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92f923701ba517f6a0123dfe040326e9e1b77182
unison/doc/models/Makefile
Stefano Avallone 92f923701b traffic-control: Add the pfifo_fast queue disc 
Linux pfifo_fast is the default priority queue enabled on Linux
systems.  Packets are enqueued in three FIFO droptail queues according
to three priority bands based on their Type of Service bits or DSCP bits.
2016-03-08 10:45:41 -08:00

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EPSTOPDF = epstopdf
DIA = dia
CONVERT = convert
SRC = ../../src
# Temporary source directory, for build
SOURCETEMP = source-temp
FIGURES = $(SOURCETEMP)/figures
# list all model library .rst files that need to be copied to $SOURCETEMP
SOURCES = \
source/conf.py \
source/_static \
source/index.rst \
source/replace.txt \
source/organization.rst \
source/internet-models.rst \
source/network.rst \
source/emulation-overview.rst \
source/traffic-control.rst \
$(SRC)/antenna/doc/source/antenna.rst \
$(SRC)/antenna/doc/source/antenna-design.rst \
$(SRC)/antenna/doc/source/antenna-user.rst \
$(SRC)/antenna/doc/source/antenna-testing.rst \
$(SRC)/aodv/doc/aodv.rst \
$(SRC)/applications/doc/applications.rst \
$(SRC)/bridge/doc/bridge.rst \
$(SRC)/brite/doc/brite.rst \
$(SRC)/buildings/doc/source/buildings.rst \
$(SRC)/buildings/doc/source/buildings-design.rst \
$(SRC)/buildings/doc/source/buildings-user.rst \
$(SRC)/buildings/doc/source/buildings-testing.rst \
$(SRC)/buildings/doc/source/buildings-references.rst \
$(SRC)/click/doc/click.rst \
$(SRC)/csma/doc/csma.rst \
$(SRC)/dsdv/doc/dsdv.rst \
$(SRC)/dsr/doc/dsr.rst \
$(SRC)/mpi/doc/distributed.rst \
$(SRC)/energy/doc/energy.rst \
$(SRC)/fd-net-device/doc/fd-net-device.rst \
$(SRC)/tap-bridge/doc/tap.rst \
$(SRC)/mesh/doc/source/mesh.rst \
$(SRC)/mesh/doc/source/mesh-user.rst \
$(SRC)/mesh/doc/source/mesh-design.rst \
$(SRC)/mesh/doc/source/mesh-references.rst \
$(SRC)/mesh/doc/source/mesh-testing.rst \
$(SRC)/lte/doc/source/lte.rst \
$(SRC)/lte/doc/source/lte-user.rst \
$(SRC)/lte/doc/source/lte-design.rst \
$(SRC)/lte/doc/source/lte-testing.rst \
$(SRC)/lte/doc/source/lte-profiling.rst \
$(SRC)/lte/doc/source/lte-references.rst \
$(SRC)/propagation/doc/propagation.rst \
$(SRC)/network/doc/network-overview.rst \
$(SRC)/network/doc/packets.rst \
$(SRC)/network/doc/error-model.rst \
$(SRC)/network/doc/sockets-api.rst \
$(SRC)/network/doc/simple.rst \
$(SRC)/network/doc/queue.rst \
$(SRC)/internet/doc/internet-stack.rst \
$(SRC)/internet/doc/ipv4.rst \
$(SRC)/internet/doc/ipv6.rst \
$(SRC)/internet/doc/routing-overview.rst \
$(SRC)/internet/doc/tcp.rst \
$(SRC)/internet-apps/doc/internet-apps.rst \
$(SRC)/mobility/doc/mobility.rst \
$(SRC)/olsr/doc/olsr.rst \
$(SRC)/openflow/doc/openflow-switch.rst \
$(SRC)/point-to-point/doc/point-to-point.rst \
$(SRC)/wifi/doc/source/wifi.rst \
$(SRC)/wifi/doc/source/wifi-design.rst \
$(SRC)/wifi/doc/source/wifi-user.rst \
$(SRC)/wifi/doc/source/wifi-testing.rst \
$(SRC)/wifi/doc/source/wifi-references.rst \
$(SRC)/wimax/doc/wimax.rst \
$(SRC)/uan/doc/uan.rst \
$(SRC)/topology-read/doc/topology.rst \
