idx >= 0 && U.edit_col_idx < (int)types.size())
? types[U.edit_col_idx] : ColumnType::String;
auto ops = ops_for_type(t);
ImGui::SetNextItemWidth(140);
if (ImGui::BeginCombo("op", op_label((Op)U.edit_op))) {
for (auto o : ops) {
bool sel = ((int)o == U.edit_op);
if (ImGui::Selectable(op_label(o), sel)) U.edit_op = (int)o;
}
ImGui::EndCombo();
}
char vbuf[256] = {0};
std::snprintf(vbuf, sizeof(vbuf), "%s", U.edit_value.c_str());
ImGui::SetNextItemWidth(220);
if (ImGui::InputText("value", vbuf, sizeof(vbuf))) U.edit_value = vbuf;
if (ImGui::Button("Save")) {
f.col = U.edit_col_idx;
f.op = (Op)U.edit_op;
f.value = U.edit_value;
ImGui::CloseCurrentPopup();
}
ImGui::SameLine();
if (ImGui::Button("Cancel")) ImGui::CloseCurrentPopup();
}
ImGui::EndPopup();
}
void draw_edit_breakout_popup(Stage& stg, const char* const* headers, int n_cols) {
auto& U = ui();
if (!ImGui::BeginPopup("##edit_breakout")) return;
if (U.edit_chip_idx >= 0 && U.edit_chip_idx < (int)stg.breakouts.size()) {
ImGui::SetNextItemWidth(240);
const char* cur = (U.edit_col_idx >= 0 && U.edit_col_idx < n_cols)
? headers[U.edit_col_idx] : "?";
if (ImGui::BeginCombo("col", cur)) {
for (int c = 0; c < n_cols; ++c) {
bool sel = (U.edit_col_idx == c);
if (ImGui::Selectable(headers[c], sel)) U.edit_col_idx = c;
}
ImGui::EndCombo();
}
if (ImGui::Button("Save")) {
if (U.edit_col_idx >= 0 && U.edit_col_idx < n_cols)
stg.breakouts[U.edit_chip_idx] = headers[U.edit_col_idx];
ImGui::CloseCurrentPopup();
}
ImGui::SameLine();
if (ImGui::Button("Cancel")) ImGui::CloseCurrentPopup();
}
ImGui::EndPopup();
}
void draw_edit_agg_popup(Stage& stg, const char* const* headers, int n_cols) {
auto& U = ui();
if (!ImGui::BeginPopup("##edit_agg")) return;
if (U.edit_chip_idx >= 0 && U.edit_chip_idx < (int)stg.aggregations.size()) {
const AggFn all_fns[] = {AggFn::Count, AggFn::Sum, AggFn::Avg, AggFn::Min, AggFn::Max,
AggFn::Distinct, AggFn::Stddev, AggFn::Median,
AggFn::P25, AggFn::P75, AggFn::P90, AggFn::P99,
AggFn::Percentile};
ImGui::SetNextItemWidth(160);
if (ImGui::BeginCombo("fn", agg_fn_label((AggFn)U.edit_agg_fn))) {
for (auto f : all_fns) {
bool sel = ((int)f == U.edit_agg_fn);
if (ImGui::Selectable(agg_fn_label(f), sel)) U.edit_agg_fn = (int)f;
}
ImGui::EndCombo();
}
if ((AggFn)U.edit_agg_fn != AggFn::Count) {
ImGui::SetNextItemWidth(200);
const char* cur = (U.edit_col_idx >= 0 && U.edit_col_idx < n_cols)
? headers[U.edit_col_idx] : "?";
if (ImGui::BeginCombo("col", cur)) {
for (int c = 0; c < n_cols; ++c) {
bool sel = (U.edit_col_idx == c);
if (ImGui::Selectable(headers[c], sel)) U.edit_col_idx = c;
}
ImGui::EndCombo();
}
}
if ((AggFn)U.edit_agg_fn == AggFn::Percentile) {
float v = (float)U.edit_agg_arg;
ImGui::SetNextItemWidth(140);
if (ImGui::InputFloat("p (0..1)", &v, 0.05f, 0.1f, "%.2f"))
U.edit_agg_arg = v;
}
if (ImGui::Button("Save")) {
auto& a = stg.aggregations[U.edit_chip_idx];
a.fn = (AggFn)U.edit_agg_fn;
if (a.fn != AggFn::Count && U.edit_col_idx >= 0 && U.edit_col_idx < n_cols)
a.col = headers[U.edit_col_idx];
else if (a.fn == AggFn::Count) a.col.clear();
a.arg = U.edit_agg_arg;
a.alias.clear();
ImGui::CloseCurrentPopup();
}
ImGui::SameLine();
if (ImGui::Button("Cancel")) ImGui::CloseCurrentPopup();
}
ImGui::EndPopup();
}
void draw_edit_sort_popup(Stage& stg, const char* const* headers, int n_cols) {
auto& U = ui();
if (!ImGui::BeginPopup("##edit_sort")) return;
if (U.edit_chip_idx >= 0 && U.edit_chip_idx < (int)stg.sorts.size()) {
ImGui::SetNextItemWidth(240);
if (ImGui::BeginCombo("col", U.edit_value.c_str())) {
for (int c = 0; c < n_cols; ++c) {
bool sel = (U.edit_value == headers[c]);
if (ImGui::Selectable(headers[c], sel)) U.edit_value = headers[c];
}
ImGui::EndCombo();
}
if (ImGui::RadioButton("asc", !U.edit_sort_desc)) U.edit_sort_desc = false;
ImGui::SameLine();
if (ImGui::RadioButton("desc", U.edit_sort_desc)) U.edit_sort_desc = true;
if (ImGui::Button("Save")) {
auto& sc = stg.sorts[U.edit_chip_idx];
sc.col = U.edit_value;
sc.desc = U.edit_sort_desc;
ImGui::CloseCurrentPopup();
}
ImGui::SameLine();
if (ImGui::Button("Cancel")) ImGui::CloseCurrentPopup();
}
ImGui::EndPopup();
}
void maybe_recompute_stats(const char* const* cells, int rows, int orig_cols,
int eff_cols, const std::vector<Filter>& filters,
const std::vector<int>& visible,
const std::vector<int>& src_for_eff)
{
auto& U = ui();
if (!U.stats_mode) return;
size_t fh = filters_hash(filters);
bool ds_changed = (cells != U.last_cells || rows != U.last_rows ||
eff_cols != U.last_eff_cols ||
(int)U.stats_cache.size() != eff_cols);
bool fl_changed = (fh != U.last_filter_h || (int)visible.size() != U.last_visible);
if (!ds_changed && !fl_changed) return;
U.stats_cache.resize(eff_cols);
const int* idx = visible.empty() ? nullptr : visible.data();
int n = (int)visible.size();
for (int c = 0; c < eff_cols; ++c) {
int src = src_for_eff[c];
U.stats_cache[c] = compute_column_stats(cells, rows, orig_cols, src,
100000, idx, n);
}
U.last_cells = cells;
U.last_rows = rows;
U.last_eff_cols = eff_cols;
U.last_filter_h = fh;
U.last_visible = (int)visible.size();
}
bool draw_typed_ops(ColumnType t, Op& out) {
auto ops = ops_for_type(t);
for (size_t i = 0; i < ops.size(); ++i) {
if (i % 5 != 0) ImGui::SameLine();
if (ImGui::SmallButton(op_label(ops[i]))) { out = ops[i]; return true; }
}
return false;
}
bool type_supports_range(ColumnType t) {
return t == ColumnType::Int || t == ColumnType::Float || t == ColumnType::Date;
}
void draw_add_filter_popup(Stage& stg, const char* const* eff_headers_arr, int eff_cols,
const std::vector<ColumnType>& eff_types)
{
auto& U = ui();
if (!ImGui::BeginPopup("##addfilter")) return;
if (U.addf_col < 0 || U.addf_col >= eff_cols) U.addf_col = 0;
ImGui::SetNextItemWidth(220);
if (ImGui::BeginCombo("col", eff_headers_arr[U.addf_col])) {
for (int c = 0; c < eff_cols; ++c) {
char it[160];
std::snprintf(it, sizeof(it), "%s %s",
column_type_icon(eff_types[c]), eff_headers_arr[c]);
bool sel = (U.addf_col == c);
if (ImGui::Selectable(it, sel)) U.addf_col = c;
}
ImGui::EndCombo();
}
ColumnType t = eff_types[U.addf_col];
ImGui::TextDisabled("type: %s %s", column_type_icon(t), column_type_name(t));
bool can_range = type_supports_range(t);
if (can_range) ImGui::Checkbox("Range (min/max)", &U.addf_range);
else U.addf_range = false;
if (!U.addf_range) {
char buf[256] = {0};
std::snprintf(buf, sizeof(buf), "%s", U.addf_val.c_str());
ImGui::SetNextItemWidth(220);
if (ImGui::InputText("val", buf, sizeof(buf))) U.addf_val = buf;
Op picked;
if (draw_typed_ops(t, picked)) {
stg.filters.push_back({U.addf_col, picked, U.addf_val});
U.addf_val.clear();
ImGui::CloseCurrentPopup();
}
} else {
char lo[128] = {0}, hi[128] = {0};
std::snprintf(lo, sizeof(lo), "%s", U.addf_lo.c_str());
std::snprintf(hi, sizeof(hi), "%s", U.addf_hi.c_str());
ImGui::SetNextItemWidth(100);
if (ImGui::InputText("min", lo, sizeof(lo))) U.addf_lo = lo;
ImGui::SameLine();
ImGui::SetNextItemWidth(100);
if (ImGui::InputText("max", hi, sizeof(hi))) U.addf_hi = hi;
ImGui::SameLine();
if (ImGui::SmallButton("Add range")) {
if (!U.addf_lo.empty()) stg.filters.push_back({U.addf_col, Op::Gte, U.addf_lo});
if (!U.addf_hi.empty()) stg.filters.push_back({U.addf_col, Op::Lte, U.addf_hi});
U.addf_lo.clear(); U.addf_hi.clear();
ImGui::CloseCurrentPopup();
}
}
ImGui::EndPopup();
}
void draw_add_breakout_popup(Stage& stg, const char* const* in_headers, int in_cols,
const std::vector<ColumnType>& in_types,
const char* const* in_cells, int in_rows) {
auto& U = ui();
if (!ImGui::BeginPopup("##addbreakout")) return;
if (U.brk_picker_col < 0 || U.brk_picker_col >= in_cols) U.brk_picker_col = 0;
ImGui::SetNextItemWidth(220);
if (ImGui::BeginCombo("col##bkcol", in_headers[U.brk_picker_col])) {
for (int c = 0; c < in_cols; ++c) {
char it[160];
std::snprintf(it, sizeof(it), "%s %s",
column_type_icon(in_types[c]), in_headers[c]);
bool sel = (U.brk_picker_col == c);
if (ImGui::Selectable(it, sel)) U.brk_picker_col = c;
}
ImGui::EndCombo();
}
if (ImGui::Button("Add##bk")) {
int c = U.brk_picker_col;
std::string col = in_headers[c];
// Fase 10: si col es Date, auto-detect granularidad via rango lexical
// (ISO YYYY-MM-DD ordena bien). Default Day si rango invalido.
