/*******************************************************

* Copyright (c) 2014, ArrayFire

* All rights reserved.

*

* This file is distributed under 3-clause BSD license.

* The complete license agreement can be obtained at:

* http://arrayfire.com/licenses/BSD-3-Clause

********************************************************/

#include <backend.hpp>

#include <cast.hpp>

#include <common/ArrayInfo.hpp>

#include <common/err_common.hpp>

#include <common/graphics_common.hpp>

#include <handle.hpp>

#include <hist_graphics.hpp>

#include <reduce.hpp>

#include <af/graphics.h>

using detail::Array;

using detail::copy_histogram;

using detail::forgeManager;

using detail::uchar;

using detail::uint;

using detail::ushort;

using graphics::ForgeManager;

template<typename T>

fg_chart setup_histogram(fg_window const window, const af_array in,

const double minval, const double maxval,

const af_cell* const props) {

ForgeModule& _ = graphics::forgePlugin();

const Array<T> histogramInput = getArray<T>(in);

dim_t nBins = histogramInput.elements();

// Retrieve Forge Histogram with nBins and array type

ForgeManager& fgMngr = forgeManager();

// Get the chart for the current grid position (if any)

fg_chart chart = NULL;

if (props->col > -1 && props->row > -1) {

chart = fgMngr.getChart(window, props->row, props->col, FG_CHART_2D);

} else {

chart = fgMngr.getChart(window, 0, 0, FG_CHART_2D);

}

// Create a histogram for the chart

fg_histogram hist = fgMngr.getHistogram(chart, nBins, getGLType<T>());

// Set histogram bar colors to ArrayFire's orange

FG_CHECK(_.fg_set_histogram_color(hist, 0.929f, 0.486f, 0.2745f, 1.0f));

// If chart axes limits do not have a manual override

// then compute and set axes limits

if (!fgMngr.getChartAxesOverride(chart)) {

float xMin, xMax, yMin, yMax, zMin, zMax;

FG_CHECK(_.fg_get_chart_axes_limits(&xMin, &xMax, &yMin, &yMax, &zMin,

&zMax, chart));

T freqMax = detail::reduce_all<af_max_t, T, T>(histogramInput);

if (xMin == 0 && xMax == 0 && yMin == 0 && yMax == 0) {

// No previous limits. Set without checking

xMin = static_cast<float>(step_round(minval, false));

xMax = static_cast<float>(step_round(maxval, true));

yMax = static_cast<float>(step_round(freqMax, true));

// For histogram, always set yMin to 0.

yMin = 0;

} else {

if (xMin > minval) {

xMin = static_cast<float>(step_round(minval, false));

}

if (xMax < maxval) {

xMax = static_cast<float>(step_round(maxval, true));

}

if (yMax < freqMax) {

yMax = static_cast<float>(step_round(freqMax, true));

}

// For histogram, always set yMin to 0.

yMin = 0;

}

FG_CHECK(_.fg_set_chart_axes_limits(chart, xMin, xMax, yMin, yMax, zMin,

zMax));

}

copy_histogram<T>(histogramInput, hist);

return chart;

}

af_err af_draw_hist(const af_window window, const af_array X,

const double minval, const double maxval,

const af_cell* const props) {

try {

if (window == 0) { AF_ERROR("Not a valid window", AF_ERR_INTERNAL); }

const ArrayInfo& Xinfo = getInfo(X);

af_dtype Xtype = Xinfo.getType();

ARG_ASSERT(0, Xinfo.isVector());

makeContextCurrent(window);

fg_chart chart = NULL;

switch (Xtype) {

case f32:

chart =

setup_histogram<float>(window, X, minval, maxval, props);

break;

case s32:

chart = setup_histogram<int>(window, X, minval, maxval, props);

break;

case u32:

chart = setup_histogram<uint>(window, X, minval, maxval, props);

break;

case s16:

chart =

setup_histogram<short>(window, X, minval, maxval, props);

break;

case u16:

chart =

setup_histogram<ushort>(window, X, minval, maxval, props);

break;

case u8:

chart =

setup_histogram<uchar>(window, X, minval, maxval, props);

break;

default: TYPE_ERROR(1, Xtype);

}

auto gridDims = forgeManager().getWindowGrid(window);

ForgeModule& _ = graphics::forgePlugin();

if (props->col > -1 && props->row > -1) {

FG_CHECK(_.fg_draw_chart_to_cell(

window, gridDims.first, gridDims.second,

props->row * gridDims.second + props->col, chart,

props->title));

} else {

FG_CHECK(_.fg_draw_chart(window, chart));

}

}

CATCHALL;

return AF_SUCCESS;

}