$(SRC)/traffic-control/doc/traffic-control-layer.rst \
$(SRC)/traffic-control/doc/queue-discs.rst \
$(SRC)/traffic-control/doc/pfifo-fast.rst \
$(SRC)/spectrum/doc/spectrum.rst \
$(SRC)/stats/doc/adaptor.rst \
$(SRC)/stats/doc/aggregator.rst \
$(SRC)/stats/doc/collector.rst \
$(SRC)/stats/doc/data-collection-helpers.rst \
$(SRC)/stats/doc/data-collection-overview.rst \
$(SRC)/stats/doc/data-collection.rst \
$(SRC)/stats/doc/probe.rst \
$(SRC)/stats/doc/scope-and-limitations.rst \
$(SRC)/netanim/doc/animation.rst \
$(SRC)/flow-monitor/doc/flow-monitor.rst \
$(SRC)/wave/doc/wave.rst \
$(SRC)/sixlowpan/doc/sixlowpan.rst \
$(SRC)/lr-wpan/doc/lr-wpan.rst \
# list all model library figure files that need to be copied to
# $SOURCETEMP/figures. For each figure to be included in all
# documentation formats (html, latex...) the following formats are supported:
# 1) a single .dia file (preferred option, because it can be edited)
# 2) a single .eps file
# 3) both a .pdf and .png file
SOURCEFIGS = \
figures/testbed.dia \
figures/emulated-channel.dia \
$(SRC)/antenna/doc/source/figures/antenna-coordinate-system.dia \
$(SRC)/network/doc/packet.dia \
$(SRC)/network/doc/node.dia \
$(SRC)/network/doc/buffer.dia \
$(SRC)/network/doc/sockets-overview.dia \
$(SRC)/internet/doc/internet-node-send.dia \
$(SRC)/internet/doc/internet-node-recv.dia \
$(SRC)/internet/doc/routing.dia \
$(SRC)/internet/doc/routing-specialization.dia \
$(SRC)/wifi/doc/source/figures/WifiArchitecture.dia \
$(SRC)/wifi/doc/source/figures/snir.dia \
$(SRC)/wifi/doc/source/figures/clear-channel.eps \
$(SRC)/wifi/doc/source/figures/nist-frame-success-rate.eps \
$(SRC)/wimax/doc/WimaxArchitecture.dia \
$(SRC)/lte/doc/source/figures/epc-ctrl-arch.dia \
$(SRC)/lte/doc/source/figures/epc-data-flow-dl.dia \
$(SRC)/lte/doc/source/figures/epc-data-flow-ul.dia \
$(SRC)/lte/doc/source/figures/epc-profiling-scenario.dia \
$(SRC)/lte/doc/source/figures/epc-topology.dia \
$(SRC)/lte/doc/source/figures/epc-topology-x2-enhanced.dia \
$(SRC)/lte/doc/source/figures/eutran-profiling-scenario.dia \
$(SRC)/lte/doc/source/figures/ff-example.dia \
$(SRC)/lte/doc/source/figures/ff-mac-saps.dia \
$(SRC)/lte/doc/source/figures/lte-arch-enb-data.dia \
$(SRC)/lte/doc/source/figures/lte-arch-enb-ctrl.dia \
$(SRC)/lte/doc/source/figures/lte-arch-ue-data.dia \
$(SRC)/lte/doc/source/figures/lte-arch-ue-ctrl.dia \
$(SRC)/lte/doc/source/figures/lte-enb-phy.dia \
$(SRC)/lte/doc/source/figures/lte-ue-phy.dia \
$(SRC)/lte/doc/source/figures/lte-epc-x2-handover-seq-diagram.dia \
$(SRC)/lte/doc/source/figures/lte-epc-e2e-data-protocol-stack.dia \
$(SRC)/lte/doc/source/figures/lte-interference-test-scenario.dia \
$(SRC)/lte/doc/source/figures/lte-subframe-structure.dia \
$(SRC)/lte/doc/source/figures/lte-epc-x2-interface.dia \
$(SRC)/lte/doc/source/figures/lte-harq-architecture.dia \
$(SRC)/lte/doc/source/figures/lte-harq-processes-scheme.dia \
$(SRC)/lte/doc/source/figures/ue-meas-consumer.dia \
$(SRC)/lte/doc/source/figures/ue-meas-piecewise-motion.dia \
$(SRC)/lte/doc/source/figures/ue-meas-piecewise-a1.dia \