if (c >= 0 && c < (int)in_types.size() && in_types[c] == ColumnType::Date) {
std::string lo, hi;
column_min_max(in_cells, in_rows, in_cols, c, lo, hi);
DateGranularity g = auto_date_granularity(lo, hi);
stg.breakouts.emplace_back(compose_breakout(col, g));
} else {
stg.breakouts.emplace_back(col);
}
ImGui::CloseCurrentPopup();
}
ImGui::EndPopup();
}
void draw_add_aggregation_popup(Stage& stg, const char* const* in_headers, int in_cols,
const std::vector<ColumnType>& in_types) {
auto& U = ui();
if (!ImGui::BeginPopup("##addagg")) return;
AggFn cur_fn = (AggFn)U.agg_picker_fn;
ImGui::SetNextItemWidth(160);
if (ImGui::BeginCombo("fn##aggfn", agg_fn_label(cur_fn))) {
AggFn all[] = {AggFn::Count, AggFn::Sum, AggFn::Avg, AggFn::Min, AggFn::Max,
AggFn::Distinct, AggFn::Stddev, AggFn::Median,
AggFn::P25, AggFn::P75, AggFn::P90, AggFn::P99,
AggFn::Percentile};
for (AggFn f : all) {
bool sel = (f == cur_fn);
if (ImGui::Selectable(agg_fn_label(f), sel)) U.agg_picker_fn = (int)f;
}
ImGui::EndCombo();
}
if (cur_fn != AggFn::Count) {
if (U.agg_picker_col < 0 || U.agg_picker_col >= in_cols) U.agg_picker_col = 0;
ImGui::SetNextItemWidth(220);
if (ImGui::BeginCombo("col##aggcol", in_headers[U.agg_picker_col])) {
for (int c = 0; c < in_cols; ++c) {
char it[160];
std::snprintf(it, sizeof(it), "%s %s",
column_type_icon(in_types[c]), in_headers[c]);
bool sel = (U.agg_picker_col == c);
if (ImGui::Selectable(it, sel)) U.agg_picker_col = c;
}
ImGui::EndCombo();
}
}
if (cur_fn == AggFn::Percentile) {
double v = U.agg_picker_arg;
ImGui::SetNextItemWidth(120);
if (ImGui::InputDouble("p (0..1)", &v, 0.05, 0.1, "%.2f")) {
if (v < 0) v = 0; if (v > 1) v = 1;
U.agg_picker_arg = v;
}
}
if (ImGui::Button("Add##ag")) {
Aggregation a;
a.fn = cur_fn;
a.col = (cur_fn == AggFn::Count) ? "" : std::string(in_headers[U.agg_picker_col]);
a.arg = (cur_fn == AggFn::Percentile) ? U.agg_picker_arg : 0.0;
stg.aggregations.push_back(a);
ImGui::CloseCurrentPopup();
}
ImGui::EndPopup();
}
void draw_add_sort_popup(Stage& stg, const char* const* in_headers, int in_cols,
const std::vector<ColumnType>& in_types) {
auto& U = ui();
if (!ImGui::BeginPopup("##addsort")) return;
if (U.sort_picker_col < 0 || U.sort_picker_col >= in_cols) U.sort_picker_col = 0;
ImGui::SetNextItemWidth(220);
if (ImGui::BeginCombo("col##sortcol", in_headers[U.sort_picker_col])) {
for (int c = 0; c < in_cols; ++c) {
char it[160];
std::snprintf(it, sizeof(it), "%s %s",
column_type_icon(in_types[c]), in_headers[c]);
bool sel = (U.sort_picker_col == c);
if (ImGui::Selectable(it, sel)) U.sort_picker_col = c;
}
ImGui::EndCombo();
}
ImGui::Checkbox("desc", &U.sort_picker_desc);
if (ImGui::Button("Add##srt")) {
SortClause sc;
sc.col = in_headers[U.sort_picker_col];
sc.desc = U.sort_picker_desc;
stg.sorts.push_back(sc);
ImGui::CloseCurrentPopup();
}
ImGui::EndPopup();
}
void draw_header_menu(State& st, Stage& stg, int col,
const char* const* eff_headers_arr, int eff_cols,
const std::vector<ColumnType>& eff_types,
int orig_cols, bool is_raw_stage)
{
auto& U = ui();
ColumnType t = eff_types[col];
if (ImGui::MenuItem("Sort ascending")) {
stg.sorts.clear();
stg.sorts.push_back({eff_headers_arr[col], false});
}
if (ImGui::MenuItem("Sort descending")) {
stg.sorts.clear();
stg.sorts.push_back({eff_headers_arr[col], true});
}
if (!stg.sorts.empty() && ImGui::MenuItem("Clear sort")) stg.sorts.clear();
ImGui::Separator();
auto& fbuf = U.filter_inputs[col];
fbuf.resize(256, '\0');
if (ImGui::BeginMenu("Filter...")) {
ImGui::SetNextItemWidth(220);
ImGui::InputText("##filterval", fbuf.data(), fbuf.size());
std::string val(fbuf.c_str());
auto ops = ops_for_type(t);
for (size_t i = 0; i < ops.size(); ++i) {
if (i % 5 != 0) ImGui::SameLine();
if (ImGui::SmallButton(op_label(ops[i]))) {
stg.filters.push_back({col, ops[i], val});
ImGui::CloseCurrentPopup();
}
}
ImGui::EndMenu();
}
// Change type / derived solo en stage 0.
if (is_raw_stage) {
if (ImGui::BeginMenu("Change type")) {
const ColumnType types[] = {
ColumnType::String, ColumnType::Int, ColumnType::Float,
ColumnType::Bool, ColumnType::Date, ColumnType::Json
};
for (auto nt : types) {
char lab[64];
std::snprintf(lab, sizeof(lab), "%s %s",
column_type_icon(nt), column_type_name(nt));
if (ImGui::MenuItem(lab)) {
DerivedColumn d;
d.source_col = (col < orig_cols) ? col : stg.derived[col - orig_cols].source_col;
d.type = nt;
d.name = std::string(eff_headers_arr[col]) + "_" + column_type_name(nt);
stg.derived.push_back(d);
}
}
ImGui::EndMenu();
}
}
if (ImGui::BeginMenu("Conditional color")) {
auto& vbuf = U.color_value_inputs[col];
vbuf.resize(256, '\0');
if (U.color_picker_vals.find(col) == U.color_picker_vals.end())
U.color_picker_vals[col] = ImVec4(0.85f, 0.40f, 0.30f, 0.60f);
ImVec4& cv = U.color_picker_vals[col];
ImGui::SetNextItemWidth(180);
ImGui::InputText("equals", vbuf.data(), vbuf.size());
ImGui::ColorEdit4("color", &cv.x, ImGuiColorEditFlags_NoInputs);
if (ImGui::Button("Apply")) {
ImU32 c = ImGui::ColorConvertFloat4ToU32(cv);
st.color_rules.push_back({col, std::string(vbuf.c_str()), (unsigned int)c});
ImGui::CloseCurrentPopup();
}
ImGui::SameLine();
if (ImGui::Button("Clear col")) {
for (size_t i = 0; i < st.color_rules.size();) {
if (st.color_rules[i].col == col) st.color_rules.erase(st.color_rules.begin() + i);
else ++i;
}
}
ImGui::EndMenu();
}
if (ImGui::MenuItem("Hide column")) st.col_visible[col] = false;
if (is_raw_stage && col >= orig_cols && ImGui::MenuItem("Remove derived column")) {
int k = col - orig_cols;
stg.derived.erase(stg.derived.begin() + k);
}
ImGui::Separator();
if (ImGui::BeginMenu("Columns")) {
for (int k = 0; k < eff_cols; ++k) {
bool v = st.col_visible[k];
char lab[160];
std::snprintf(lab, sizeof(lab), "%s %s",
column_type_icon(eff_types[k]), eff_headers_arr[k]);
if (ImGui::Checkbox(lab, &v)) st.col_visible[k] = v;
}
if (ImGui::MenuItem("Show all")) {
for (int k = 0; k < eff_cols; ++k) st.col_visible[k] = true;
}
ImGui::EndMenu();
}
}
// ---------------------------------------------------------------------------
// Drill-down: anade un filter al stage previo y cambia active a stage previo.
// `col_name` y `value` se aplican como un Filter Op::Eq sobre el stage N-1.
// ---------------------------------------------------------------------------
void drill_into(State& st, int from_stage,
const std::string& col_name, const std::string& value,
const std::vector<std::string>& prev_input_headers)
{
if (from_stage <= 0 || from_stage >= (int)st.stages.size()) return;
int target = from_stage - 1;
int ci = -1;
for (size_t i = 0; i < prev_input_headers.size(); ++i) {
if (prev_input_headers[i] == col_name) { ci = (int)i; break; }
}
if (ci < 0) return;
// Fase 10: graba step en drill_back, limpia forward (rama nueva).
DrillStep step;
step.target_stage = target;
step.filter_pos = (int)st.stages[target].filters.size();
step.prev_active_stage = st.active_stage;
step.added = make_drill_filter(ci, value);
apply_drill_step(st, step);
auto& U = ui();
U.drill_back.push_back(step);
U.drill_forward.clear();
}
} // anon namespace
void render(const char* id,
const std::vector<TableInput>& tables,
State& st,
std::vector<TableEvent>* events_out,
bool show_chrome)
{
if (tables.empty()) return;
int main_idx = resolve_main_idx(tables, st.main_source);
if (main_idx < 0) return;
// Merge aux_column_specs from State into TableInput when the caller passed
// empty column_specs. Caller-provided specs always take precedence.
// We keep a local copy to avoid mutating the caller's const tables.
static thread_local TableInput main_t_merged;
{
const TableInput& src = tables[(size_t)main_idx];
if (src.column_specs.empty() &&
main_idx < (int)st.aux_column_specs.size() &&
!st.aux_column_specs[(size_t)main_idx].empty())
{
main_t_merged = src;
main_t_merged.column_specs = st.aux_column_specs[(size_t)main_idx];
} else {
main_t_merged = src;
}
}
const TableInput& main_t = main_t_merged;
static thread_local std::vector<const char*> main_hdr_ptrs;
main_hdr_ptrs.clear();
main_hdr_ptrs.reserve(main_t.cols);
for (int c = 0; c < main_t.cols; ++c) main_hdr_ptrs.push_back(main_t.headers[c].c_str());
const char* const* headers_in = main_hdr_ptrs.data();
int col_count = main_t.cols;
const char* const* cells_in = main_t.cells;
int row_count_in = main_t.rows;
const ColumnType* declared_types_in = main_t.types.data();
// Joinables = todas las demas tablas.
static thread_local std::vector<TableInput> joinables_v;
joinables_v.clear();
for (int i = 0; i < (int)tables.size(); ++i) {
if (i != main_idx) joinables_v.push_back(tables[(size_t)i]);
}
const std::vector<TableInput>* joinables = joinables_v.empty() ? nullptr : &joinables_v;
auto& U_chrome = ui();
bool chrome_visible = U_chrome.chrome_user_set ? U_chrome.chrome_user_visible : show_chrome;
// Toggle Hide/Show UI siempre visible (botoncito arriba a la derecha).
{
float right = ImGui::GetWindowContentRegionMax().x;
ImGui::SetCursorPosX(right - 90.0f);
if (ImGui::SmallButton(chrome_visible ? "Hide UI##chrome" : "Show UI##chrome")) {
U_chrome.chrome_user_set = true;
U_chrome.chrome_user_visible = !chrome_visible;
}
}
// Main source dropdown — solo si > 1 tabla disponibles.
if (chrome_visible && tables.size() > 1) {
ImGui::SameLine();
float right = ImGui::GetWindowContentRegionMax().x;
ImGui::SetCursorPosX(right - 90.0f - 280.0f);
ImGui::TextDisabled("Main table:");
ImGui::SameLine();
ImGui::SetNextItemWidth(180);
const char* cur_main = main_t.name.c_str();
if (ImGui::BeginCombo("##main_table", cur_main)) {
for (const auto& t : tables) {
bool sel = (t.name == cur_main);
if (ImGui::Selectable(t.name.c_str(), sel)) {
st.main_source = t.name;
}
}
ImGui::EndCombo();
}
}
st.ensure_stage0();
// -------- Pre-pipeline: materialize joins --------
// Si state.joins no vacio + joinables provistos, ejecutar chain de join_tables.
