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annotate src/Modules/Output/Graphics/GraphicsViewTime.cc @ 153:9a98efa01965

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small change in python aimc data write
author hamel.phil
date Mon, 10 Jan 2011 16:01:10 +0000
parents 48e5fc566441
children 73c6d61440ad
rev   line source
tomwalters@116 1 // Copyright 2006-2010, Willem van Engen, Thomas Walters
tomwalters@116 2 //
tomwalters@116 3 // AIM-C: A C++ implementation of the Auditory Image Model
tomwalters@116 4 // http://www.acousticscale.org/AIMC
tomwalters@116 5 //
tomwalters@116 6 // Licensed under the Apache License, Version 2.0 (the "License");
tomwalters@116 7 // you may not use this file except in compliance with the License.
tomwalters@116 8 // You may obtain a copy of the License at
tomwalters@116 9 //
tomwalters@116 10 // http://www.apache.org/licenses/LICENSE-2.0
tomwalters@116 11 //
tomwalters@116 12 // Unless required by applicable law or agreed to in writing, software
tomwalters@116 13 // distributed under the License is distributed on an "AS IS" BASIS,
tomwalters@116 14 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
tomwalters@116 15 // See the License for the specific language governing permissions and
tomwalters@116 16 // limitations under the License.
tomwalters@116 17
tomwalters@116 18 /*!
tomwalters@116 19 * \file
tomwalters@116 20 * \brief Time-representation graphics view
tomwalters@116 21 *
tomwalters@116 22 * \author Willem van Engen <cnbh@willem.engen.nl>
tomwalters@116 23 * \date created 2006/09/26
tomwalters@116 24 * \version \$Id: GraphicsViewTime.cpp 607 2008-06-25 00:14:14Z tom $
tomwalters@116 25 */
tomwalters@116 26
tomwalters@116 27 #include "Support/Common.h"
tomwalters@116 28
tomwalters@116 29 #include <stdio.h>
tomwalters@116 30
tomwalters@116 31 #include "Support/SignalBank.h"
tomwalters@116 32 #include "Modules/Output/Graphics/GraphicsView.h"
tomwalters@116 33 #include "Modules/Output/Graphics/GraphicsViewTime.h"
tomwalters@116 34
tom@118 35 namespace aimc {
tom@118 36
tomwalters@116 37 GraphicsViewTime::GraphicsViewTime(Parameters *pParam)
tomwalters@117 38 : GraphicsView(pParam) {
tomwalters@121 39 module_description_ = "Graphics output.";
tomwalters@121 40 module_identifier_ = "graphics_time";
tomwalters@121 41 module_type_ = "output";
tomwalters@121 42 module_version_ = "$Id: $";
tomwalters@116 43 }
tomwalters@116 44
tomwalters@116 45 GraphicsViewTime *GraphicsViewTime::Clone(GraphicsOutputDevice *pDev) {
tomwalters@126 46 GraphicsViewTime *pView = new GraphicsViewTime(parameters_);
tomwalters@117 47 // Copy everything
tomwalters@117 48 pView->m_pAxisX->SetDisplayRange(m_pAxisX->m_fMax, m_pAxisX->m_fMin);
tomwalters@117 49 pView->m_pAxisX->SetDisplayScale(m_pAxisX->m_pScale->getType());
tomwalters@117 50 pView->m_pAxisY->SetDisplayRange(m_pAxisY->m_fMax, m_pAxisY->m_fMin);
tomwalters@117 51 pView->m_pAxisY->SetDisplayScale(m_pAxisY->m_pScale->getType());
tomwalters@117 52 pView->m_pAxisFreq->SetDisplayRange(m_pAxisFreq->m_fMax, m_pAxisFreq->m_fMin);
tomwalters@117 53 pView->m_pAxisFreq->SetDisplayScale(m_pAxisFreq->m_pScale->getType());
tomwalters@117 54 return pView;
tomwalters@116 55 }
tomwalters@116 56
tomwalters@116 57 void GraphicsViewTime::PlotAxes(const SignalBank &bank) {
tomwalters@117 58 m_pDev->gColor3f(0.0f, 0.7f, 0.7f);
tomwalters@117 59 // Vertical axis
tomwalters@117 60 m_pDev->gBeginLineStrip();
tomwalters@117 61 m_pDev->gVertex2f(m_fMarginLeft, m_fMarginBottom);
tomwalters@117 62 m_pDev->gVertex2f(m_fMarginLeft, 1.0f - m_fMarginTop);