$(SRC)/lte/doc/source/figures/ue-meas-piecewise-a1-hys.dia \
$(SRC)/lte/doc/source/figures/lte-cell-selection-timeline.dia \
$(SRC)/lte/doc/source/figures/lte-cell-selection-scenario.dia \
$(SRC)/lte/doc/source/figures/lte-handover-target-scenario.dia \
$(SRC)/lte/doc/source/figures/lena-dual-stripe.eps \
$(SRC)/lte/doc/source/figures/lte-mcs-index.eps \
$(SRC)/lte/doc/source/figures/lenaThrTestCase1.eps \
$(SRC)/lte/doc/source/figures/lenaThrTestCase2.eps \
$(SRC)/lte/doc/source/figures/runningTime10s.eps \
$(SRC)/lte/doc/source/figures/epcRunningTime.eps \
$(SRC)/lte/doc/source/figures/propagationModel.eps \
$(SRC)/lte/doc/source/figures/simulationTime.eps \
$(SRC)/lte/doc/source/figures/epcSimulationTime.eps \
$(SRC)/lte/doc/source/figures/epcEutranRunningTime.eps \
$(SRC)/lte/doc/source/figures/profiling-memory.eps \
$(SRC)/lte/doc/source/figures/lte-rlc-implementation-model.dia \
$(SRC)/lte/doc/source/figures/lte-rlc-data-txon-dl.dia \
$(SRC)/lte/doc/source/figures/lte-rlc-data-retx-dl.dia \
$(SRC)/lte/doc/source/figures/lte-rlc-data-txon-ul.dia \
$(SRC)/lte/doc/source/figures/lte-rlc-data-retx-ul.dia \
$(SRC)/lte/doc/source/figures/lte-epc-x2-entity-saps.dia \
$(SRC)/lte/doc/source/figures/lte-strongest-cell-handover-algorithm.eps \
$(SRC)/lte/doc/source/figures/lte-phy-interference.pdf \
$(SRC)/lte/doc/source/figures/lte-phy-interference.png \
$(SRC)/lte/doc/source/figures/helpers.pdf \
$(SRC)/lte/doc/source/figures/helpers.png \
$(SRC)/lte/doc/source/figures/mac-random-access-contention.pdf \
$(SRC)/lte/doc/source/figures/mac-random-access-contention.png \
$(SRC)/lte/doc/source/figures/mac-random-access-noncontention.pdf \
$(SRC)/lte/doc/source/figures/mac-random-access-noncontention.png \
$(SRC)/lte/doc/source/figures/rrc-connection-establishment.pdf \
$(SRC)/lte/doc/source/figures/rrc-connection-establishment.png \
$(SRC)/lte/doc/source/figures/rrc-connection-reconfiguration.pdf \
$(SRC)/lte/doc/source/figures/rrc-connection-reconfiguration.png \
$(SRC)/lte/doc/source/figures/rrc-connection-reconfiguration-handover.pdf \
$(SRC)/lte/doc/source/figures/rrc-connection-reconfiguration-handover.png \
$(SRC)/lte/doc/source/figures/nas-attach.pdf \
$(SRC)/lte/doc/source/figures/nas-attach.png \
$(SRC)/lte/doc/source/figures/lte-enb-rrc-states.pdf \
$(SRC)/lte/doc/source/figures/lte-enb-rrc-states.png \
$(SRC)/lte/doc/source/figures/lte-ue-rrc-states.pdf \
$(SRC)/lte/doc/source/figures/lte-ue-rrc-states.png \
$(SRC)/lte/doc/source/figures/fading_pedestrian.pdf \
$(SRC)/lte/doc/source/figures/fading_pedestrian.png \
$(SRC)/lte/doc/source/figures/fading_vehicular.pdf \
$(SRC)/lte/doc/source/figures/fading_vehicular.png \
$(SRC)/lte/doc/source/figures/fading_urban_3kmph.pdf \
$(SRC)/lte/doc/source/figures/fading_urban_3kmph.png \
$(SRC)/lte/doc/source/figures/fr-enhanced-fractional-frequency-reuse-scheme.dia \
$(SRC)/lte/doc/source/figures/fr-full-frequency-reuse-scheme.dia \
$(SRC)/lte/doc/source/figures/fr-hard-frequency-reuse-scheme.dia \
$(SRC)/lte/doc/source/figures/fr-soft-fractional-frequency-reuse-scheme.dia \
$(SRC)/lte/doc/source/figures/fr-soft-frequency-reuse-scheme-v1.dia \