// El resultado reemplaza headers/cells/declared_types para el resto del render.
static thread_local std::vector<std::string> joined_headers_store;
static thread_local std::vector<ColumnType> joined_types_store;
static thread_local std::vector<const char*> joined_headers_ptrs;
static thread_local std::vector<const char*> joined_cells_ptrs;
static thread_local std::vector<ColumnType> joined_declared_types;
static thread_local StageOutput joined_so;
const char* const* headers = headers_in;
const char* const* cells = cells_in;
int row_count = row_count_in;
int orig_cols = col_count;
const ColumnType* declared_types = declared_types_in;
bool joined = false;
if (!st.joins.empty() && joinables && !joinables->empty()) {
joined_so = StageOutput{};
// Build initial left from main.
std::vector<std::string> cur_h(orig_cols);
std::vector<ColumnType> cur_t(orig_cols);
for (int c = 0; c < orig_cols; ++c) {
cur_h[c] = headers_in[c];
cur_t[c] = declared_types_in ? declared_types_in[c] : ColumnType::Auto;
}
const char* const* cur_cells = cells_in;
int cur_rows = row_count_in;
int cur_cols = orig_cols;
// Chain join por cada joins[i].
std::vector<StageOutput> chain;
chain.reserve(st.joins.size());
for (const auto& jn : st.joins) {
const TableInput* match = nullptr;
for (const auto& ti : *joinables) {
if (ti.name == jn.source) { match = &ti; break; }
}
if (!match) continue;
StageOutput so = join_tables(cur_cells, cur_rows, cur_cols,
cur_h, cur_t, *match, jn);
chain.push_back(std::move(so));
const StageOutput& last = chain.back();
cur_cells = last.cells.data();
cur_rows = last.rows;
cur_cols = last.cols;
cur_h = last.headers;
cur_t = last.types;
}
if (!chain.empty()) {
joined = true;
joined_so = std::move(chain.back());
joined_headers_store = joined_so.headers;
joined_types_store = joined_so.types;
joined_headers_ptrs.clear();
joined_cells_ptrs.clear();
for (const auto& s : joined_headers_store) joined_headers_ptrs.push_back(s.c_str());
for (const auto& s : joined_so.cell_backing) joined_cells_ptrs.push_back(s.c_str());
joined_declared_types = joined_types_store;
headers = joined_headers_ptrs.data();
cells = joined_cells_ptrs.data();
row_count = joined_so.rows;
orig_cols = joined_so.cols;
declared_types = joined_declared_types.data();
}
}
Stage& stage0 = st.stages[0];
int eff_cols = orig_cols + (int)stage0.derived.size();
ensure_init(st, eff_cols);
auto& U = ui();
// Build eff_headers / src_for_eff / eff_types para STAGE 0.
std::vector<const char*> eff_headers(eff_cols);
std::vector<int> src_for_eff(eff_cols);
std::vector<ColumnType> eff_types(eff_cols);
for (int c = 0; c < eff_cols; ++c) {
if (c < orig_cols) {
eff_headers[c] = headers[c];
src_for_eff[c] = c;
ColumnType d = declared_types ? declared_types[c] : ColumnType::Auto;
eff_types[c] = effective_type(d, cells, row_count, orig_cols, c);
} else {
const DerivedColumn& d = stage0.derived[c - orig_cols];
eff_headers[c] = d.name.c_str();
src_for_eff[c] = d.source_col;
eff_types[c] = d.type;
}
}
static thread_local std::vector<std::string> hn_storage;
static thread_local std::unordered_map<std::string, int> name_to_col;
static thread_local std::unordered_map<std::string, int> derived_n2i;
hn_storage.clear();
name_to_col.clear();
derived_n2i.clear();
hn_storage.reserve(orig_cols);
for (int c = 0; c < orig_cols; ++c) {
hn_storage.emplace_back(headers[c]);
name_to_col[hn_storage.back()] = c;
}
for (int i = 0; i < (int)stage0.derived.size(); ++i) {
derived_n2i[stage0.derived[i].name] = i;
}
// Re-fit auto en cambio de display, stage o config.
auto hash_cfg = [](const ViewConfig& c) -> size_t {
std::string s = c.x_col + "|" + c.cat_col + "|" + c.size_col;
for (auto& y : c.y_cols) { s += "|"; s += y; }
s += "|"; s += std::to_string(c.primary_color);
s += "|"; s += std::to_string(c.hist_bins);
s += "|"; s += std::to_string(c.pie_radius);
s += "|"; s += c.show_legend ? "1" : "0";
s += "|"; s += c.show_markers ? "1" : "0";
return std::hash<std::string>{}(s);
};
size_t cur_cfg_h = hash_cfg(st.viz_config);
if (U.prev_viz_display != st.display || U.prev_viz_stage != st.active_stage ||
U.prev_viz_cfg_h != cur_cfg_h) {
st.viz_config.fit_request = true;
U.prev_viz_display = st.display;
U.prev_viz_stage = st.active_stage;
U.prev_viz_cfg_h = cur_cfg_h;
}
// ----- Breadcrumb + viz selector (chrome) -----
if (chrome_visible) {
draw_stage_breadcrumb(st);
draw_viz_selector(st);
}
int active = st.active_stage;
bool is_raw = (active == 0);
// ----- Chips del stage activo -----
Stage& act = st.stages[active];
if (is_raw && chrome_visible) {
ImGui::PushStyleVar(ImGuiStyleVar_ItemSpacing, ImVec2(8, 2));
// Joins chip row — solo si hay joinables disponibles.
if (joinables && !joinables->empty()) {
std::vector<std::string> mh(orig_cols);
for (int c = 0; c < orig_cols; ++c) mh[c] = headers[c];
draw_joins_chips(st, *joinables, mh);
}
draw_filter_chips(act, eff_headers.data(), eff_cols, eff_types);
draw_add_filter_popup(act, eff_headers.data(), eff_cols, eff_types);
draw_edit_filter_popup(act, eff_headers.data(), eff_cols, eff_types);
// Custom columns chips (solo stage 0)
{
ImGui::PushStyleColor(ImGuiCol_Button, IM_COL32(110, 110, 110, 200));
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, IM_COL32(140, 140, 140, 230));
ImGui::PushStyleColor(ImGuiCol_ButtonActive, IM_COL32( 85, 85, 85, 230));
if (ImGui::SmallButton("+##addcustomcol")) {
U.cf_open = true;
U.cf_editing = false;
U.cf_edit_idx = -1;
U.cf_target_stage = 0;
U.cf_formula.clear();
U.cf_name.clear();
U.cf_type = ColumnType::String;
U.cf_error.clear();
}
ImGui::PopStyleColor(3);
ImGui::SameLine();
bool any = false;
for (size_t i = 0; i < stage0.derived.size(); ++i) {
if (stage0.derived[i].formula.empty()) continue;
any = true;
const auto& d = stage0.derived[i];
char buf[256];
std::snprintf(buf, sizeof(buf), "%s %s x##custom%zu",
column_type_icon(d.type), d.name.c_str(), i);
ImGui::PushStyleColor(ImGuiCol_Button, IM_COL32(140, 140, 140, 220));
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, IM_COL32(170, 170, 170, 240));
ImGui::PushStyleColor(ImGuiCol_ButtonActive, IM_COL32(110, 110, 110, 240));
bool clicked = ImGui::SmallButton(buf);
ImGui::PopStyleColor(3);
if (ImGui::IsItemClicked(ImGuiMouseButton_Right)) {
U.cf_open = true;
U.cf_editing = true;
U.cf_edit_idx = (int)i;
U.cf_target_stage = 0;
U.cf_formula = d.formula;
U.cf_name = d.name;
U.cf_type = d.type;
U.cf_error.clear();
}
if (clicked) {
if (d.lua_id >= 0) lua_engine::release(lua_engine::get(), d.lua_id);
stage0.derived.erase(stage0.derived.begin() + i);
break;
}
ImGui::SameLine();
}
if (!any) ImGui::TextDisabled("Custom columns: + para anadir.");
else ImGui::NewLine();
}
// Sort chips para stage 0 (input headers para popup).
draw_sort_chips(act);
draw_add_sort_popup(act, eff_headers.data(), eff_cols, eff_types);
draw_edit_sort_popup(act, eff_headers.data(), eff_cols);
ImGui::PopStyleVar(); // ItemSpacing
}
// Para stages 1+, compute input headers/types del stage previo.
// Esto requiere compute_stage chain. Lo haremos abajo.
// ---------- Compute view: chain compute_stage 0..active ----------
// Stage 0 expressions: derived cols. Pero compute_stage no sabe de Lua.
// Estrategia: stage 0 lo aplicamos a mano (orig cells + filter + sort)
// y exponemos un eff_cells "virtual" donde derived cols se llenan via Lua
// en el render. Esto preserva el path actual.
//
// Para stages 1+, compute_stage opera sobre cells materializadas. Hay que
// materializar el stage 0 output como cells reales (con derived evaluadas).
// Simpler: si active == 0, mantener el path actual (orig cells + Lua).
// Si active > 0, materializar stage 0 + chain compute_stage(stage 1..active).
if (is_raw) {
// ----- Path stage 0: orig cells + filters/sort manuales + Lua per cell.
// compute_visible_rows opera sobre orig cells. filter.col es eff col,
// hay que traducir a src col (igual que codigo anterior).
State st_tmp = st;
st_tmp.ensure_stage0();
for (auto& f : st_tmp.stages[0].filters) {
if (f.col >= 0 && f.col < eff_cols) f.col = src_for_eff[f.col];
}
// Sort: la pasamos por @idx convention.
st_tmp.stages[0].sorts.clear();
if (!stage0.sorts.empty()) {
// resolve col name -> col idx (de eff_cols) -> src
const SortClause& sc0 = stage0.sorts.front();
int sc_eff = -1;
for (int c = 0; c < eff_cols; ++c) {
if (std::strcmp(eff_headers[c], sc0.col.c_str()) == 0) { sc_eff = c; break; }
}
if (sc_eff >= 0) {
int sc_src = src_for_eff[sc_eff];
char tmp[16]; std::snprintf(tmp, sizeof(tmp), "@%d", sc_src);
st_tmp.stages[0].sorts.push_back({tmp, sc0.desc});
}
}
auto visible_rows = compute_visible_rows(cells, row_count, orig_cols, st_tmp);
int visible_cols = 0;
for (int k = 0; k < eff_cols; ++k) if (st.col_visible[k]) ++visible_cols;
// Snapshot del active output (stage 0) para el config popup.
U.active_headers.clear();
U.active_types.clear();
for (int k = 0; k < eff_cols; ++k) {
if (!st.col_visible[k]) continue;
U.active_headers.emplace_back(eff_headers[k]);
U.active_types.push_back(eff_types[k]);
}
// Input == orig + derived (stage 0 no tiene upstream que agrupe).