tomwalters@117 63 m_pDev->gEnd();
tomwalters@117 64 // Horizontal axis
tomwalters@117 65 m_pDev->gBeginLineStrip();
tomwalters@117 66 m_pDev->gVertex2f(m_fMarginLeft, m_fMarginBottom);
tomwalters@117 67 m_pDev->gVertex2f(1.0f-m_fMarginRight, m_fMarginBottom);
tomwalters@117 68 m_pDev->gEnd();
tomwalters@116 69
tomwalters@126 70 //if (!m_bPlotLabels)
tomwalters@126 71 // return;
tomwalters@116 72
tomwalters@117 73 // Labels
tomwalters@117 74 char sTxt[80];
tomwalters@117 75 snprintf(sTxt, sizeof(sTxt) / sizeof(sTxt[0]),
tomwalters@116 76 _S("%s [%.0f..%.0f Hz, %s scale]"),
tomwalters@117 77 m_pAxisFreq->m_sLabel ? m_pAxisFreq->m_sLabel : "",
tomwalters@117 78 m_pAxisFreq->m_fMin, m_pAxisFreq->m_fMax,
tomwalters@117 79 m_pAxisFreq->m_pScale->getName());
tomwalters@117 80 m_pDev->gText2f(0.0025f, 0.35f, sTxt, true);
tom@118 81 snprintf(sTxt, sizeof(sTxt) / sizeof(sTxt[0]),
tomwalters@121 82 _S("%s [%.2f..%.2f ms, %s scale]"),
tomwalters@121 83 m_pAxisX->m_sLabel ? m_pAxisX->m_sLabel : "",
tomwalters@121 84 m_pAxisX->m_fMin,
tomwalters@121 85 m_pAxisX->m_fMax,
tomwalters@121 86 m_pAxisX->m_pScale->getName());
tomwalters@145 87
tomwalters@117 88 m_pDev->gText2f(m_fMarginLeft, 0.0025f, sTxt, false);
tomwalters@116 89
tomwalters@117 90 // Frame time
tomwalters@126 91 snprintf(sTxt, sizeof(sTxt)/sizeof(sTxt[0]), _S("t=%.0f ms"),
tomwalters@126 92 1000.0 * bank.start_time() / bank.sample_rate());
tomwalters@126 93 m_pDev->gText2f(0.8f, 0.0025f, sTxt, false);
tomwalters@116 94 }
tomwalters@116 95
tomwalters@116 96 void GraphicsViewTime::PlotData(const vector<float> &signal,
tomwalters@116 97 float sample_rate,
tomwalters@116 98 float yOffset,
tomwalters@116 99 float height,
tomwalters@116 100 float xScale) {
tomwalters@117 101 AIM_ASSERT(xScale >= 0 && xScale <= 1);
tomwalters@117 102 AIM_ASSERT(height > 0 && height <= 1);
tomwalters@117 103 AIM_ASSERT(yOffset >= 0 && yOffset <= 1);
tomwalters@117 104 AIM_ASSERT(m_pAxisX && m_pAxisX->m_pScale);
tomwalters@117 105 AIM_ASSERT(m_pAxisY && m_pAxisY->m_pScale);
tomwalters@116 106
tomwalters@117 107 // Make sure we get time is ms as x value
tomwalters@117 108 xScale *= 1000.0 / sample_rate;
tomwalters@117 109 m_pDev->gColor3f(1.0f, 1.0f, 0.8f);
tomwalters@117 110 BeginDataStrip();
tomwalters@116 111
tomwalters@117 112 // Draw the signal.
tomwalters@117 113 float x = 0;
tomwalters@117 114 float y = 0;
tom@118 115 for (unsigned int i = 0; i < signal.size(); i++) {
tomwalters@117 116 // Find out where to draw and do so
tomwalters@117 117 x = xScale * i;
tomwalters@117 118 y = signal[i];
tomwalters@117 119 x = m_pAxisX->m_pScale->FromLinearScaled(x) + 0.5f;
tomwalters@117 120 y = m_pAxisY->m_pScale->FromLinearScaled(y);
tomwalters@116 121
tomwalters@117 122 if (x < 0.0)
tomwalters@116 123 continue;
tomwalters@116 124
tomwalters@117 125 // Now fit it into the drawing area
tomwalters@117 126 x = x * (1.0f - m_fMarginLeft - m_fMarginRight) + m_fMarginLeft; // fit inside x-axis area
tomwalters@117 127 PlotDataPoint(x, yOffset, y, height, false);
tomwalters@117 128 /* There's no point in drawing anything when x>1.0, outside of view.
tomwalters@117 129 * x is continuously increasing, so we can just stop completely. We need to
tomwalters@117 130 * plot this point however, to finish the final line. */
tomwalters@117 131 if (x > 1.0)
tomwalters@117 132 break;
tomwalters@117 133 }
tomwalters@117 134 // Redraw the last point in case it's needed
tomwalters@117 135 PlotDataPoint(x, yOffset, y, height, true);
tomwalters@116 136
tomwalters@117 137 m_pDev->gEnd();
tomwalters@116 138 }
tom@118 139 } // namespace aimc