$(SRC)/lte/doc/source/figures/fr-soft-frequency-reuse-scheme-v2.dia \
$(SRC)/lte/doc/source/figures/fr-strict-frequency-reuse-scheme.dia \
$(SRC)/lte/doc/source/figures/ffr-distributed-scheme.dia \
$(SRC)/lte/doc/source/figures/lte-fr-soft-1-rem.png \
$(SRC)/lte/doc/source/figures/lte-fr-soft-1-rem.pdf \
$(SRC)/lte/doc/source/figures/lte-ffr-soft-2-spectrum-trace.png \
$(SRC)/lte/doc/source/figures/lte-ffr-soft-2-spectrum-trace.pdf \
$(SRC)/lte/doc/source/figures/lte-fr-hard-1-rem.png \
$(SRC)/lte/doc/source/figures/lte-fr-hard-1-rem.pdf \
$(SRC)/lte/doc/source/figures/lte-fr-hard-2-rem.png \
$(SRC)/lte/doc/source/figures/lte-fr-hard-2-rem.pdf \
$(SRC)/lte/doc/source/figures/lte-fr-hard-3-rem.png \
$(SRC)/lte/doc/source/figures/lte-fr-hard-3-rem.pdf \
$(SRC)/lte/doc/source/figures/MCS_1_4.pdf \
$(SRC)/lte/doc/source/figures/MCS_1_4.png \
$(SRC)/lte/doc/source/figures/MCS_5_8.pdf \
$(SRC)/lte/doc/source/figures/MCS_5_8.png \
$(SRC)/lte/doc/source/figures/MCS_9_12.pdf \
$(SRC)/lte/doc/source/figures/MCS_9_12.png \
$(SRC)/lte/doc/source/figures/MCS_13_16.pdf \
$(SRC)/lte/doc/source/figures/MCS_13_16.png \
$(SRC)/lte/doc/source/figures/MCS_17_20.pdf \
$(SRC)/lte/doc/source/figures/MCS_17_20.png \
$(SRC)/lte/doc/source/figures/MCS_21_24.pdf \
$(SRC)/lte/doc/source/figures/MCS_21_24.png \
$(SRC)/lte/doc/source/figures/MCS_25_28.pdf \
$(SRC)/lte/doc/source/figures/MCS_25_28.png \
$(SRC)/lte/doc/source/figures/MCS_29_29.pdf \
$(SRC)/lte/doc/source/figures/MCS_29_29.png \
$(SRC)/lte/doc/source/figures/MCS_2_test.png \
$(SRC)/lte/doc/source/figures/MCS_2_test.pdf \
$(SRC)/lte/doc/source/figures/MCS_12_test.png \
$(SRC)/lte/doc/source/figures/MCS_12_test.pdf \
$(SRC)/lte/doc/source/figures/MCS_16_test.png \
$(SRC)/lte/doc/source/figures/MCS_16_test.pdf \
$(SRC)/lte/doc/source/figures/miesm_scheme.pdf \
$(SRC)/lte/doc/source/figures/miesm_scheme.png \
$(SRC)/lte/doc/source/figures/lte-dl-power-control.dia \
$(SRC)/lte/doc/source/figures/lte-ffr-scheduling.dia \
$(SRC)/lte/doc/source/figures/lte-handover-campaign-rem.pdf \
$(SRC)/lte/doc/source/figures/lte-handover-campaign-rem.png \
$(SRC)/lte/doc/source/figures/lte-legacy-handover-algorithm.pdf \
$(SRC)/lte/doc/source/figures/lte-legacy-handover-algorithm.png \
$(SRC)/uan/doc/auvmobility-classes.dia \
$(SRC)/stats/doc/Stat-framework-arch.png \
$(SRC)/stats/doc/Wifi-default.png \
$(SRC)/stats/doc/dcf-overview.dia \
$(SRC)/stats/doc/dcf-overview-with-aggregation.dia \
$(SRC)/stats/doc/file-example.png \
$(SRC)/stats/doc/gnuplot-aggregator.png \
$(SRC)/stats/doc/gnuplot-example.png \
$(SRC)/stats/doc/gnuplot-helper-example.png \
$(SRC)/stats/doc/seventh-packet-byte-count.png \
$(SRC)/netanim/doc/figures/PacketStatistics.png \
$(SRC)/netanim/doc/figures/PacketStatistics.pdf \
$(SRC)/netanim/doc/figures/NetAnim_3_105.png \
$(SRC)/netanim/doc/figures/NetAnim_3_105.pdf \
$(SRC)/netanim/doc/figures/Trajectory.png \
$(SRC)/netanim/doc/figures/Trajectory.pdf \
$(SRC)/netanim/doc/figures/NodeCountersChart.png \
$(SRC)/netanim/doc/figures/NodeCountersChart.pdf \
$(SRC)/netanim/doc/figures/NodeCountersTable.png \