U.input_headers_active = U.active_headers;
U.input_types_active = U.active_types;
if (chrome_visible)
{
ImGui::PushStyleVar(ImGuiStyleVar_ItemSpacing, ImVec2(8, 2));
ImGui::Text("Filas: %d / %d Columnas: %d / %d",
(int)visible_rows.size(), row_count, visible_cols, eff_cols);
ImGui::SameLine();
if (ImGui::SmallButton(U.stats_mode ? "Hide stats" : "Show stats")) {
U.stats_mode = !U.stats_mode;
}
ImGui::SameLine();
if (ImGui::SmallButton("Export CSV")) {
std::string out;
bool first = true;
for (int oc = 0; oc < (int)st.col_order.size(); ++oc) {
int c = st.col_order[oc];
if (c < 0 || c >= eff_cols) continue;
if (!st.col_visible[c]) continue;
if (!first) out += ',';
out += csv_escape(eff_headers[c]);
first = false;
}
out += '\n';
for (int r : visible_rows) {
first = true;
for (int oc = 0; oc < (int)st.col_order.size(); ++oc) {
int c = st.col_order[oc];
if (c < 0 || c >= eff_cols) continue;
if (!st.col_visible[c]) continue;
int src = src_for_eff[c];
if (!first) out += ',';
out += csv_escape(cells[r * orig_cols + src]);
first = false;
}
out += '\n';
}
const char* p = fn::local_path("export_table.csv");
std::ofstream f(p, std::ios::binary | std::ios::trunc);
if (f) { f << out; U.last_export_path = p; }
}
if (!U.last_export_path.empty()) {
ImGui::SameLine();
ImGui::TextDisabled("-> %s", U.last_export_path.c_str());
}
ImGui::SameLine();
if (ImGui::SmallButton("Show TQL")) {
std::vector<std::string> orig_headers(orig_cols);
std::vector<ColumnType> orig_types(orig_cols);
for (int c = 0; c < orig_cols; ++c) {
orig_headers[c] = headers[c];
orig_types[c] = eff_types[c];
}
U.tql_show_text = tql::emit(st, orig_headers, orig_types);
U.tql_show_open = true;
}
ImGui::SameLine();
if (ImGui::SmallButton("Apply TQL")) {
U.tql_apply_open = true;
U.tql_apply_error.clear();
}
ImGui::SameLine();
ImGui::SetNextItemWidth(160);
ImGui::InputText("##tql_file", U.tql_file_path, sizeof(U.tql_file_path));
ImGui::SameLine();
if (ImGui::SmallButton("Save .tql")) {
std::vector<std::string> oh(orig_cols);
std::vector<ColumnType> ot(orig_cols);
for (int c = 0; c < orig_cols; ++c) { oh[c] = headers[c]; ot[c] = eff_types[c]; }
std::string text = tql::emit(st, oh, ot);
const char* path = fn::local_path(U.tql_file_path);
std::ofstream f(path);
if (f) { f << text; U.tql_io_status = std::string("saved: ") + path; }
else { U.tql_io_status = std::string("save FAILED: ") + path; }
}
ImGui::SameLine();
if (ImGui::SmallButton("Load .tql")) {
const char* path = fn::local_path(U.tql_file_path);
std::ifstream f(path);
if (!f) { U.tql_io_status = std::string("load FAILED: ") + path; }
else {
std::string text((std::istreambuf_iterator<char>(f)),
std::istreambuf_iterator<char>());
std::vector<std::string> oh(orig_cols);
std::vector<ColumnType> ot(orig_cols);
for (int c = 0; c < orig_cols; ++c) { oh[c] = headers[c]; ot[c] = eff_types[c]; }
std::string err;
bool ok = tql::apply(text, st, oh, ot, cells, row_count, orig_cols, &err);
if (ok) U.tql_io_status = std::string("loaded: ") + path + (err.empty() ? "" : " (warn: " + err + ")");
else U.tql_io_status = std::string("load parse error: ") + err;
}
}
if (!U.tql_io_status.empty()) {
ImGui::SameLine();
ImGui::TextDisabled("%s", U.tql_io_status.c_str());
}
ImGui::PopStyleVar();
} // chrome_visible
maybe_recompute_stats(cells, row_count, orig_cols, eff_cols,
st_tmp.stages[0].filters,
visible_rows, src_for_eff);
// Toggle Table <-> View: solo visible cuando NO estamos en Table.
// Desde la tabla no se ofrece volver a chart (la tabla es estado
// canonico final). Cambia display via menu/chips si quieres ver chart.
if (st.display != ViewMode::Table) {
draw_table_toggle(st.display, U.last_non_table_main, "main", &st);
}
// SO compartido: main viz + extras. Construido on-demand.
StageOutput so_main;
bool so_built = false;
auto build_so = [&]() -> StageOutput& {
if (so_built) return so_main;
so_built = true;
std::vector<int> vcols;
for (int c = 0; c < eff_cols; ++c) if (st.col_visible[c]) vcols.push_back(c);
so_main.cols = (int)vcols.size();
so_main.rows = (int)visible_rows.size();
so_main.headers.reserve(so_main.cols);
so_main.types.reserve(so_main.cols);
for (int c : vcols) {
so_main.headers.emplace_back(eff_headers[c]);
so_main.types.push_back(eff_types[c]);
}
so_main.cell_backing.reserve((size_t)so_main.rows * so_main.cols);
for (int r : visible_rows) {
for (int c : vcols) {
if (c < orig_cols) {
const char* p = cells[r * orig_cols + c];
so_main.cell_backing.emplace_back(p ? p : "");
} else {
const DerivedColumn& d = stage0.derived[c - orig_cols];
if (!d.formula.empty() && d.lua_id >= 0) {
lua_engine::RowCtx ctx;
ctx.cells = cells;
ctx.orig_cols = orig_cols;
ctx.row = r;
ctx.header_names = &hn_storage;
ctx.name_to_col = &name_to_col;
ctx.types_orig = eff_types.data();
ctx.n_types_orig = orig_cols;
ctx.derived = &stage0.derived;
ctx.derived_name_to_idx = &derived_n2i;
std::string err;
so_main.cell_backing.emplace_back(
lua_engine::eval(lua_engine::get(), d.lua_id, ctx, &err));
} else {
int src = d.source_col;
const char* sp = (src >= 0 && src < orig_cols) ? cells[r * orig_cols + src] : "";
so_main.cell_backing.emplace_back(sp ? sp : "");
}
}
}
}
so_main.cells.reserve(so_main.cell_backing.size());
for (auto& s : so_main.cell_backing) so_main.cells.push_back(s.c_str());
return so_main;
};
if (visible_cols == 0) {
ImGui::TextDisabled("(todas las columnas ocultas)");
// Modales fuera del table block.
} else if (st.display != ViewMode::Table) {
viz::render(build_so(), st.display, st.viz_config, ImVec2(-1, -1));
} else {
ImGuiTableFlags flags =
ImGuiTableFlags_Borders | ImGuiTableFlags_RowBg |
ImGuiTableFlags_Resizable | ImGuiTableFlags_ScrollY;
if (ImGui::BeginTable(id, visible_cols, flags, ImVec2(0, 0))) {
for (int dc = 0; dc < (int)st.col_order.size(); ++dc) {
int c = st.col_order[dc];
if (c < 0 || c >= eff_cols) continue;
if (!st.col_visible[c]) continue;
ImGui::TableSetupColumn(eff_headers[c], ImGuiTableColumnFlags_None, 0.0f, (ImGuiID)c);
}
ImGui::TableSetupScrollFreeze(0, 1);
ImGui::TableNextRow(ImGuiTableRowFlags_Headers);
for (int dc = 0; dc < (int)st.col_order.size(); ++dc) {
int c = st.col_order[dc];
if (c < 0 || c >= eff_cols) continue;
if (!st.col_visible[c]) continue;
ImGui::TableSetColumnIndex(dc); // visual idx aprox; recomputado por engine
ImGui::PushID(c);
// Detecta si esta col esta en sorts (primario o secundario)
int sort_pos = -1;
bool sort_desc = false;
for (size_t si = 0; si < act.sorts.size(); ++si) {
if (act.sorts[si].col == eff_headers[c]) {
sort_pos = (int)si; sort_desc = act.sorts[si].desc; break;
}
}
char arrow[16] = "";
if (sort_pos == 0) std::snprintf(arrow, sizeof(arrow), " %s", sort_desc ? "v" : "^");
else if (sort_pos > 0) std::snprintf(arrow, sizeof(arrow), " %s%d", sort_desc ? "v" : "^", sort_pos + 1);
char label[200];
std::snprintf(label, sizeof(label), "%s %s%s",
column_type_icon(eff_types[c]), eff_headers[c], arrow);
ImGui::PushStyleColor(ImGuiCol_Header, IM_COL32(45, 50, 65, 200));
ImGui::PushStyleColor(ImGuiCol_HeaderHovered, IM_COL32(65, 75, 95, 220));
ImGui::PushStyleColor(ImGuiCol_HeaderActive, IM_COL32(80, 95, 130, 240));
bool clicked = ImGui::Selectable(label, false, ImGuiSelectableFlags_DontClosePopups);
ImGui::PopStyleColor(3);
if (ImGui::BeginDragDropSource(ImGuiDragDropFlags_SourceAllowNullID)) {
ImGui::SetDragDropPayload("##colreorder", &c, sizeof(int));
ImGui::Text("Move %s", eff_headers[c]);
ImGui::EndDragDropSource();
}
if (ImGui::BeginDragDropTarget()) {
if (const ImGuiPayload* p = ImGui::AcceptDragDropPayload("##colreorder")) {
int src = *(const int*)p->Data;
reorder_column(st, src, c);
}
ImGui::EndDragDropTarget();
}
if (clicked) {
bool shift = ImGui::GetIO().KeyShift;
apply_header_sort_click(act, eff_headers[c], shift);
}
if (ImGui::IsItemClicked(ImGuiMouseButton_Right)) {
U.header_popup_col = c;
ImGui::OpenPopup("##hdr_menu");
}
if (ImGui::BeginPopup("##hdr_menu") && U.header_popup_col == c) {
draw_header_menu(st, act, c, eff_headers.data(), eff_cols, eff_types, orig_cols, true);
ImGui::EndPopup();
}
if (U.stats_mode && c < (int)U.stats_cache.size()) {
const ColStats& s = U.stats_cache[c];
ImGui::PushStyleColor(ImGuiCol_Text, IM_COL32(170, 190, 220, 220));
ImGui::Text("missing: %d", s.empty_count);
ImGui::Text("uniq: %d%s", s.unique_count, s.unique_capped ? "+" : "");
if (s.numeric) {
ImGui::Text("mean: %.2f", s.mean);
ImGui::Text("p25: %.2f", s.p25);
ImGui::Text("p50: %.2f", s.p50);
ImGui::Text("p75: %.2f", s.p75);
if (!s.hist.empty()) {
char overlay[64];
std::snprintf(overlay, sizeof(overlay), "[%.2f..%.2f]", s.min, s.max);
ImGui::PushStyleColor(ImGuiCol_PlotHistogram, IM_COL32(70, 140, 220, 230));
ImGui::PlotHistogram("##hist", s.hist.data(), (int)s.hist.size(),
0, overlay, 0.0f, FLT_MAX, ImVec2(-1, 36));
ImGui::PopStyleColor();
}
} else if (!s.top_categories.empty()) {
int mx = 0;
for (const auto& kv : s.top_categories) if (kv.second > mx) mx = kv.second;
ImGui::PushStyleColor(ImGuiCol_PlotHistogram, IM_COL32(70, 140, 220, 220));
for (const auto& kv : s.top_categories) {
float frac = mx > 0 ? (float)kv.second / (float)mx : 0.f;
char ovl[96];
std::snprintf(ovl, sizeof(ovl), "%s (%d)", kv.first.c_str(), kv.second);
ImGui::ProgressBar(frac, ImVec2(-1, 12), ovl);
}
ImGui::PopStyleColor();
}
ImGui::PopStyleColor();
}
ImGui::PopID();
}
int sel_rmin = std::min(U.sel_anchor_row, U.sel_end_row);
int sel_rmax = std::max(U.sel_anchor_row, U.sel_end_row);
int sel_cmin = std::min(U.sel_anchor_col, U.sel_end_col);
int sel_cmax = std::max(U.sel_anchor_col, U.sel_end_col);
ImGuiListClipper clipper;
clipper.Begin((int)visible_rows.size());
while (clipper.Step()) {
for (int ri = clipper.DisplayStart; ri < clipper.DisplayEnd; ++ri) {
int r = visible_rows[ri];
ImGui::TableNextRow();
int draw_idx = 0;
for (int oc = 0; oc < (int)st.col_order.size(); ++oc) {
int c = st.col_order[oc];
if (c < 0 || c >= eff_cols) continue;
if (!st.col_visible[c]) continue;
ImGui::TableSetColumnIndex(draw_idx++);
int src = src_for_eff[c];
std::string eval_buf;
const char* cell;
if (c >= orig_cols && !stage0.derived[c - orig_cols].formula.empty()) {
const auto& d = stage0.derived[c - orig_cols];
if (d.lua_id < 0) cell = "?";
else {
lua_engine::RowCtx ctx;
ctx.cells = cells;
ctx.orig_cols = orig_cols;
ctx.row = r;
ctx.header_names = &hn_storage;
ctx.name_to_col = &name_to_col;
ctx.types_orig = eff_types.data();
ctx.n_types_orig = orig_cols;
ctx.derived = &stage0.derived;
ctx.derived_name_to_idx = &derived_n2i;
std::string err;
eval_buf = lua_engine::eval(lua_engine::get(), d.lua_id, ctx, &err);
cell = eval_buf.c_str();
}
} else {
cell = cells[r * orig_cols + src];
}
for (const auto& cr : st.color_rules) {
if (cr.col == c && cell && cr.equals == cell) {
ImGui::TableSetBgColor(ImGuiTableBgTarget_CellBg, (ImU32)cr.color);
break;
}
}
bool in_sel = (U.sel_active &&
ri >= sel_rmin && ri <= sel_rmax &&
oc >= sel_cmin && oc <= sel_cmax);
ImGui::PushID(r * eff_cols + c);
// Issue 0081-N/O: use declarative renderer when column_specs set.
{
bool custom_rendered = false;
const ColumnSpec* cell_cs = nullptr;
if (!main_t.column_specs.empty() &&
c < (int)main_t.column_specs.size()) {
cell_cs = &main_t.column_specs[(size_t)c];
if (cell_cs->renderer != CellRenderer::Text) {
draw_cell_custom(*cell_cs, cell, r, c, events_out);
custom_rendered = true;
}
}
if (!custom_rendered) {
ImGui::Selectable(cell ? cell : "", in_sel,
ImGuiSelectableFlags_AllowDoubleClick);
// Tooltip for Text cells (Phase 2).
if (cell_cs && cell_cs->tooltip_on_hover &&
ImGui::IsItemHovered()) {
const char* tip = (cell_cs->tooltip == "auto")
? (cell ? cell : "")
: cell_cs->tooltip.c_str();
if (tip && tip[0]) ImGui::SetTooltip("%s", tip);
}
}
}
// AllowWhenBlockedByActiveItem: durante drag,
// otras celdas tambien reciben hover -> sel se
// pinta mientras arrastras.
bool hovered = ImGui::IsItemHovered(
ImGuiHoveredFlags_AllowWhenBlockedByActiveItem);
if (hovered) {
if (ImGui::IsMouseClicked(ImGuiMouseButton_Left)) {
U.sel_anchor_row = ri; U.sel_anchor_col = oc;
U.sel_end_row = ri; U.sel_end_col = oc;
U.sel_active = true;
U.sel_dragging = true;
} else if (U.sel_dragging) {
U.sel_end_row = ri; U.sel_end_col = oc;
}
// RowDoubleClick event (Phase 2, v1.2.0).
if (ImGui::IsMouseDoubleClicked(ImGuiMouseButton_Left)
&& events_out) {
TableEvent ev;
ev.kind = TableEventKind::RowDoubleClick;
ev.row = r;
ev.col = c;
ev.value = cell ? cell : "";
if (!main_t.column_specs.empty() &&
c < (int)main_t.column_specs.size())
ev.column_id = main_t.column_specs[(size_t)c].id;
events_out->push_back(std::move(ev));
}
// RowRightClick event: emit event only, no popup drawn here.
// Caller inspects events_out and opens its own context menu.
if (ImGui::IsMouseClicked(ImGuiMouseButton_Right)) {
U.pending_col = c;
U.pending_value = cell ? cell : "";
U.open_cell_popup = true;
if (events_out) {
TableEvent ev;
ev.kind = TableEventKind::RowRightClick;
ev.row = r;
ev.col = c;
ev.value = cell ? cell : "";
if (!main_t.column_specs.empty() &&
c < (int)main_t.column_specs.size())
ev.column_id = main_t.column_specs[(size_t)c].id;
events_out->push_back(std::move(ev));
}
}
}
ImGui::PopID();
}
}
}
if (U.sel_dragging && !ImGui::IsMouseDown(ImGuiMouseButton_Left)) {
U.sel_dragging = false;
}
ImGui::EndTable();
}
// Ctrl+C -> TSV.
if (U.sel_active && ImGui::GetIO().KeyCtrl &&
ImGui::IsKeyPressed(ImGuiKey_C, false))
{
int rmin = std::min(U.sel_anchor_row, U.sel_end_row);
int rmax = std::max(U.sel_anchor_row, U.sel_end_row);
int cmin = std::min(U.sel_anchor_col, U.sel_end_col);
int cmax = std::max(U.sel_anchor_col, U.sel_end_col);
std::string out;
bool first = true;
for (int oc = cmin; oc <= cmax; ++oc) {
if (oc < 0 || oc >= (int)st.col_order.size()) continue;
int c = st.col_order[oc];
if (c < 0 || c >= eff_cols) continue;
if (!st.col_visible[c]) continue;
if (!first) out += '\t';
out += eff_headers[c];
first = false;
}
out += '\n';
for (int ri = rmin; ri <= rmax; ++ri) {
if (ri < 0 || ri >= (int)visible_rows.size()) continue;
int r = visible_rows[ri];
first = true;
for (int oc = cmin; oc <= cmax; ++oc) {
if (oc < 0 || oc >= (int)st.col_order.size()) continue;
int c = st.col_order[oc];
if (c < 0 || c >= eff_cols) continue;
if (!st.col_visible[c]) continue;
int src = src_for_eff[c];
const char* v = cells[r * orig_cols + src];
std::string sv = v ? v : "";
for (char& ch : sv) if (ch == '\t' || ch == '\n') ch = ' ';
if (!first) out += '\t';
out += sv;
first = false;
}
out += '\n';
}
ImGui::SetClipboardText(out.c_str());
}
}
// Render extras panels (stage 0 path). Solo cuando display != Table —
// desde la tabla no se muestran chart panels adicionales.
if (st.display != ViewMode::Table && !st.extra_panels.empty() && visible_cols > 0) {
int close_idx = -1;
const std::vector<ColumnSpec>* ep_specs =
main_t.column_specs.empty() ? nullptr : &main_t.column_specs;
for (int i = 0; i < (int)st.extra_panels.size(); ++i) {
if (draw_extra_panel(st, st.extra_panels[i], i, build_so(), ep_specs)) close_idx = i;
}
if (close_idx >= 0) st.extra_panels.erase(st.extra_panels.begin() + close_idx);
}
} else {
// ----- Path stage > 0: materializar stage 0 con cells reales + chain.
// Materializar stage 0: aplicar filters/sort sobre orig + evaluar derived.
State st_tmp = st;
for (auto& f : st_tmp.stages[0].filters) {
if (f.col >= 0 && f.col < eff_cols) f.col = src_for_eff[f.col];
}
st_tmp.stages[0].sorts.clear();
if (!stage0.sorts.empty()) {
const SortClause& sc0 = stage0.sorts.front();
int sc_eff = -1;
for (int c = 0; c < eff_cols; ++c) {
if (std::strcmp(eff_headers[c], sc0.col.c_str()) == 0) { sc_eff = c; break; }
}
if (sc_eff >= 0) {
int sc_src = src_for_eff[sc_eff];
char tmp[16]; std::snprintf(tmp, sizeof(tmp), "@%d", sc_src);
st_tmp.stages[0].sorts.push_back({tmp, sc0.desc});
}
}
auto vrows = compute_visible_rows(cells, row_count, orig_cols, st_tmp);
// Materializar stage0 output: cells (eff_cols) con derived evaluadas.
std::vector<std::string> mat_backing;
std::vector<const char*> mat_cells;
mat_backing.reserve((size_t)vrows.size() * eff_cols);
mat_cells.reserve((size_t)vrows.size() * eff_cols);
for (int r : vrows) {
for (int c = 0; c < eff_cols; ++c) {
const char* p;
std::string buf;
if (c < orig_cols) {
p = cells[r * orig_cols + c];
mat_backing.emplace_back(p ? p : "");
} else {
const DerivedColumn& d = stage0.derived[c - orig_cols];
if (!d.formula.empty()) {
if (d.lua_id < 0) {
mat_backing.emplace_back("");
} else {
lua_engine::RowCtx ctx;
ctx.cells = cells;
ctx.orig_cols = orig_cols;
ctx.row = r;
ctx.header_names = &hn_storage;
ctx.name_to_col = &name_to_col;
ctx.types_orig = eff_types.data();
ctx.n_types_orig = orig_cols;
ctx.derived = &stage0.derived;
ctx.derived_name_to_idx = &derived_n2i;
std::string err;
mat_backing.emplace_back(
lua_engine::eval(lua_engine::get(), d.lua_id, ctx, &err));
}
} else {
// retipo puro
int src = d.source_col;
const char* sp = (src >= 0 && src < orig_cols) ? cells[r * orig_cols + src] : "";
mat_backing.emplace_back(sp ? sp : "");
}
}
}
}
// Punteros tras llenar backing (reserve garantiza no realloc).
for (auto& s : mat_backing) mat_cells.push_back(s.c_str());
std::vector<std::string> cur_headers(eff_cols);
std::vector<ColumnType> cur_types(eff_cols);
for (int c = 0; c < eff_cols; ++c) {
cur_headers[c] = eff_headers[c];
cur_types[c] = eff_types[c];
}
// Chain compute_stage 1..active.
// Para encadenar, mantenemos vectores por iteracion. cur_cells apunta al
// ultimo output.
const char* const* cur_cells = mat_cells.data();
int cur_rows = (int)vrows.size();
int cur_cols_n = eff_cols;
std::vector<StageOutput> outs;
outs.reserve(st.stages.size());
// Headers del INPUT del active (= output del active-1)
std::vector<std::string> input_headers_active = cur_headers;
std::vector<ColumnType> input_types_active = cur_types;
for (int si = 1; si <= active; ++si) {
const Stage& sN = st.stages[si];
// Antes de computar: si es el active stage, los input_headers son cur_*.
if (si == active) {
input_headers_active = cur_headers;
input_types_active = cur_types;
}
StageOutput so = compute_stage(cur_cells, cur_rows, cur_cols_n,
cur_headers, cur_types, sN);
outs.push_back(std::move(so));
const StageOutput& last = outs.back();
cur_cells = last.cells.data();
cur_rows = last.rows;
cur_cols_n = last.cols;
cur_headers = last.headers;
cur_types = last.types;
}
// ----- Chips del active stage (uses input_headers_active) -----
std::vector<const char*> ih_ptrs(input_headers_active.size());
for (size_t i = 0; i < input_headers_active.size(); ++i)
ih_ptrs[i] = input_headers_active[i].c_str();
int in_cols_n = (int)input_headers_active.size();
if (chrome_visible) {
ImGui::PushStyleVar(ImGuiStyleVar_ItemSpacing, ImVec2(8, 2));
draw_filter_chips(act, ih_ptrs.data(), in_cols_n, input_types_active);
draw_add_filter_popup(act, ih_ptrs.data(), in_cols_n, input_types_active);
draw_edit_filter_popup(act, ih_ptrs.data(), in_cols_n, input_types_active);
draw_breakout_chips(act, ih_ptrs.data(), in_cols_n, input_types_active);
draw_add_breakout_popup(act, ih_ptrs.data(), in_cols_n, input_types_active,
cur_cells, cur_rows);
draw_edit_breakout_popup(act, ih_ptrs.data(), in_cols_n);
draw_aggregation_chips(act, ih_ptrs.data(), in_cols_n);
draw_add_aggregation_popup(act, ih_ptrs.data(), in_cols_n, input_types_active);
draw_edit_agg_popup(act, ih_ptrs.data(), in_cols_n);
// ----- Custom column chips (stages 1+, target = active stage) -----
{
ImGui::PushStyleColor(ImGuiCol_Button, IM_COL32(110, 110, 110, 200));
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, IM_COL32(140, 140, 140, 230));
ImGui::PushStyleColor(ImGuiCol_ButtonActive, IM_COL32( 85, 85, 85, 230));
if (ImGui::SmallButton("+##addcustomcol_stage")) {
U.cf_open = true;
U.cf_editing = false;
U.cf_edit_idx = -1;
U.cf_target_stage = active;
U.cf_formula.clear();
U.cf_name.clear();
U.cf_type = ColumnType::String;
U.cf_error.clear();
}
ImGui::PopStyleColor(3);
ImGui::SameLine();
bool any = false;
for (size_t i = 0; i < act.derived.size(); ++i) {
if (act.derived[i].formula.empty()) continue;
any = true;
const auto& d = act.derived[i];
char buf[256];
std::snprintf(buf, sizeof(buf), "%s %s x##custom_st_%zu",
column_type_icon(d.type), d.name.c_str(), i);
ImGui::PushStyleColor(ImGuiCol_Button, IM_COL32(140, 140, 140, 220));
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, IM_COL32(170, 170, 170, 240));
ImGui::PushStyleColor(ImGuiCol_ButtonActive, IM_COL32(110, 110, 110, 240));
bool clicked = ImGui::SmallButton(buf);
ImGui::PopStyleColor(3);
if (ImGui::IsItemClicked(ImGuiMouseButton_Right)) {
U.cf_open = true;
U.cf_editing = true;
U.cf_edit_idx = (int)i;
U.cf_target_stage = active;
U.cf_formula = d.formula;
U.cf_name = d.name;
U.cf_type = d.type;
U.cf_error.clear();
}
if (clicked) {
if (d.lua_id >= 0) lua_engine::release(lua_engine::get(), d.lua_id);
act.derived.erase(act.derived.begin() + i);
break;
}
ImGui::SameLine();
}
if (!any) ImGui::TextDisabled("Custom columns (stage %d): + para anadir.", active);
else ImGui::NewLine();
}
draw_sort_chips(act);
// Sort col options son los headers del OUTPUT del stage activo.