$(SRC)/netanim/doc/figures/NodeCountersTable.pdf \
$(SRC)/netanim/doc/figures/RoutingTables.png \
$(SRC)/netanim/doc/figures/RoutingTables.pdf \
$(SRC)/netanim/doc/figures/PacketTimeline.png \
$(SRC)/netanim/doc/figures/PacketTimeline.pdf \
$(SRC)/spectrum/doc/spectrum-channel-phy-interface.png \
$(SRC)/spectrum/doc/spectrum-channel-phy-interface.pdf \
$(SRC)/spectrum/doc/spectrum-analyzer-example.eps \
$(SRC)/spectrum/doc/spectrum-tv-rand-geo-points.eps \
$(SRC)/spectrum/doc/spectrum-tv-8vsb.png \
$(SRC)/spectrum/doc/spectrum-tv-cofdm.png \
$(SRC)/traffic-control/doc/classful-queue-disc.dia \
$(SRC)/traffic-control/doc/multi-queue-aware-queue-disc.dia \
$(SRC)/lr-wpan/doc/lr-wpan-arch.dia \
$(SRC)/lr-wpan/doc/lr-wpan-data-example.dia \
$(SRC)/lr-wpan/doc/lr-wpan-primitives.dia \
$(SRC)/lr-wpan/doc/802-15-4-ber.eps \
$(SRC)/lr-wpan/doc/802-15-4-per-sens.eps \
$(SRC)/lr-wpan/doc/802-15-4-psr-distance.eps
# specify figures from which .png and .pdf figures need to be
# generated (all dia and eps figures)
IMAGES_EPS = \
$(FIGURES)/testbed.eps \
$(FIGURES)/emulated-channel.eps \
$(FIGURES)/antenna-coordinate-system.eps \
$(FIGURES)/packet.eps \
$(FIGURES)/node.eps \
$(FIGURES)/buffer.eps \
$(FIGURES)/sockets-overview.eps \
$(FIGURES)/internet-node-send.eps \
$(FIGURES)/internet-node-recv.eps \
$(FIGURES)/routing.eps \
$(FIGURES)/routing-specialization.eps \
$(FIGURES)/WifiArchitecture.eps \
$(FIGURES)/snir.eps \
$(FIGURES)/WimaxArchitecture.eps \
$(FIGURES)/dcf-overview.eps \
$(FIGURES)/dcf-overview-with-aggregation.eps \
$(FIGURES)/epc-ctrl-arch.eps \
$(FIGURES)/epc-data-flow-dl.eps \
$(FIGURES)/epc-data-flow-ul.eps \
$(FIGURES)/epc-profiling-scenario.eps \
$(FIGURES)/epc-topology.eps \
$(FIGURES)/epc-topology-x2-enhanced.eps \
$(FIGURES)/eutran-profiling-scenario.eps \
$(FIGURES)/ff-example.eps \
$(FIGURES)/ff-mac-saps.eps \
$(FIGURES)/lte-dl-power-control.eps \
$(FIGURES)/lte-ffr-scheduling.eps \
$(FIGURES)/fr-enhanced-fractional-frequency-reuse-scheme.eps \
$(FIGURES)/fr-full-frequency-reuse-scheme.eps \
$(FIGURES)/fr-hard-frequency-reuse-scheme.eps \
$(FIGURES)/fr-soft-fractional-frequency-reuse-scheme.eps \
$(FIGURES)/fr-soft-frequency-reuse-scheme-v1.eps \
$(FIGURES)/fr-soft-frequency-reuse-scheme-v2.eps \
$(FIGURES)/fr-strict-frequency-reuse-scheme.eps \
$(FIGURES)/ffr-distributed-scheme.eps \
$(FIGURES)/lte-arch-enb-data.eps \
$(FIGURES)/lte-arch-enb-ctrl.eps \
$(FIGURES)/lte-arch-ue-data.eps \
$(FIGURES)/lte-arch-ue-ctrl.eps \
$(FIGURES)/lte-enb-phy.eps \
$(FIGURES)/lte-ue-phy.eps \
$(FIGURES)/lte-epc-e2e-data-protocol-stack.eps \
$(FIGURES)/lte-interference-test-scenario.eps \
$(FIGURES)/lte-subframe-structure.eps \
$(FIGURES)/lte-epc-x2-interface.eps \
$(FIGURES)/lte-harq-architecture.eps \
$(FIGURES)/lte-harq-processes-scheme.eps \
$(FIGURES)/ue-meas-consumer.eps \
$(FIGURES)/ue-meas-piecewise-motion.eps \
$(FIGURES)/ue-meas-piecewise-a1.eps \
$(FIGURES)/ue-meas-piecewise-a1-hys.eps \
$(FIGURES)/lte-cell-selection-timeline.eps \
$(FIGURES)/lte-cell-selection-scenario.eps \
$(FIGURES)/lte-handover-target-scenario.eps \
$(FIGURES)/lena-dual-stripe.eps \