std::vector<const char*> out_h_ptrs(cur_headers.size());
for (size_t i = 0; i < cur_headers.size(); ++i) out_h_ptrs[i] = cur_headers[i].c_str();
draw_add_sort_popup(act, out_h_ptrs.data(), (int)cur_headers.size(), cur_types);
draw_edit_sort_popup(act, out_h_ptrs.data(), (int)cur_headers.size());
ImGui::PopStyleVar();
} // chrome_visible
// ----- Materializar act.derived sobre cur_cells -----
// Para cada derived col formula del active stage, eval per output row.
std::vector<std::string> ext_backing;
std::vector<const char*> ext_cells;
std::vector<std::string> ext_headers;
std::vector<ColumnType> ext_types;
if (!act.derived.empty()) {
int orig_out_cols = cur_cols_n;
std::vector<std::string> out_hn = cur_headers;
std::unordered_map<std::string, int> out_n2c;
for (size_t i = 0; i < out_hn.size(); ++i) out_n2c[out_hn[i]] = (int)i;
int n_derived = (int)act.derived.size();
int new_cols = orig_out_cols + n_derived;
ext_backing.reserve((size_t)cur_rows * n_derived);
ext_cells.reserve((size_t)cur_rows * new_cols);
for (int r = 0; r < cur_rows; ++r) {
// copia cols originales del output
for (int c = 0; c < orig_out_cols; ++c) {
ext_cells.push_back(cur_cells[r * orig_out_cols + c]);
}
// anade derived eval
for (int k = 0; k < n_derived; ++k) {
const DerivedColumn& d = act.derived[k];
if (d.formula.empty() || d.lua_id < 0) {
ext_backing.emplace_back("");
} else {
lua_engine::RowCtx ctx;
ctx.cells = cur_cells;
ctx.orig_cols = orig_out_cols;
ctx.row = r;
ctx.header_names = &out_hn;
ctx.name_to_col = &out_n2c;
ctx.types_orig = cur_types.data();
ctx.n_types_orig = orig_out_cols;
std::string e;
ext_backing.emplace_back(
lua_engine::eval(lua_engine::get(), d.lua_id, ctx, &e));
}
// marker placeholder; sera replaced abajo tras backing estable
ext_cells.push_back(nullptr);
}
}
// Construir ext_cells reemplazando placeholders por punteros estables.
size_t bi = 0;
for (int r = 0; r < cur_rows; ++r) {
for (int k = 0; k < n_derived; ++k) {
int idx = r * new_cols + orig_out_cols + k;
ext_cells[idx] = ext_backing[bi++].c_str();
}
}
ext_headers = cur_headers;
ext_types = cur_types;
for (int k = 0; k < n_derived; ++k) {
ext_headers.push_back(act.derived[k].name);
ext_types.push_back(act.derived[k].type);
}
cur_cells = ext_cells.data();
cur_cols_n = new_cols;
cur_headers = ext_headers;
cur_types = ext_types;
}
// Header row + cells render simple (sin clipper porque outputs son
// pequenos tipicamente).
// Snapshot del active output (stage>0) para config popup.
U.active_headers = cur_headers;
U.active_types = cur_types;
// Input del active stage = output del previo. Disponible en
// input_headers_active/input_types_active.
U.input_headers_active = input_headers_active;
U.input_types_active = input_types_active;
if (chrome_visible) {
ImGui::PushStyleVar(ImGuiStyleVar_ItemSpacing, ImVec2(8, 2));
ImGui::Text("Filas: %d Columnas: %d", cur_rows, cur_cols_n);
ImGui::SameLine();
if (ImGui::SmallButton(U.stats_mode ? "Hide stats" : "Show stats")) {
U.stats_mode = !U.stats_mode;
}
// Recompute stats sobre cur_cells del stage activo.
if (U.stats_mode && cur_cols_n > 0) {
U.stats_cache.resize(cur_cols_n);
U.last_cells = cur_cells;
for (int c = 0; c < cur_cols_n; ++c) {
U.stats_cache[c] = compute_column_stats(cur_cells, cur_rows, cur_cols_n, c);
}
}
ImGui::SameLine();
if (ImGui::SmallButton("Show TQL")) {
std::vector<std::string> oh(orig_cols);
std::vector<ColumnType> ot(orig_cols);
for (int c = 0; c < orig_cols; ++c) {
oh[c] = headers[c];
ot[c] = eff_types[c];
}
U.tql_show_text = tql::emit(st, oh, ot);
U.tql_show_open = true;
}
ImGui::SameLine();
if (ImGui::SmallButton("Apply TQL")) {
U.tql_apply_open = true;
U.tql_apply_error.clear();
}
ImGui::SameLine();
ImGui::SetNextItemWidth(160);
ImGui::InputText("##tql_file2", U.tql_file_path, sizeof(U.tql_file_path));
ImGui::SameLine();
if (ImGui::SmallButton("Save .tql##s2")) {
std::vector<std::string> oh(orig_cols);
std::vector<ColumnType> ot(orig_cols);
for (int c = 0; c < orig_cols; ++c) { oh[c] = headers[c]; ot[c] = eff_types[c]; }
std::string text = tql::emit(st, oh, ot);
const char* path = fn::local_path(U.tql_file_path);
std::ofstream f(path);
if (f) { f << text; U.tql_io_status = std::string("saved: ") + path; }
else { U.tql_io_status = std::string("save FAILED: ") + path; }
}
ImGui::SameLine();
if (ImGui::SmallButton("Load .tql##l2")) {
const char* path = fn::local_path(U.tql_file_path);
std::ifstream f(path);
if (!f) { U.tql_io_status = std::string("load FAILED: ") + path; }
else {
std::string text((std::istreambuf_iterator<char>(f)),
std::istreambuf_iterator<char>());
std::vector<std::string> oh(orig_cols);
std::vector<ColumnType> ot(orig_cols);
for (int c = 0; c < orig_cols; ++c) { oh[c] = headers[c]; ot[c] = eff_types[c]; }
std::string err;
bool ok = tql::apply(text, st, oh, ot, cells, row_count, orig_cols, &err);
if (ok) U.tql_io_status = std::string("loaded: ") + path + (err.empty() ? "" : " (warn: " + err + ")");
else U.tql_io_status = std::string("load parse error: ") + err;
}
}
if (!U.tql_io_status.empty()) {
ImGui::SameLine();
ImGui::TextDisabled("%s", U.tql_io_status.c_str());
}
ImGui::PopStyleVar();
} // chrome_visible
// Toggle Table <-> View: solo visible cuando NO estamos en Table.
if (st.display != ViewMode::Table) {
draw_table_toggle(st.display, U.last_non_table_main, "main2", &st);
}
if (st.display != ViewMode::Table && cur_cols_n > 0) {
// outs.back() es el StageOutput del active. Si active no tiene outs
// (cur_rows poblado pero outs vacio cuando active>0 y chain corta),
// construir uno on-the-fly desde cur_cells.
StageOutput so_local;
const StageOutput* so_ptr = nullptr;
if (!outs.empty()) {
so_ptr = &outs.back();
} else {
so_local.cols = cur_cols_n;
so_local.rows = cur_rows;
so_local.headers = cur_headers;
so_local.types = cur_types;
so_local.cells.reserve((size_t)cur_rows * cur_cols_n);
for (int i = 0; i < cur_rows * cur_cols_n; ++i)
so_local.cells.push_back(cur_cells[i]);
so_ptr = &so_local;
}
int clicked_row = -1;
viz::render(*so_ptr, st.display, st.viz_config, ImVec2(-1, -1), &clicked_row);
// Fase 10: click sobre chart -> drill al stage previo usando
// breakout col[0] como filtro Op::Eq sobre cells[clicked_row].
if (clicked_row >= 0 && active > 0 &&
so_ptr->cols > 0 && clicked_row < so_ptr->rows) {
int n_brk = (int)st.stages[active].breakouts.size();
if (n_brk > 0) {
const char* v = so_ptr->cells[clicked_row * so_ptr->cols + 0];
std::string col_clean;
parse_breakout_granularity(so_ptr->headers[0], col_clean);
drill_into(st, active, col_clean,
v ? std::string(v) : "",
input_headers_active);
}
}
goto stage_n_table_end;
}
{
ImGuiTableFlags flags =
ImGuiTableFlags_Borders | ImGuiTableFlags_RowBg |
ImGuiTableFlags_Resizable | ImGuiTableFlags_ScrollY;
if (cur_cols_n > 0 && ImGui::BeginTable(id, cur_cols_n, flags, ImVec2(0, 0))) {
for (int c = 0; c < cur_cols_n; ++c) {
ImGui::TableSetupColumn(cur_headers[c].c_str(),
ImGuiTableColumnFlags_None, 0.0f, (ImGuiID)c);
}
ImGui::TableSetupScrollFreeze(0, 1);
// Custom header row: nombre + icon + stats inline si stats_mode.
ImGui::TableNextRow(ImGuiTableRowFlags_Headers);
for (int c = 0; c < cur_cols_n; ++c) {
ImGui::TableSetColumnIndex(c);
// Sort indicator
int sort_pos = -1;
bool sort_desc = false;
for (size_t si = 0; si < act.sorts.size(); ++si) {
if (act.sorts[si].col == cur_headers[c]) {
sort_pos = (int)si; sort_desc = act.sorts[si].desc; break;
}
}
char arrow[16] = "";
if (sort_pos == 0) std::snprintf(arrow, sizeof(arrow), " %s", sort_desc ? "v" : "^");
else if (sort_pos > 0) std::snprintf(arrow, sizeof(arrow), " %s%d", sort_desc ? "v" : "^", sort_pos + 1);
ImGui::PushStyleColor(ImGuiCol_Header, IM_COL32(45, 50, 65, 200));
ImGui::PushStyleColor(ImGuiCol_HeaderHovered, IM_COL32(65, 75, 95, 220));
ImGui::PushStyleColor(ImGuiCol_HeaderActive, IM_COL32(80, 95, 130, 240));
char lbl[200];
std::snprintf(lbl, sizeof(lbl), "%s %s%s",
column_type_icon(cur_types[c]),
cur_headers[c].c_str(), arrow);
bool h_clicked = ImGui::Selectable(lbl, false, ImGuiSelectableFlags_DontClosePopups);
ImGui::PopStyleColor(3);
if (h_clicked) {
bool shift = ImGui::GetIO().KeyShift;
apply_header_sort_click(act, cur_headers[c], shift);
}
if (U.stats_mode && c < (int)U.stats_cache.size()) {
const ColStats& s = U.stats_cache[c];
ImGui::PushStyleColor(ImGuiCol_Text, IM_COL32(170, 190, 220, 220));
ImGui::Text("missing: %d", s.empty_count);
ImGui::Text("uniq: %d%s", s.unique_count, s.unique_capped ? "+" : "");
if (s.numeric) {
ImGui::Text("mean: %.2f", s.mean);
ImGui::Text("p25: %.2f", s.p25);
ImGui::Text("p50: %.2f", s.p50);
ImGui::Text("p75: %.2f", s.p75);
if (!s.hist.empty()) {
char overlay[64];
std::snprintf(overlay, sizeof(overlay), "[%.2f..%.2f]", s.min, s.max);
ImGui::PushStyleColor(ImGuiCol_PlotHistogram, IM_COL32(70, 140, 220, 230));
ImGui::PlotHistogram("##hist", s.hist.data(), (int)s.hist.size(),
0, overlay, 0.0f, FLT_MAX, ImVec2(-1, 36));
ImGui::PopStyleColor();
}
} else if (!s.top_categories.empty()) {
int mx = 0;
for (const auto& kv : s.top_categories) if (kv.second > mx) mx = kv.second;
ImGui::PushStyleColor(ImGuiCol_PlotHistogram, IM_COL32(70, 140, 220, 220));
for (const auto& kv : s.top_categories) {
float frac = mx > 0 ? (float)kv.second / (float)mx : 0.f;
char ovl[96];
std::snprintf(ovl, sizeof(ovl), "%s (%d)", kv.first.c_str(), kv.second);
ImGui::ProgressBar(frac, ImVec2(-1, 12), ovl);
}
ImGui::PopStyleColor();
}
ImGui::PopStyleColor();
}
}
int n_brk = (int)st.stages[active].breakouts.size();
for (int r = 0; r < cur_rows; ++r) {
ImGui::TableNextRow();
for (int c = 0; c < cur_cols_n; ++c) {
ImGui::TableSetColumnIndex(c);
const char* cell = cur_cells[r * cur_cols_n + c];
ImGui::PushID(r * cur_cols_n + c);
// Issue 0081-N/O: declarative renderer for aggregated stage tables.
{
bool custom_rendered = false;
const ColumnSpec* cell_cs2 = nullptr;
if (!main_t.column_specs.empty() &&
c < (int)main_t.column_specs.size()) {
cell_cs2 = &main_t.column_specs[(size_t)c];
if (cell_cs2->renderer != CellRenderer::Text) {
draw_cell_custom(*cell_cs2, cell, r, c, events_out);
custom_rendered = true;
}
}
if (!custom_rendered) {
ImGui::Selectable(cell ? cell : "");
// Tooltip for Text cells (Phase 2).
if (cell_cs2 && cell_cs2->tooltip_on_hover &&
ImGui::IsItemHovered()) {
const char* tip = (cell_cs2->tooltip == "auto")
? (cell ? cell : "")
: cell_cs2->tooltip.c_str();
if (tip && tip[0]) ImGui::SetTooltip("%s", tip);
}
}
}
if (ImGui::IsItemHovered() && ImGui::IsMouseClicked(ImGuiMouseButton_Right)) {
U.pending_col = c;
U.pending_value = cell ? cell : "";
U.inspect_row = r;
ImGui::OpenPopup("##drill_popup");
// RowRightClick event (Phase 2, v1.2.0).
if (events_out) {
TableEvent ev;
ev.kind = TableEventKind::RowRightClick;
ev.row = r;
ev.col = c;
ev.value = cell ? cell : "";
if (!main_t.column_specs.empty() &&
c < (int)main_t.column_specs.size())
ev.column_id = main_t.column_specs[(size_t)c].id;
events_out->push_back(std::move(ev));
}
}
if (ImGui::BeginPopup("##drill_popup")) {
if (c < n_brk) {
char lbl[256];
std::snprintf(lbl, sizeof(lbl), "Drill into: %s = %s",
cur_headers[c].c_str(), cell ? cell : "");
if (ImGui::MenuItem(lbl)) {
drill_into(st, active, cur_headers[c],
cell ? std::string(cell) : "",
input_headers_active);
ImGui::CloseCurrentPopup();
}
ImGui::Separator();
}
if (ImGui::MenuItem("Inspect row...")) {
U.inspect_row = r;
U.inspect_open = true;
ImGui::CloseCurrentPopup();
}
ImGui::EndPopup();
}
ImGui::PopID();
}
}
ImGui::EndTable();
}
}
stage_n_table_end:;
// Row inspector modal (fase 10). Activado via right-click "Inspect row..."
// sobre celdas del table del stage activo. `cur_cells` ya es row-major.
draw_row_inspector_modal(st, active, cur_cells, cur_rows, cur_cols_n,
cur_headers, cur_types, input_headers_active);
// Render extras (stage>0 path). Solo cuando display != Table.
if (st.display != ViewMode::Table && !st.extra_panels.empty() && cur_cols_n > 0) {
StageOutput so_local;
const StageOutput* so_ptr = nullptr;
if (!outs.empty()) {
so_ptr = &outs.back();
} else {
so_local.cols = cur_cols_n;
so_local.rows = cur_rows;
so_local.headers = cur_headers;
so_local.types = cur_types;
so_local.cells.reserve((size_t)cur_rows * cur_cols_n);
for (int i = 0; i < cur_rows * cur_cols_n; ++i)
so_local.cells.push_back(cur_cells[i]);
so_ptr = &so_local;
}
int close_idx = -1;
const std::vector<ColumnSpec>* ep_specs2 =
main_t.column_specs.empty() ? nullptr : &main_t.column_specs;
for (int i = 0; i < (int)st.extra_panels.size(); ++i) {
if (draw_extra_panel(st, st.extra_panels[i], i, *so_ptr, ep_specs2)) close_idx = i;
}
if (close_idx >= 0) st.extra_panels.erase(st.extra_panels.begin() + close_idx);
}
}
// ---------- Modales (comunes a ambos paths) ----------
if (U.cf_open) ImGui::OpenPopup("Custom column");
if (ImGui::BeginPopupModal("Custom column", &U.cf_open,
ImGuiWindowFlags_AlwaysAutoResize))
{
ImGui::Text("Nombre:");
char name_buf[128] = {0};
std::snprintf(name_buf, sizeof(name_buf), "%s", U.cf_name.c_str());
ImGui::SetNextItemWidth(520);
if (ImGui::InputText("##cfname", name_buf, sizeof(name_buf))) U.cf_name = name_buf;
ImGui::Spacing();
ImGui::Text("Formula (Lua). Acceso celdas via row.<col_name> o row[idx].");
ImGui::TextDisabled("Ejemplo: return row.size_kb * 1024");
static char formula_buf[4096] = {0};
if (U.cf_force_cursor || std::strcmp(formula_buf, U.cf_formula.c_str()) != 0) {
std::snprintf(formula_buf, sizeof(formula_buf), "%s", U.cf_formula.c_str());
}
ImGuiInputTextFlags flags =
ImGuiInputTextFlags_CallbackEdit | ImGuiInputTextFlags_CallbackAlways;
if (ImGui::InputTextMultiline("##cfformula", formula_buf, sizeof(formula_buf),
ImVec2(520, 200), flags, autocomplete_cb, &U)) {
U.cf_formula = formula_buf;
}
if (U.cf_ac_open) {
ImVec2 box_min = ImGui::GetItemRectMin();
ImVec2 box_max = ImGui::GetItemRectMax();
ImGui::SetNextWindowPos(ImVec2(box_min.x + 20, box_max.y + 4));
ImGui::SetNextWindowSize(ImVec2(280, 0));
ImGuiWindowFlags wf =
ImGuiWindowFlags_NoTitleBar | ImGuiWindowFlags_NoResize |
ImGuiWindowFlags_NoMove | ImGuiWindowFlags_NoSavedSettings |
ImGuiWindowFlags_NoFocusOnAppearing | ImGuiWindowFlags_AlwaysAutoResize;
if (ImGui::Begin("##colpicker", nullptr, wf)) {
ImGui::TextDisabled("Pick column:");
ImGui::Separator();
auto ci_contains = [](const std::string& hay, const std::string& nd) {
if (nd.empty()) return true;
std::string a = hay, b = nd;
for (char& c : a) if (c >= 'A' && c <= 'Z') c += 32;
for (char& c : b) if (c >= 'A' && c <= 'Z') c += 32;
return a.find(b) != std::string::npos;
};
int shown = 0;
for (int c = 0; c < eff_cols && shown < 12; ++c) {
std::string nm = eff_headers[c];
if (!ci_contains(nm, U.cf_ac_filter)) continue;
char lbl[200];
std::snprintf(lbl, sizeof(lbl), "%s %s",
column_type_icon(eff_types[c]), nm.c_str());
if (ImGui::Selectable(lbl)) {
int new_cursor = 0;
std::string updated = insert_column_ref(
U.cf_formula, U.cf_ac_start, U.cf_ac_cursor, nm, new_cursor);
U.cf_formula = updated;
U.cf_target_cursor= new_cursor;
U.cf_force_cursor = true;
U.cf_ac_open = false;
}
++shown;
}
if (shown == 0) ImGui::TextDisabled("(sin matches)");
}
ImGui::End();
}
if (!U.cf_error.empty()) {
ImGui::PushStyleColor(ImGuiCol_Text, IM_COL32(230, 100, 100, 255));
ImGui::TextWrapped("Error: %s", U.cf_error.c_str());
ImGui::PopStyleColor();
}
if (ImGui::Button("Compile & save")) {
std::string err;
int lid = lua_engine::compile(lua_engine::get(), U.cf_formula, &err);
if (lid < 0) {
U.cf_error = err;
} else {
// Build sample context segun cf_target_stage.
// target == 0: usa orig cells + stage 0 derived.
// target > 0: recomputa chain hasta el target (excluyendo
// derived del target) y sample sobre ese output.
int ts = U.cf_target_stage;
if (ts < 0 || ts >= (int)st.stages.size()) ts = 0;
int sample = 0;
std::vector<std::string> samples_str;
if (ts == 0) {
sample = std::min(64, row_count);
for (int r = 0; r < sample; ++r) {
lua_engine::RowCtx ctx;
ctx.cells = cells;
ctx.orig_cols = orig_cols;
ctx.row = r;
ctx.header_names = &hn_storage;
ctx.name_to_col = &name_to_col;
ctx.types_orig = eff_types.data();
ctx.n_types_orig = orig_cols;
ctx.derived = &stage0.derived;
ctx.derived_name_to_idx = &derived_n2i;
std::string e;
samples_str.emplace_back(
lua_engine::eval(lua_engine::get(), lid, ctx, &e));
}
} else {
// Recompute chain hasta stage ts output (sin aplicar derived
// del propio ts).
State st_sample = st;
// Limpia derived del target stage para que el sample no
// se referencie a si mismo.
if (ts < (int)st_sample.stages.size())
st_sample.stages[ts].derived.clear();
// Reusa la logica de materializacion: simple recompute manual.
// Aplica stage 0 (orig + derived) materializado.