$(FIGURES)/lte-mcs-index.eps \
$(FIGURES)/lenaThrTestCase1.eps \
$(FIGURES)/lenaThrTestCase2.eps \
$(FIGURES)/runningTime10s.eps \
$(FIGURES)/epcRunningTime.eps \
$(FIGURES)/propagationModel.eps \
$(FIGURES)/simulationTime.eps \
$(FIGURES)/epcSimulationTime.eps \
$(FIGURES)/epcEutranRunningTime.eps \
$(FIGURES)/profiling-memory.eps \
$(FIGURES)/lte-rlc-implementation-model.eps \
$(FIGURES)/lte-rlc-data-txon-dl.eps \
$(FIGURES)/lte-rlc-data-retx-dl.eps \
$(FIGURES)/lte-rlc-data-txon-ul.eps \
$(FIGURES)/lte-rlc-data-retx-ul.eps \
$(FIGURES)/lte-epc-x2-handover-seq-diagram.eps \
$(FIGURES)/lte-epc-x2-entity-saps.eps \
$(FIGURES)/lte-strongest-cell-handover-algorithm.eps \
$(FIGURES)/auvmobility-classes.eps \
$(FIGURES)/spectrum-analyzer-example.eps \
$(FIGURES)/spectrum-tv-rand-geo-points.eps \
$(FIGURES)/classful-queue-disc.eps \
$(FIGURES)/multi-queue-aware-queue-disc.eps \
$(FIGURES)/lr-wpan-primitives.eps \
$(FIGURES)/lr-wpan-data-example.eps \
$(FIGURES)/lr-wpan-arch.eps \
$(FIGURES)/802-15-4-ber.eps \
$(FIGURES)/802-15-4-per-sens.eps \
$(FIGURES)/802-15-4-psr-distance.eps \
$(FIGURES)/clear-channel.eps \
$(FIGURES)/nist-frame-success-rate.eps
# rescale pdf figures as necessary
$(FIGURES)/testbed.pdf_width = 5in
$(FIGURES)/emulated-channel.pdf_width = 6in
$(FIGURES)/antenna-coordinate-system.pdf_width = 7cm
$(FIGURES)/node.pdf_width = 5in
$(FIGURES)/packet.pdf_width = 4in
$(FIGURES)/buffer.pdf_width = 15cm
$(FIGURES)/sockets-overview.pdf_width = 10cm
$(FIGURES)/internet-node-send.pdf_width = 5in
$(FIGURES)/internet-node-recv.pdf_width = 5in
$(FIGURES)/routing.pdf_width = 6in
$(FIGURES)/routing-specialization.pdf_width = 5in
$(FIGURES)/snir.pdf_width = 3in
$(FIGURES)/lte-interference-test-scenario.pdf_width = 3in
$(FIGURES)/epc-ctrl-arch.pdf_width = 8cm
$(FIGURES)/epc-topology.pdf_width = 4in
$(FIGURES)/epc-topology-x2-enhanced.pdf_width = 14cm
$(FIGURES)/lte-arch-data-rrc-pdcp-rlc.pdf_width = 3in
$(FIGURES)/lte-epc-e2e-data-protocol-stack.pdf_width = 15cm
$(FIGURES)/ff-mac-saps.pdf_width = 5in
$(FIGURES)/ff-example.pdf_width = 5in
$(FIGURES)/lte-dl-power-control.pdf_width = 8cm
$(FIGURES)/lte-ffr-scheduling.pdf_width = 8cm
$(FIGURES)/fr-enhanced-fractional-frequency-reuse-scheme.pdf_width = 8cm
$(FIGURES)/fr-full-frequency-reuse-scheme.pdf_width = 8cm
$(FIGURES)/fr-hard-frequency-reuse-scheme.pdf_width = 8cm
$(FIGURES)/fr-soft-fractional-frequency-reuse-scheme.pdf_width = 8cm
$(FIGURES)/fr-soft-frequency-reuse-scheme-v1.pdf_width = 8cm
$(FIGURES)/fr-soft-frequency-reuse-scheme-v2.pdf_width = 8cm
$(FIGURES)/fr-strict-frequency-reuse-scheme.pdf_width = 8cm
$(FIGURES)/ffr-distributed-scheme.pdf_width = 8cm
$(FIGURES)/lte-arch-enb-data.pdf_width = 6cm
$(FIGURES)/lte-arch-enb-ctrl.pdf_width = 10cm
$(FIGURES)/lte-arch-ue-data.pdf_width = 6cm
$(FIGURES)/lte-arch-ue-ctrl.pdf_width = 10cm
$(FIGURES)/lte-rlc-implementation-model.pdf_width = 20in
$(FIGURES)/lte-rlc-data-txon-dl.pdf_width = 10cm
$(FIGURES)/lte-rlc-data-txon-ul.pdf_width = 10cm
$(FIGURES)/lte-rlc-data-retx-dl.pdf_width = 10cm
$(FIGURES)/lte-rlc-data-retx-ul.pdf_width = 10cm
$(FIGURES)/lte-epc-x2-entity-saps.pdf_width = 12cm
$(FIGURES)/lte-phy-interference.pdf_width = 12cm
$(FIGURES)/lte-subframe-structure.pdf_width = 2in
$(FIGURES)/mac-random-access-contention.pdf_width = 10cm
$(FIGURES)/mac-random-access-noncontention.pdf_width = 15cm
$(FIGURES)/helpers.pdf_width = 8cm
$(FIGURES)/auvmobility-classes.pdf_width = 10cm
$(FIGURES)/spectrum-analyzer-example.pdf_width = 15cm
$(FIGURES)/spectrum-tv-rand-geo-points.pdf_width = 8cm
$(FIGURES)/lr-wpan-primitives.pdf_width = 3in
$(FIGURES)/lr-wpan-arch.pdf_width = 2in
$(FIGURES)/clear-channel.pdf_width = 12cm
$(FIGURES)/nist-frame-success-rate.pdf_width = 12cm
IMAGES_PNG = ${IMAGES_EPS:.eps=.png}
IMAGES_PDF = ${IMAGES_EPS:.eps=.pdf}
IMAGES = $(IMAGES_EPS) $(IMAGES_PNG) $(IMAGES_PDF)
RESCALE = ../../utils/rescale-pdf.sh
%.eps : %.dia
@echo dia $(notdir $<)
@$(DIA) -t eps $< -e $@ >/dev/null
%.png : %.dia
@echo dia $(notdir $<)
@$(DIA) -t png $< -e $@ >/dev/null
%.png : %.eps
@echo convert $(notdir $<)
@$(CONVERT) $< $@ >/dev/null
%.pdf : %.eps
@echo epstopdf $(notdir $<)
@$(EPSTOPDF) $< -o=$@ >/dev/null
@if test x$($@_width) != x; then $(RESCALE) $($@_width) $@ ; fi
# You can set these variables from the command line.
SPHINXOPTS =
SPHINXBUILD = sphinx-build
PAPER =
BUILDDIR = build
# Internal variables.
PAPEROPT_a4 = -D latex_paper_size=a4
PAPEROPT_letter = -D latex_paper_size=letter
ALLSPHINXOPTS = -d $(BUILDDIR)/doctrees $(PAPEROPT_$(PAPER)) $(SPHINXOPTS) $(SOURCETEMP)
.PHONY: help clean html dirhtml singlehtml pickle json htmlhelp qthelp devhelp epub latex latexpdf text man changes linkcheck doctest
.NOTPARALLEL:
help:
@echo "Please use \`make <target>' where <target> is one of"
@echo " html to make standalone HTML files"
@echo " dirhtml to make HTML files named index.html in directories"
@echo " singlehtml to make a single large HTML file"
@echo " pickle to make pickle files"
@echo " json to make JSON files"
@echo " htmlhelp to make HTML files and a HTML help project"
@echo " qthelp to make HTML files and a qthelp project"
@echo " devhelp to make HTML files and a Devhelp project"
@echo " epub to make an epub"
@echo " latex to make LaTeX files, you can set PAPER=a4 or PAPER=letter"
@echo " latexpdf to make LaTeX files and run them through pdflatex"
@echo " text to make text files"
@echo " man to make manual pages"
@echo " changes to make an overview of all changed/added/deprecated items"
@echo " linkcheck to check all external links for integrity"
@echo " doctest to run all doctests embedded in the documentation (if enabled)"
copy-sources: $(SOURCES)
@mkdir -p $(SOURCETEMP)
@mkdir -p $(FIGURES)
@cp -r -p $(SOURCES) $(SOURCETEMP)
@cp -r -p $(SOURCEFIGS) $(FIGURES)
clean:
-rm -rf $(BUILDDIR)/*
-rm -rf $(SOURCETEMP)
frag: pickle
@if test ! -d $(BUILDDIR)/frag; then mkdir $(BUILDDIR)/frag; fi
pushd $(BUILDDIR)/frag && ../../pickle-to-xml.py ../pickle/index.fpickle > navigation.xml && popd
cp -r $(BUILDDIR)/pickle/_images $(BUILDDIR)/frag
html: copy-sources $(IMAGES)
$(SPHINXBUILD) -b html $(ALLSPHINXOPTS) $(BUILDDIR)/html
@echo
@echo "Build finished. The HTML pages are in $(BUILDDIR)/html."