State stmp = st;
Stage& s0 = stmp.stages[0];
for (auto& f : s0.filters) {
if (f.col >= 0 && f.col < eff_cols) f.col = src_for_eff[f.col];
}
s0.sorts.clear();
auto v0 = compute_visible_rows(cells, row_count, orig_cols, stmp);
std::vector<std::string> mb;
std::vector<const char*> mc;
mb.reserve((size_t)v0.size() * eff_cols);
mc.reserve((size_t)v0.size() * eff_cols);
for (int r : v0) {
for (int c = 0; c < eff_cols; ++c) {
if (c < orig_cols) {
const char* p = cells[r * orig_cols + c];
mb.emplace_back(p ? p : "");
} else {
const DerivedColumn& d = stage0.derived[c - orig_cols];
if (!d.formula.empty() && d.lua_id >= 0) {
lua_engine::RowCtx ctx;
ctx.cells = cells; ctx.orig_cols = orig_cols;
ctx.row = r;
ctx.header_names = &hn_storage;
ctx.name_to_col = &name_to_col;
ctx.types_orig = eff_types.data();
ctx.n_types_orig = orig_cols;
ctx.derived = &stage0.derived;
ctx.derived_name_to_idx = &derived_n2i;
std::string e;
mb.emplace_back(lua_engine::eval(lua_engine::get(), d.lua_id, ctx, &e));
} else if (d.source_col >= 0) {
const char* p = cells[r * orig_cols + d.source_col];
mb.emplace_back(p ? p : "");
} else mb.emplace_back("");
}
}
}
for (auto& s : mb) mc.push_back(s.c_str());
std::vector<std::string> ch(eff_cols);
std::vector<ColumnType> ct(eff_cols);
for (int c = 0; c < eff_cols; ++c) { ch[c] = eff_headers[c]; ct[c] = eff_types[c]; }
const char* const* cc = mc.data();
int cr = (int)v0.size();
int cn = eff_cols;
std::vector<StageOutput> tmps;
for (int si = 1; si <= ts; ++si) {
Stage stage_sn = st.stages[si];
// En el target stage NO apliques sus propias derived.
if (si == ts) stage_sn.derived.clear();
tmps.push_back(compute_stage(cc, cr, cn, ch, ct, stage_sn));
const StageOutput& l = tmps.back();
cc = l.cells.data(); cr = l.rows; cn = l.cols;
ch = l.headers; ct = l.types;
}
// Build name_to_col map for the target stage output.
std::vector<std::string> hn_t = ch;
std::unordered_map<std::string, int> n2c_t;
for (size_t i = 0; i < hn_t.size(); ++i) n2c_t[hn_t[i]] = (int)i;
sample = std::min(64, cr);
for (int r = 0; r < sample; ++r) {
lua_engine::RowCtx ctx;
ctx.cells = cc;
ctx.orig_cols = cn;
ctx.row = r;
ctx.header_names = &hn_t;
ctx.name_to_col = &n2c_t;
ctx.types_orig = ct.data();
ctx.n_types_orig = cn;
std::string e;
samples_str.emplace_back(
lua_engine::eval(lua_engine::get(), lid, ctx, &e));
}
}
std::vector<const char*> samples_ptr;
samples_ptr.reserve(samples_str.size());
for (auto& s : samples_str) samples_ptr.push_back(s.c_str());
ColumnType auto_t = auto_detect_type(samples_ptr.data(),
(int)samples_ptr.size(), 1, 0);
// Save to target stage.
if (ts < 0 || ts >= (int)st.stages.size()) ts = 0;
auto& target_derived = st.stages[ts].derived;
if (U.cf_editing && U.cf_edit_idx >= 0 &&
U.cf_edit_idx < (int)target_derived.size())
{
auto& d = target_derived[U.cf_edit_idx];
if (d.lua_id >= 0) lua_engine::release(lua_engine::get(), d.lua_id);
d.formula = U.cf_formula;
d.name = U.cf_name.empty() ? "custom" : U.cf_name;
d.type = auto_t;
d.lua_id = lid;
d.compile_error.clear();
} else {
DerivedColumn d;
d.source_col = -1;
d.type = auto_t;
d.name = U.cf_name.empty() ? "custom" : U.cf_name;
d.formula = U.cf_formula;
d.lua_id = lid;
target_derived.push_back(d);
}
U.cf_open = false;
U.cf_error.clear();
}
}
ImGui::SameLine();
if (ImGui::Button("Cancel")) {
U.cf_open = false;
U.cf_error.clear();
}
ImGui::EndPopup();
}
if (U.tql_show_open) ImGui::OpenPopup("Show TQL");
if (ImGui::BeginPopupModal("Show TQL", &U.tql_show_open,
ImGuiWindowFlags_AlwaysAutoResize))
{
ImGui::Text("TQL serializado del estado actual (read-only):");
ImGui::InputTextMultiline("##tqlshow", U.tql_show_text.data(),
U.tql_show_text.size() + 1,
ImVec2(560, 280),
ImGuiInputTextFlags_ReadOnly);
if (ImGui::Button("Copy to clipboard")) {
ImGui::SetClipboardText(U.tql_show_text.c_str());
}
ImGui::SameLine();
if (ImGui::Button("Close")) U.tql_show_open = false;
ImGui::EndPopup();
}
if (U.tql_apply_open) ImGui::OpenPopup("Apply TQL");
if (ImGui::BeginPopupModal("Apply TQL", &U.tql_apply_open,
ImGuiWindowFlags_AlwaysAutoResize))
{
ImGui::Text("Pega un chunk TQL (Lua). Ver docs/TQL.md para sintaxis.");
static char tql_buf[8192] = {0};
if (std::strcmp(tql_buf, U.tql_apply_text.c_str()) != 0) {
std::snprintf(tql_buf, sizeof(tql_buf), "%s", U.tql_apply_text.c_str());
}
if (ImGui::InputTextMultiline("##tqlapply", tql_buf, sizeof(tql_buf),
ImVec2(560, 280))) {
U.tql_apply_text = tql_buf;
}
if (!U.tql_apply_error.empty()) {
ImGui::PushStyleColor(ImGuiCol_Text, IM_COL32(230, 100, 100, 255));
ImGui::TextWrapped("Error: %s", U.tql_apply_error.c_str());
ImGui::PopStyleColor();
}
if (ImGui::Button("Apply")) {
std::vector<std::string> orig_headers(orig_cols);
std::vector<ColumnType> orig_types(orig_cols);
for (int c = 0; c < orig_cols; ++c) {
orig_headers[c] = headers[c];
orig_types[c] = eff_types[c];
}
std::string err;
bool ok = tql::apply(U.tql_apply_text, st, orig_headers, orig_types,
cells, row_count, orig_cols, &err);
if (ok) {
U.tql_apply_open = false;
U.tql_apply_error.clear();
} else {
U.tql_apply_error = err;
}
}
ImGui::SameLine();
if (ImGui::Button("Cancel")) {
U.tql_apply_open = false;
U.tql_apply_error.clear();
}
ImGui::EndPopup();
}
// Ask AI modal (fase 11 — issue 0080).
if (U.ask_open) ImGui::OpenPopup("Ask AI");
ImGui::SetNextWindowSize(ImVec2(820, 560), ImGuiCond_Appearing);
if (ImGui::BeginPopupModal("Ask AI", &U.ask_open,
ImGuiWindowFlags_NoSavedSettings)) {
ImGui::TextDisabled("Ask en lenguaje natural. Default TQL. SQL solo si DuckDB linkado.");
const char* modes[] = {"TQL", "SQL (DuckDB)"};
#ifndef FN_TQL_DUCKDB
// SQL mode disabled visually pero el toggle existe (informativo)
if (U.ask_mode == 1) U.ask_mode = 0;
#endif
ImGui::Combo("Output##askmode", &U.ask_mode, modes, IM_ARRAYSIZE(modes));
#ifndef FN_TQL_DUCKDB
if (U.ask_mode == 1) {
ImGui::TextColored(ImVec4(1, 0.5f, 0.3f, 1),
"SQL mode requires FN_TQL_DUCKDB=1 build flag.");
}
#endif
ImGui::InputTextMultiline("##ask_q", U.ask_question, sizeof(U.ask_question),
ImVec2(-1, 80));
ImGui::BeginDisabled(U.ask_busy);
if (ImGui::Button("Send")) {
U.ask_busy = true;
U.ask_status = "Sending...";
U.ask_error.clear();
U.ask_response_code.clear();
U.ask_response_raw.clear();
// Build AskInput desde el state actual.
llm_anthropic::AskInput in;
in.question = U.ask_question;
in.tql_current = U.ask_current_tql;
in.col_names = U.active_headers;
in.col_types = U.active_types;
in.mode = (U.ask_mode == 1)
? llm_anthropic::OutputMode::SQL
: llm_anthropic::OutputMode::TQL;
// Llamada blocking (UI freeze breve durante red).
auto r = llm_anthropic::ask(in);
U.ask_busy = false;
if (!r.error.empty()) {
U.ask_error = r.error;
U.ask_status = "Error";
} else {
U.ask_response_raw = r.raw;
U.ask_response_code = r.code;
U.ask_status = "Got response.";
// Llenar edit buffer
std::snprintf(U.ask_edit_buf, sizeof(U.ask_edit_buf),
"%s", r.code.c_str());
}
}
ImGui::EndDisabled();
ImGui::SameLine();
if (!U.ask_status.empty()) {
ImGui::TextDisabled("%s", U.ask_status.c_str());
}
if (!U.ask_error.empty()) {
ImGui::TextColored(ImVec4(1, 0.4f, 0.4f, 1), "%s", U.ask_error.c_str());
}
ImGui::Separator();
ImGui::Columns(2, "ask_cols", true);
ImGui::TextUnformatted("Current");
ImGui::InputTextMultiline("##ask_cur",
const_cast<char*>(U.ask_current_tql.c_str()),
U.ask_current_tql.size() + 1,
ImVec2(-1, 240),
ImGuiInputTextFlags_ReadOnly);
ImGui::NextColumn();
ImGui::TextUnformatted("Proposed (editable before apply)");
ImGui::InputTextMultiline("##ask_new", U.ask_edit_buf, sizeof(U.ask_edit_buf),
ImVec2(-1, 240));
ImGui::Columns(1);
bool can_apply = !U.ask_busy && U.ask_edit_buf[0] != '\0';
ImGui::BeginDisabled(!can_apply);
if (ImGui::Button("Apply")) {
std::string err;
if (U.ask_mode == 0) {
// TQL apply
bool ok = tql::apply(U.ask_edit_buf, st,
U.active_headers,
U.active_types,
nullptr, 0,
(int)U.active_headers.size(),
&err);
if (ok) {
U.ask_status = "Applied OK.";
U.ask_open = false;
} else {
U.ask_error = "tql::apply error: " + err;
U.ask_status = "Apply failed.";
}
} else {
#ifdef FN_TQL_DUCKDB
// SQL apply: ejecutar via tql_duckdb sobre TableInputs activas.
// Para tablas en memoria construimos un TableInput basico desde
// active_headers/types. v1 no recupera cells originales aqui;
// reportamos solo error si fallo. Caller real deberia pasar
// tables() del render scope. Sin esto, marcamos status info.
U.ask_status = "SQL execute disponible (FN_TQL_DUCKDB ON). "
"Integracion full pendiente: usar tql_duckdb::execute desde caller.";
#else
U.ask_status = "SQL execute requires FN_TQL_DUCKDB build flag.";
#endif
}
}
ImGui::EndDisabled();
ImGui::SameLine();
if (ImGui::Button("Reject")) {
U.ask_response_code.clear();
U.ask_edit_buf[0] = '\0';
}
ImGui::SameLine();
if (ImGui::Button("Close")) {
U.ask_open = false;
}
ImGui::EndPopup();
}
if (U.open_cell_popup) { ImGui::OpenPopup("##cell_op"); U.open_cell_popup = false; }
if (ImGui::BeginPopup("##cell_op")) {
ColumnType t = (U.pending_col >= 0 && U.pending_col < eff_cols)
? eff_types[U.pending_col] : ColumnType::String;
const char* hdr = (U.pending_col >= 0 && U.pending_col < eff_cols)
? eff_headers[U.pending_col] : "?";
ImGui::TextDisabled("%s %s ?? \"%s\"",
column_type_icon(t), hdr, U.pending_value.c_str());
ImGui::Separator();
auto ops = ops_for_type(t);
for (Op o : ops) {
if (ImGui::MenuItem(op_label(o))) {
st.stages[0].filters.push_back({U.pending_col, o, U.pending_value});
ImGui::CloseCurrentPopup();
}
}
ImGui::EndPopup();
}
}
} // namespace data_table
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