dirhtml: copy-sources $(IMAGES)
$(SPHINXBUILD) -b dirhtml $(ALLSPHINXOPTS) $(BUILDDIR)/dirhtml
@echo
@echo "Build finished. The HTML pages are in $(BUILDDIR)/dirhtml."
singlehtml: copy-sources $(IMAGES)
$(SPHINXBUILD) -b singlehtml $(ALLSPHINXOPTS) $(BUILDDIR)/singlehtml
@echo
@echo "Build finished. The HTML page is in $(BUILDDIR)/singlehtml."
pickle: copy-sources $(IMAGES)
$(SPHINXBUILD) -b pickle $(ALLSPHINXOPTS) $(BUILDDIR)/pickle
@echo
@echo "Build finished; now you can process the pickle files."
json: copy-sources $(IMAGES)
$(SPHINXBUILD) -b json $(ALLSPHINXOPTS) $(BUILDDIR)/json
@echo
@echo "Build finished; now you can process the JSON files."
htmlhelp: copy-sources $(IMAGES)
$(SPHINXBUILD) -b htmlhelp $(ALLSPHINXOPTS) $(BUILDDIR)/htmlhelp
@echo
@echo "Build finished; now you can run HTML Help Workshop with the" \
".hhp project file in $(BUILDDIR)/htmlhelp."
qthelp: copy-sources $(IMAGES)
$(SPHINXBUILD) -b qthelp $(ALLSPHINXOPTS) $(BUILDDIR)/qthelp
@echo
@echo "Build finished; now you can run "qcollectiongenerator" with the" \
".qhcp project file in $(BUILDDIR)/qthelp, like this:"
@echo "# qcollectiongenerator $(BUILDDIR)/qthelp/ns-3.qhcp"
@echo "To view the help file:"
@echo "# assistant -collectionFile $(BUILDDIR)/qthelp/ns-3.qhc"
devhelp: copy-sources $(IMAGES)
$(SPHINXBUILD) -b devhelp $(ALLSPHINXOPTS) $(BUILDDIR)/devhelp
@echo
@echo "Build finished."
@echo "To view the help file:"
@echo "# mkdir -p $$HOME/.local/share/devhelp/ns-3"
@echo "# ln -s $(BUILDDIR)/devhelp $$HOME/.local/share/devhelp/ns-3"
@echo "# devhelp"
epub: copy-sources $(IMAGES)
$(SPHINXBUILD) -b epub $(ALLSPHINXOPTS) $(BUILDDIR)/epub
@echo
@echo "Build finished. The epub file is in $(BUILDDIR)/epub."
latex: copy-sources $(IMAGES)
$(SPHINXBUILD) -b latex $(ALLSPHINXOPTS) $(BUILDDIR)/latex
@echo
@echo "Build finished; the LaTeX files are in $(BUILDDIR)/latex."
@echo "Run \`make' in that directory to run these through (pdf)latex" \
"(use \`make latexpdf' here to do that automatically)."
latexpdf: copy-sources $(IMAGES)
$(SPHINXBUILD) -b latex $(ALLSPHINXOPTS) $(BUILDDIR)/latex
@echo "Running LaTeX files through pdflatex..."
make -C $(BUILDDIR)/latex all-pdf
@echo "pdflatex finished; the PDF files are in $(BUILDDIR)/latex."
text: copy-sources $(IMAGES)
$(SPHINXBUILD) -b text $(ALLSPHINXOPTS) $(BUILDDIR)/text
@echo
@echo "Build finished. The text files are in $(BUILDDIR)/text."
man: copy-sources $(IMAGES)
$(SPHINXBUILD) -b man $(ALLSPHINXOPTS) $(BUILDDIR)/man
@echo
@echo "Build finished. The manual pages are in $(BUILDDIR)/man."
changes: copy-sources $(IMAGES)
$(SPHINXBUILD) -b changes $(ALLSPHINXOPTS) $(BUILDDIR)/changes
@echo
@echo "The overview file is in $(BUILDDIR)/changes."
linkcheck: copy-sources $(IMAGEs)
$(SPHINXBUILD) -b linkcheck $(ALLSPHINXOPTS) $(BUILDDIR)/linkcheck
@echo
@echo "Link check complete; look for any errors in the above output " \
"or in $(BUILDDIR)/linkcheck/output.txt."
doctest: copy-sources $(IMAGES)
$(SPHINXBUILD) -b doctest $(ALLSPHINXOPTS) $(BUILDDIR)/doctest
@echo "Testing of doctests in the sources finished, look at the " \
"results in $(BUILDDIR)/doctest/output.txt."
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